Federal Involvement in Ocean-Based Research and Development

Changes from May 1, 2023 to May 6, 2026

This page shows textual changes in the document between the two versions indicated in the dates above. Textual matter removed in the later version is indicated with ~~red strikethrough~~ and textual matter added in the later version is indicated with blue.

Federal Involvement in Ocean-Based Research ~~May 1, 2023~~
~~and Development~~
~~Caitlin Keating-Bitonti~~
and Development Updated May 6, 2026 (R47021) Jump to Main Text of Report

Introduction
Federal Ocean Research Infrastructure and Equipment
National Oceanic and Atmospheric Administration
National Aeronautics and Space Administration
U.S. Geological Survey
Bureau of Ocean Energy Management
National Science Foundation
U.S. Department of the Navy
Oceanographic Data
Ocean Data Trends and Climate Change
Selected Issues for Congress
Ocean Data and Research Needs Related to Climate Change
Applications of Ocean Exploration and Bathymetric Data
Marine Geologic Hazards
Environmental Protection of the Deep Sea
Seabed Mineral Resource Deposits

Figures

Figure 1. NOAA Argo Profiling Float 10-Day Data Collection Cycle
Figure 2. Major Areas of Coastal Upwelling
Figure A-1. Phytoplankton Bloom off the Washington Coast

Tables

Table 1. Selected Physical Oceanographic Variables
Table 2. Selected Biogeochemical Oceanographic Variables
Table 3. Congressional Appropriations Applied to NOAA Argo Program

Appendixes

Appendix A. Background on Selected Physical Oceanographic Variables
Appendix B. Background on Selected Biogeochemical Oceanographic Variables

Summary

Multiple federal departments and agencies conduct ocean-based research, monitoring, and/or ~~Multiple federal departments and agencies conduct ocean-based research, monitoring, and/or~~
~~Analyst in Natural~~
technological development. Federal departments and agencies also may support academic, technological development. Federal departments and agencies also may support academic,
~~Resources Policy~~
commercial, and nonprofit ocean-based research activities. The interpretation of oceanographic commercial, and nonprofit ocean-based research activities. The interpretation of oceanographic

data collected and studied by these federal departments and agencies provides information to data collected and studied by these federal departments and agencies provides information to
domestic policymakers, including Members of Congress, on relevant societal issues. These issues domestic policymakers, including Members of Congress, on relevant societal issues. These issues

may pertain directly to coastal communities, including U.S. island states and territories. Ocean-may pertain directly to coastal communities, including U.S. island states and territories. Ocean-
based issues related to climate change, environmental protection, and natural resource management also can extend beyond based issues related to climate change, environmental protection, and natural resource management also can extend beyond
coastal communities.coastal communities.
The federal government generally is involved in ocean-based research, monitoring, and technological development to The federal government generally is involved in ocean-based research, monitoring, and technological development to
increase knowledge and understanding of the ocean. International interests also frame federal ocean work, as the ocean increase knowledge and understanding of the ocean. International interests also frame federal ocean work, as the ocean
supports global trade and recreation. The federal departments and agencies involved in ocean-based research, monitoring, and supports global trade and recreation. The federal departments and agencies involved in ocean-based research, monitoring, and
technological development include the National Oceanic and Atmospheric Administration (NOAA), the National technological development include the National Oceanic and Atmospheric Administration (NOAA), the National
Aeronautics and Space Administration (NASA), the U.S. Geological Survey (USGS), the Bureau of Ocean Energy Aeronautics and Space Administration (NASA), the U.S. Geological Survey (USGS), the Bureau of Ocean Energy
Management, the National Science Foundation (NSF), and the Office of Naval Research (ONR) of the Department of the Management, the National Science Foundation (NSF), and the Office of Naval Research (ONR) of the Department of the
Navy, among others.Navy, among others.
Federal ocean data collection efforts are varied and make use of many different types of tools and technology. NOAA, ONR, Federal ocean data collection efforts are varied and make use of many different types of tools and technology. NOAA, ONR,
and NSF own oceanographic research vessels that enable scientists to collect observational data with ship-based equipment and NSF own oceanographic research vessels that enable scientists to collect observational data with ship-based equipment
(e.g., multibeam sonar sensors, sediment corers). Technology such as autonomous underwater vehicles, launched from land (e.g., multibeam sonar sensors, sediment corers). Technology such as autonomous underwater vehicles, launched from land
or ships, has the capability to collect and automatically send large volumes of data to nearby shore facilities or back to the or ships, has the capability to collect and automatically send large volumes of data to nearby shore facilities or back to the
vessel. In addition, remote- or human-operated vehicles and human technical divers can be used for exploration (including vessel. In addition, remote- or human-operated vehicles and human technical divers can be used for exploration (including
data collection and sampling) and visualization of the ocean. NASA, NOAA, and the USGS monitor ocean and coastal data collection and sampling) and visualization of the ocean. NASA, NOAA, and the USGS monitor ocean and coastal
waters with satellites. Several federal departments and agencies also use deployed instruments (e.g., buoys, floats), stationary waters with satellites. Several federal departments and agencies also use deployed instruments (e.g., buoys, floats), stationary
monitoring (e.g., tide gauges), and other approaches to collect oceanographic data and monitor the ocean. NSF funds monitoring (e.g., tide gauges), and other approaches to collect oceanographic data and monitor the ocean. NSF funds
extramural research, such as through grants for projects where nonfederal entities carry out various types of ocean-based extramural research, such as through grants for projects where nonfederal entities carry out various types of ocean-based
research and analysis efforts.research and analysis efforts.
Congress may be interested in the potential for federal ocean-based research to inform the nationCongress may be interested in the potential for federal ocean-based research to inform the nation’'s evolving understanding of s evolving understanding of
the physical ocean. Some scientists and environmental and climate advocates argue that continuous, systematic ocean the physical ocean. Some scientists and environmental and climate advocates argue that continuous, systematic ocean
observations (e.g., temperature, salinity) may help identify climate impacts that contribute to ocean changes (e.g., warming, observations (e.g., temperature, salinity) may help identify climate impacts that contribute to ocean changes (e.g., warming,
sea ice melt) and, in turn, may affect society. For example, NOAA maintains about half of the global fleet of Argo profiling sea ice melt) and, in turn, may affect society. For example, NOAA maintains about half of the global fleet of Argo profiling
floats, which drift with ocean currents, collecting oceanographic data. Stakeholders, and some Members of Congress, floats, which drift with ocean currents, collecting oceanographic data. Stakeholders, and some Members of Congress,
identified the Argo Program as one federal program that could benefit from improved float technology designed to expand identified the Argo Program as one federal program that could benefit from improved float technology designed to expand
the programthe program’'s coverage to greater ocean depths.s coverage to greater ocean depths.
The collection and study of bathymetric data (i.e., the depth of the seafloor relative to the surface of the ocean) and geological The collection and study of bathymetric data (i.e., the depth of the seafloor relative to the surface of the ocean) and geological
and geophysical surveys have provided scientists with the data necessary to better map and characterize the ocean and geophysical surveys have provided scientists with the data necessary to better map and characterize the ocean
environment. Mapping and characterization of ocean areas may provide both economic and environmental benefits that may environment. Mapping and characterization of ocean areas may provide both economic and environmental benefits that may
be of interest to Congress. For example, knowledge of seafloor features and environments can be used to locate potential be of interest to Congress. For example, knowledge of seafloor features and environments can be used to locate potential
offshore oil and gas reserves and seabed minerals (e.g., critical minerals). At the same time, characterization of marine offshore oil and gas reserves and seabed minerals (e.g., critical minerals). At the same time, characterization of marine
habitats can provide baselines for understanding whether and how vulnerable certain habitats might be to human disturbance habitats can provide baselines for understanding whether and how vulnerable certain habitats might be to human disturbance
(e.g., resource extraction activities) or climate change. Bathymetric data also can be used to identify geologic features that (e.g., resource extraction activities) or climate change. Bathymetric data also can be used to identify geologic features that
may produce marine geohazard events (e.g., earthquakes, tsunamis, marine landslides) to help safeguard coastal communities may produce marine geohazard events (e.g., earthquakes, tsunamis, marine landslides) to help safeguard coastal communities
and marine infrastructure (e.g., pipelines, undersea cables). Conversely, ocean mapping and research can be costly and time and marine infrastructure (e.g., pipelines, undersea cables). Conversely, ocean mapping and research can be costly and time
consuming; some may question the relative priority of such activities compared with both other ocean-based efforts and other consuming; some may question the relative priority of such activities compared with both other ocean-based efforts and other
federal activities.federal activities.
~~Congressional Research Service~~

~~Federal Involvement in Ocean-Based Research and Development~~

~~Introduction~~

Introduction

The Atlantic, Indian, Pacific, Arctic, and Southern Oceans (collectively, the The Atlantic, Indian, Pacific, Arctic, and Southern Oceans (collectively, the global ocean) are ) are
interconnected and comprise about 71% of Earthinterconnected and comprise about 71% of Earth’'s surface. The global ocean affects various U.S. s surface. The global ocean affects various U.S.
economic sectors, including those in the economic sectors, including those in the blue economy,,11 and provides societal resources (e.g., and provides societal resources (e.g.,
coastal protection, storage of carbon). For example, the ocean influences Earthcoastal protection, storage of carbon). For example, the ocean influences Earth’'s weather in ways s weather in ways
that can affect things such as the amount of snowpack and spring melt, the strength and intensity that can affect things such as the amount of snowpack and spring melt, the strength and intensity
of hurricanes making landfall, and seasonal crop yields.of hurricanes making landfall, and seasonal crop yields.
The ocean is also a major component of the global climate system, as it absorbs, retains, and The ocean is also a major component of the global climate system, as it absorbs, retains, and
transports heat, water, and carbon. Scientists estimate with high confidence that the global ocean transports heat, water, and carbon. Scientists estimate with high confidence that the global ocean
has absorbed more than 90% of the atmospherehas absorbed more than 90% of the atmosphere’'s human-induced excess heat; since the 1980s, it s human-induced excess heat; since the 1980s, it
has very likely absorbed between 20% and 30% of total anthropogenic (human-related) carbon has very likely absorbed between 20% and 30% of total anthropogenic (human-related) carbon
dioxide (dioxide (~~CO2~~CO₂) emissions.) emissions.22 Climate change impacts on the ocean (e.g., warming) have affected Climate change impacts on the ocean (e.g., warming) have affected
marine fisheries, the marine tourism and recreation sector, and global food security.marine fisheries, the marine tourism and recreation sector, and global food security.33 Many view Many view
the continued observation and monitoring of the global ocean as important tools for assessing the continued observation and monitoring of the global ocean as important tools for assessing
climate change impacts on marine natural resources and related ecosystems.climate change impacts on marine natural resources and related ecosystems.
Selected federal departments and agencies pursuing mission-based, long-term data collection and Selected federal departments and agencies pursuing mission-based, long-term data collection and
monitoring of the ocean include the Department of Commercemonitoring of the ocean include the Department of Commerce’'s National Oceanic and s National Oceanic and
Atmospheric Administration (NOAA); the National Aeronautics and Space Administration Atmospheric Administration (NOAA); the National Aeronautics and Space Administration
(NASA); the Department of the Interior(NASA); the Department of the Interior’'s U.S. Geological Survey (USGS) and Bureau of Ocean s U.S. Geological Survey (USGS) and Bureau of Ocean
Energy Management (BOEM); and the Department of the NavyEnergy Management (BOEM); and the Department of the Navy’'s (DONs (DON’'s) Office of Naval s) Office of Naval
Research (ONR). The National Science Foundation (NSF)Research (ONR). The National Science Foundation (NSF) is an independent agency that provides is an independent agency that provides
grant funding for short-term ocean research projects that investigate specific hypotheses and grant funding for short-term ocean research projects that investigate specific hypotheses and
research questions. The NSF also supports research infrastructure (e.g., research facilities, research questions. The NSF also supports research infrastructure (e.g., research facilities,
oceanographic research vessels, equipment and instruments, and other resources). Oceanographic oceanographic research vessels, equipment and instruments, and other resources). Oceanographic
data collected and studied by these federal departments and agencies—and the academic, data collected and studied by these federal departments and agencies—and the academic,
commercial, and nonprofit research the federal government helps support—provide information commercial, and nonprofit research the federal government helps support—provide information
to domestic policymakers, including Members of Congress.to domestic policymakers, including Members of Congress.
Congressional interest in federal ocean data collection and research is multifold and includes Congressional interest in federal ocean data collection and research is multifold and includes
issues related to authorizing and funding specific ocean research activities and performing issues related to authorizing and funding specific ocean research activities and performing
oversight on the implementation of federal ocean research. Congressional funding for federal oversight on the implementation of federal ocean research. Congressional funding for federal
departments and agencies that conduct ocean-based research allows for the continued monitoring departments and agencies that conduct ocean-based research allows for the continued monitoring
of the ocean and the development of novel technologies to do so. In turn, Congress may use the of the ocean and the development of novel technologies to do so. In turn, Congress may use the
data and knowledge gained by these federal departments and agencies to inform legislation and data and knowledge gained by these federal departments and agencies to inform legislation and
oversight. Ocean research may provide other benefits, such as supporting the blue economy and oversight. Ocean research may provide other benefits, such as supporting the blue economy and
efforts to protect sensitive marine habitats and their wildlife. At the same time, the collection and efforts to protect sensitive marine habitats and their wildlife. At the same time, the collection and
~~monitoring of ocean data by the federal government can be time consuming and costly. Some~~

~~1 Activities that may be considered part of the blue economy include living marine resources, coastal and marine~~
~~construction, marine research and education, marine transportation and warehousing, marine professional and technical~~
~~services, offshore minerals, coastal utilities, coastal and offshore tourism and recreation, nonrecreational ship and boat~~
~~building, and national defense and public administration. For more information, see CRS In Focus IF12188,~~ ~~What Is~~
~~the Blue Economy?, by Caitlin Keating-Bitonti and Eva Lipiec.~~
~~2 Intergovernmental Panel on Climate Change (IPCC), “Summary for Policymakers,” in~~ ~~The Ocean and Cryosphere in~~
~~a Changing Climate: A Special Report of the Intergovernmental Panel on Climate Change, eds. Hans-Otto Pörtner et~~
~~al., 2019, p. 9. Hereinafter referred to as IPCC, Ocean and Cryosphere.~~
~~3 National Oceanic and Atmospheric Administration (NOAA), “Understanding Our Changing Climates,” at~~
~~https://www.fisheries.noaa.gov/insight/understanding-our-changing-climate.~~
~~Congressional Research Service~~

1

~~link to page 23~~ ~~Federal Involvement in Ocean-Based Research and Development~~

monitoring of ocean data by the federal government can be time consuming and costly. Some may question the relative priority of such efforts compared to both other ocean-based efforts and may question the relative priority of such efforts compared to both other ocean-based efforts and
other federal activities.other federal activities.
This report provides an overview of the federal governmentThis report provides an overview of the federal government’'s efforts to collect ocean-based data s efforts to collect ocean-based data
through observations and monitoring and to conduct and support federal and U.S-based through observations and monitoring and to conduct and support federal and U.S-based
extramural ocean-based scientific research. It also discusses selected federal grant making efforts extramural ocean-based scientific research. It also discusses selected federal grant making efforts
for these purposes. The report further explores the how ocean-based data may illuminate the for these purposes. The report further explores the how ocean-based data may illuminate the
impacts of climate change (e.g., data collected through NOAAimpacts of climate change (e.g., data collected through NOAA’'s Argo Program) and how s Argo Program) and how
interagency collaboration on the mapping and characterization of the seafloor and its interagency collaboration on the mapping and characterization of the seafloor and its
environments may inform federal policy on deep-sea geohazards and natural resources.environments may inform federal policy on deep-sea geohazards and natural resources.⁴4
Federal Ocean Research Infrastructure
and Equipment
Federal research infrastructure and equipment used to collect and monitor ocean data form the Federal research infrastructure and equipment used to collect and monitor ocean data form the
basis for much ocean research. The analysis of these data has the potential to elucidate threats basis for much ocean research. The analysis of these data has the potential to elucidate threats
(anthropogenic and natural) to the ocean and its changing nature, contribute to marine resource (anthropogenic and natural) to the ocean and its changing nature, contribute to marine resource
(e.g., offshore energy and seabed mineral) exploitation, help maximize commercial fisheries (e.g., offshore energy and seabed mineral) exploitation, help maximize commercial fisheries
yields, and provide warnings for marine geohazard and storm events. The information gained yields, and provide warnings for marine geohazard and storm events. The information gained
from these analyses may inform federal policy that aims to protect the ocean, the economic from these analyses may inform federal policy that aims to protect the ocean, the economic
sectors that depend on marine resources, and coastal communities.sectors that depend on marine resources, and coastal communities.
Federal departments and agencies have established programs and projects Federal departments and agencies have established programs and projects ~~to collect ocean data,~~
that support ocean research, using federal and nonfederal assets for observations. These data are collected with various forms using federal and nonfederal assets for observations. These data are collected with various forms
of equipment, such as satellites (of equipment, such as satellites (~~NOAA, NASA~~NASA, NOAA, USGS); ships (NOAA, , USGS); ships (NOAA, ~~USGS, BOEM, ONR);~~
NSF, ONR, USGS); aircraft (aircraft (~~NOAA, NASA~~NASA, NOAA); and various deployed objects, such as ); and various deployed objects, such as ~~buoys~~arrays, buoys, and floats (NOAA and floats (NOAA, NSF, USGS). In ). In
addition, federal agencies may use ocean data collected by international, regional, and private-addition, federal agencies may use ocean data collected by international, regional, and private-
sector partners and integrate these data into federal databases; for example, the European sector partners and integrate these data into federal databases; for example, the European
Organisation for the Exploitation of Meteorological SatellitesOrganisation for the Exploitation of Meteorological Satellites’' polar satellite system contributes polar satellite system contributes
to NOAAto NOAA’'s Joint Polar System.s Joint Polar System.55 Stationary coastal equipment, such as tide and water-quality Stationary coastal equipment, such as tide and water-quality
gauges (USGS), collect and monitor local oceanographic data. Ship-based equipment allows for gauges (USGS), collect and monitor local oceanographic data. Ship-based equipment allows for
detailed mapping (e.g., multibeam sonar sensors),detailed mapping (e.g., multibeam sonar sensors),66 exploration (e.g., human technical divers), exploration (e.g., human technical divers),
visualization (e.g., remote or human operated vehicles), and sampling (e.g., nets, tows, grab visualization (e.g., remote or human operated vehicles), and sampling (e.g., nets, tows, grab
samplers, sediment corers) of targeted site locations. Autonomous underwater vehicles (AUVs), samplers, sediment corers) of targeted site locations. Autonomous underwater vehicles (AUVs),
routinely launched from ships, collect and automatically send large volumes of data to a nearby routinely launched from ships, collect and automatically send large volumes of data to a nearby
shore facility or back to the vessel.shore facility or back to the vessel.
The below sections provide examples of individual federal department and agency ocean research The below sections provide examples of individual federal department and agency ocean research
efforts. The sections below do not provide an exhaustive list of all the departments and agencies efforts. The sections below do not provide an exhaustive list of all the departments and agencies
~~and their respective programs that conduct ocean-based research.~~

~~4 Marine geohazards include earthquakes, volcanic eruptions, landslides, and tsunamis.~~
~~5 European Organisation for the Exploitation of Meteorological Satellites, “Metop Series,” at https://www.eumetsat.int/~~
~~our-satellites/metop-series.~~
~~6 A multibeam sonar sends out simultaneous sonar beams (sound waves) in a fan-shaped pattern to collect seafloor~~
~~information surrounding the ship. For more information, see the Seafloor Bathymetry section in Appendix A.~~
~~Congressional Research Service~~

2

~~link to page 8~~ ~~Federal Involvement in Ocean-Based Research and Development~~

and their respective programs that conduct ocean-based research. National Oceanic and Atmospheric Administration
NOAANOAA’'s mission includes improving the understanding of the natural world (ocean, climate, s mission includes improving the understanding of the natural world (ocean, climate,
space, and weather), protecting those resources, and monitoring global weather and climate. To space, and weather), protecting those resources, and monitoring global weather and climate. To
study the ocean, NOAA uses satellites, ships, remotely operated vehicles (ROVs), AUVs, aircraft, study the ocean, NOAA uses satellites, ships, remotely operated vehicles (ROVs), AUVs, aircraft,
and other smaller deployed instruments (e.g., buoys). NOAA is structured in six line offices that and other smaller deployed instruments (e.g., buoys). NOAA is structured in six line offices that
cover various aspects of the natural world.cover various aspects of the natural world.77 Four of NOAA Four of NOAA’'s six line offices are applicable to this s six line offices are applicable to this
report. Those four line offices and their program offices are described below to illustrate some of report. Those four line offices and their program offices are described below to illustrate some of
the ocean research conducted by NOAA.the ocean research conducted by NOAA.
The National Environmental Satellite, Data and Information Service (NESDIS) manages the The National Environmental Satellite, Data and Information Service (NESDIS) manages the
~~nation’~~nation's operational environmental satellites and provides access to the environmental data they s operational environmental satellites and provides access to the environmental data they
collect to support research and enhance national security and the economy.collect to support research and enhance national security and the economy.88 Selected NOAA Selected NOAA
satellites (i.e., NOAA-20, Suomi National Polar-Orbiting Partnership, and Jason-3) are discussed satellites (i.e., NOAA-20, Suomi National Polar-Orbiting Partnership, and Jason-3) are discussed
in greater detail in the in greater detail in the "“National Aeronautics and Space Administration,~~” below.”9~~
," below."⁹ The Office of Marine and Aviation Operations (OMAO) controls specialized aircraft and ships The Office of Marine and Aviation Operations (OMAO) controls specialized aircraft and ships
and oversees small boat and underwater activities (including human technical diving) that help and oversees small boat and underwater activities (including human technical diving) that help
achieve NOAAachieve NOAA’'s environmental and scientific missions. It operates 15 ships, including the s environmental and scientific missions. It operates 15 ships, including the
Okeanos Explorer, four manned aircraft, and several unmanned aircraft systems., four manned aircraft, and several unmanned aircraft systems.¹⁰ 10
The National Ocean Service (NOS) leads NOAAThe National Ocean Service (NOS) leads NOAA’'s navigation and charting activities and s navigation and charting activities and
coordinates a federal interagency program dedicated to coastal and ocean observations and coordinates a federal interagency program dedicated to coastal and ocean observations and
research. NOSresearch. NOS’'s U.S. Integrated Ocean Observing System (IOOS) provides support, funding, s U.S. Integrated Ocean Observing System (IOOS) provides support, funding,
guidance, and advice for tracking, predicting, managing, and adapting to environmental changes guidance, and advice for tracking, predicting, managing, and adapting to environmental changes
in the ocean, coastal system, and Great Lakes.in the ocean, coastal system, and Great Lakes.1111 In addition to managing some federal ocean data In addition to managing some federal ocean data
and modeling systems, IOOS integrates certain nonfederal information into these systems. These and modeling systems, IOOS integrates certain nonfederal information into these systems. These
systems can be used to inform decisionmaking on coastal monitoring, coastal and ocean systems can be used to inform decisionmaking on coastal monitoring, coastal and ocean
development, and changes in the Arctic.development, and changes in the Arctic.12
12 The Office of Oceanic and Atmospheric Research (OAR) conducts various aspects of ocean The Office of Oceanic and Atmospheric Research (OAR) conducts various aspects of ocean
research across at least four offices.research across at least four offices.
 The Office of Ocean Exploration and Research is the only federal organizationThe Office of Ocean Exploration and Research is the only federal organization
dedicated to exploring the deep ocean.dedicated to exploring the deep ocean.1313 NOAA NOAA’'s s Okeanos Explorer is outfitted is outfitted
with the necessary technology to map the seafloor during research expeditions.with the necessary technology to map the seafloor during research expeditions.14
14 NOAA uses other infrastructure, such as aircraft equipped with remote sensing NOAA uses other infrastructure, such as aircraft equipped with remote sensing
~~technology and submersible ROVs, to map the depth and shape of the seafloor.~~

~~7 NOAA, “NOAA Line Offices,” at https://www.corporateservices.noaa.gov/public/lineoffices.html.~~
~~8 NOAA, “Our Mission,” at https://www.nesdis.noaa.gov/about/our-mission.~~
~~9 NOAA, “Currently Flying,” at https://www.nesdis.noaa.gov/current-satellite-missions/currently-flying.~~
~~10 NOAA, “Fleet,” at https://www.omao.noaa.gov/about.~~
~~11 The Integrated Coastal and Ocean Observation System Act of 2009 (49 U.S.C. §§3601 et seq.) established the U.S.~~
~~Integrated Ocean Observing System (IOOS). Prior to the passing of the 2009 act, no coordinated approach to coastal~~
~~and ocean observing existed. NOAA, “IOOS by the Numbers,” at https://ioos.noaa.gov/about/ioos-by-the-numbers/.~~
~~12 NOAA, “Societal Benefits,” at https://ioos.noaa.gov/about/societal-benefits/.~~
~~13 NOAA, “About NOAA Ocean Exploration,” at https://oceanexplorer.noaa.gov/about/welcome.html.~~
~~14 While the mission equipment onboard Okeanos Explorer is operated by NOAA’s Office of Ocean Exploration and~~
~~Research, the ship is managed by NOAA’s Office of Marine and Aviation Operations. NOAA, “About NOAA Ship~~
Okeanos Explorer,” at https://oceanexplorer.noaa.gov/okeanos/about.html.
~~Congressional Research Service~~

3

~~link to page 8~~ ~~Federal Involvement in Ocean-Based Research and Development~~

technology and submersible ROVs, to map the depth and shape of the seafloor. This office also funds non-NOAA, U.S.-based researchers conducting ocean This office also funds non-NOAA, U.S.-based researchers conducting ocean
exploration to better document and understand the ocean.exploration to better document and understand the ocean.15
 15 The Climate Program Office manages a competitive grant program to fund high-The Climate Program Office manages a competitive grant program to fund high-
priority climate science research on Earthpriority climate science research on Earth’'s climate system, including its s climate system, including its
atmosphere, ocean, land, and ice. Research funded by these grants aims to atmosphere, ocean, land, and ice. Research funded by these grants aims to
quantify the amount of heat and quantify the amount of heat and ~~CO2~~ CO₂uptake by the global ocean, estimate rates of uptake by the global ocean, estimate rates of
sea level rise, and provide adaptation tools for fisheries threatened by warming sea level rise, and provide adaptation tools for fisheries threatened by warming
ocean waters, among other findings.ocean waters, among other findings.
 The Ocean Acidification Program coordinates research and activities to better The Ocean Acidification Program coordinates research and activities to better
understand the oceanunderstand the ocean’'s chemistry, how it is changing, its rate of change, how s chemistry, how it is changing, its rate of change, how
change varies regionally, and how marine life (e.g., coral reefs), people, and the change varies regionally, and how marine life (e.g., coral reefs), people, and the
economy (e.g., the marine tourism and recreation sectors) are impacted by these economy (e.g., the marine tourism and recreation sectors) are impacted by these
changes. This program also provides funds for extramural research and ensures changes. This program also provides funds for extramural research and ensures
that data collected by funded projects are archived and accessible for future that data collected by funded projects are archived and accessible for future
research use.research use.16
 16 The objective of the Global Ocean Monitoring and Observing Program (GOMO), The objective of the Global Ocean Monitoring and Observing Program (GOMO),
funded under OARfunded under OAR’'s Sustained Ocean Observing and Monitoring (SOOM) s Sustained Ocean Observing and Monitoring (SOOM)
Program,Program,1717 is to conduct continuous, in situ observations for ocean-based is to conduct continuous, in situ observations for ocean-based
research, monitoring, and prediction. The GOMO supports the collection of more research, monitoring, and prediction. The GOMO supports the collection of more
than 1 million oceanographic observations per day through various activities such than 1 million oceanographic observations per day through various activities such
as the Global Ocean Carbon Network and the Argo Program, among others.as the Global Ocean Carbon Network and the Argo Program, among others.1818 The The
Global Ocean Carbon Network aims to help researchers better understand the Global Ocean Carbon Network aims to help researchers better understand the
~~ocean’~~ocean's role in the global carbon cycle, including how the ocean absorbs s role in the global carbon cycle, including how the ocean absorbs
atmospheric atmospheric ~~CO2~~CO₂ and distributes carbon throughout the global ocean. The Argo and distributes carbon throughout the global ocean. The Argo
Program is composed of nearly 4,000 Argo Profiling Program is composed of nearly 4,000 Argo Profiling ~~Float~~sFloats (Figure 1). These . These
floats drift with currents across the global ocean, capturing over time a near-floats drift with currents across the global ocean, capturing over time a near-
global record of ocean temperature, salinity, dissolved oxygen, and pH data.global record of ocean temperature, salinity, dissolved oxygen, and pH data.19
19 The Argo Program is international, with participation and program funding from The Argo Program is international, with participation and program funding from
~~over 25 countries; NOAA maintains about half of the global fleet.20~~

~~15 NOAA, “Federal Funding Opportunity,” at https://oceanexplorer.noaa.gov/about/funding-opps/welcome.html.~~
~~16 NOAA, “Data Collection and Management,” at https://oceanacidification.noaa.gov/WhatWeDo/Data.aspx. For more~~
~~information on ocean acidification, see CRS Report R47300, Ocean Acidification: Frequently Asked Questions, by~~
~~Caitlin Keating-Bitonti and Eva Lipiec.~~
~~17 NOAA’s Sustained Ocean Observations and Monitoring (SOOM) Program, Project Activity (PPA) is a funding line~~
~~in NOAA’s budget. GOMO is the NOAA program that receives the initial allocation of the SOOM PPA; but SOOM is~~
~~not GOMO’s sole funding source. GOMO may use SOOM funds to support other programs that contribute to the~~
~~overall priorities set by GOMO. Email correspondence with NOAA, Congressional Affairs Specialist, Office of~~
~~Legislative and Intergovernmental Affairs, December 13, 2021.~~
~~18 NOAA, “Global Ocean Monitoring and Observing,” at https://globalocean.noaa.gov/About-Us.~~
~~19 NOAA, “NOAA Updates Sea Surface Temperature Dataset,” at https://www.ncei.noaa.gov/news/noaa-updates-sea-~~
~~surface-temperature-dataset.~~
~~20 NOAA, “Argo Program Achieves Milestone with Two Million Ocean Measurements,” at https://research.noaa.gov/~~
~~article/ArtMID/587/ArticleID/2398.~~
~~Congressional Research Service~~

4

~~Federal Involvement in Ocean-Based Research and Development~~

~~Figure 1. NOAA Argo Profiling Float 10-Day Data Collection Cycle~~

over 25 countries; NOAA maintains about half of the global fleet.²⁰

Figure 1. NOAA Argo Profiling Float 10-Day Data Collection Cycle Source: National Oceanic and Atmospheric Administration (NOAA), National Oceanic and Atmospheric Administration (NOAA), “"The Argo Program,The Argo Program,~~” at~~"
https://globalocean.noaa.gov/Research/Argo-Programhttps://globalocean.noaa.gov/Research/Argo-Program.
. Notes: km = kilometers; cm/s = centimeters per second; min = minutes; and hrs = hours. At the end of the 10- km = kilometers; cm/s = centimeters per second; min = minutes; and hrs = hours. At the end of the 10-
day cycle, Argo floats transmit data to satellites from which data are day cycle, Argo floats transmit data to satellites from which data are ~~col ected~~collected and processed for public use. and processed for public use.
National Aeronautics and Space Administration
NASA studies the Earth, including its ocean and climate, the sun, and the solar system and NASA studies the Earth, including its ocean and climate, the sun, and the solar system and
beyond. In the 1960s, NASA began launching satellites to monitor Earthbeyond. In the 1960s, NASA began launching satellites to monitor Earth’'s weather. NASA has s weather. NASA has
since expanded the types of Earth-observing data it collects with satellites designed to study since expanded the types of Earth-observing data it collects with satellites designed to study
~~Earth’~~Earth's climate system.s climate system.
~~NASA’~~ NASA's Earth Science Division plans, develops, and operates missions that support the science s Earth Science Division plans, develops, and operates missions that support the science
of Earthof Earth’'s atmosphere, land cover and vegetation, ocean currents and upper-ocean life, and s atmosphere, land cover and vegetation, ocean currents and upper-ocean life, and
continental and sea ice.continental and sea ice.2121 The bulleted list below is not an exhaustive list of all ocean research The bulleted list below is not an exhaustive list of all ocean research
missions carried out by NASA but describes selected satellites that support NASAmissions carried out by NASA but describes selected satellites that support NASA’'s Earth s Earth
observing missions and supply ocean data to researchers.observing missions and supply ocean data to researchers.
 Aqua. This satellite This satellite’'s mission is to collect information about Earths mission is to collect information about Earth’'s global water s global water
cycle, including sea surface temperature (SST) and ocean color. The satellite has cycle, including sea surface temperature (SST) and ocean color. The satellite has

~~21 National Aeronautics and Space Administration (NASA), “NASA Earth Science Division Mission,” October 18,~~
~~2021, at https://svs.gsfc.nasa.gov/30065.~~
~~Congressional Research Service~~

5

~~Federal Involvement in Ocean-Based Research and Development~~

four operating instruments that collect and transmit high-quality data to inform four operating instruments that collect and transmit high-quality data to inform
weather forecasts, carbon management, coastal management, disaster weather forecasts, carbon management, coastal management, disaster
management, and water management.management, and water management.22
 22 OCO-2. This satellite is the first satellite to collect space-based measurements of This satellite is the first satellite to collect space-based measurements of
~~atmospheric CO2.23~~atmospheric CO₂.²³ These measurements help identify areas that are natural These measurements help identify areas that are natural ~~CO2~~
CO₂ sinks, such as the ocean.sinks, such as the ocean.
 Terra. This satellite is equipped with five instruments that are capable of This satellite is equipped with five instruments that are capable of
comparing different aspects of Earth over time, including SST and ocean color.comparing different aspects of Earth over time, including SST and ocean color.²⁴ 24
 Jason-3. This NASA and NOAA partnership satellite is equipped with This NASA and NOAA partnership satellite is equipped with
technology to collect detailed sea level measurements (altimetry) to gain insight technology to collect detailed sea level measurements (altimetry) to gain insight
into ocean circulation and climate change.into ocean circulation and climate change.25
 25 Sentinel-6. This NASA and NOAA partnership satellite is equipped with This NASA and NOAA partnership satellite is equipped with
technology capable of collecting sea level measurements within 1 centimeter of technology capable of collecting sea level measurements within 1 centimeter of
precision.precision.26
 26 GRACE-FO. This satellite broadly tracks Earth This satellite broadly tracks Earth’'s water, including ice sheets and s water, including ice sheets and
glaciers, and sea level changes due water additions to the ocean.glaciers, and sea level changes due water additions to the ocean.27
 27 ICESat-2. This satellite measures Earth This satellite measures Earth’'s ice coverage within 4 millimeters of s ice coverage within 4 millimeters of
precision using its only onboard instrument, the Advanced Topographic Laser precision using its only onboard instrument, the Advanced Topographic Laser
Altimeter System.Altimeter System.28
 28 Landsat 8 8 and 9. These satellites are part of a collaboration between NASA and . These satellites are part of a collaboration between NASA and
USGS and primarily collect data on EarthUSGS and primarily collect data on Earth’'s land surface, but also provide s land surface, but also provide
information on shallow coastal seafloor information on shallow coastal seafloor bathymetry (i.e., the depth of the seafloor (i.e., the depth of the seafloor
relative to the surface of the ocean).relative to the surface of the ocean).29
 29 Suomi National Polar-~~Orbiting~~Orbiting Partnership (NPP). This satellite was This satellite was
developed by NASA for NOAAdeveloped by NASA for NOAA’'s Joint Polar Satellite System to provide data for s Joint Polar Satellite System to provide data for
weather forecasts and extreme storm events. Suomi NPP carries five research weather forecasts and extreme storm events. Suomi NPP carries five research
instruments to monitor the climate system (e.g., ocean color) while collecting the instruments to monitor the climate system (e.g., ocean color) while collecting the
operational requirements for weather forecasting (e.g., SST), demonstrating the operational requirements for weather forecasting (e.g., SST), demonstrating the
~~multifunctional nature of satellite technology.30~~

~~22 NASA, “Aqua Earth-Observing Satellite Mission,” at https://aqua.nasa.gov/.~~
~~23 NASA, “Quick Facts,” at https://ocov2.jpl.nasa.gov/mission/quick-facts/.~~
~~24 NASA, “Terra Instruments,” at https://terra.nasa.gov/about/terra-instruments.~~
~~25 NASA, “Jason-3,” at https://www.jpl.nasa.gov/missions/jason-3.~~
~~26 NASA, “Sentinel-6 Mission Overview,” at https://www.nasa.gov/sentinel-6/overview.~~
~~27 NASA, “Mission,” at https://gracefo.jpl.nasa.gov/mission/overview/.~~
~~28 Anna Heiney, “ICESat-2 Successfully Launched on Final Flight of Delta II Rocket,” NASA ICESat-2 blog,~~
~~September 15, 2018, at https://blogs.nasa.gov/icesat2/.~~
~~29 NASA, “Landsat 8 Mission Details,” at https://landsat.gsfc.nasa.gov/satellites/landsat-8/landsat-8-mission-details/.~~
~~For more information, see CRS Report R46560, Landsat 9 and the Future of the Sustainable Land Imaging Program,~~
~~by Anna E. Normand.~~
~~30 NASA, “NPP Mission Overview,” at https://www.nasa.gov/mission_pages/NPP/mission_overview/index.html. For~~
~~more information on NOAA’s polar-orbiting weather satellites, see CRS Report R44335,~~ ~~Minding the Data Gap:~~
~~NOAA’s Polar-Orbiting Weather Satellites and Strategies for Data Continuity, by Peter Folger.~~
~~Congressional Research Service~~

6

~~link to page 14 link to page 16~~ ~~Federal Involvement in Ocean-Based Research and Development~~

 multifunctional nature of satellite technology.³⁰ NOAA-20. This satellite, Suomi NPP This satellite, Suomi NPP’'s successor and also built by NASA for s successor and also built by NASA for
~~NOAA’~~NOAA's Joint Polar Satellite System, collects data on SST and ocean color.s Joint Polar Satellite System, collects data on SST and ocean color.³¹31
U.S. Geological Survey
The USGS is a scientific agency within the Department of the Interior (DOI).The USGS is a scientific agency within the Department of the Interior (DOI).3232 USGS scientists USGS scientists
monitor, analyze, and predict the current and evolving dynamics of the Earth. A core USGS monitor, analyze, and predict the current and evolving dynamics of the Earth. A core USGS
mission is mapping, which includes coastal maps generated from bathymetric surveys;mission is mapping, which includes coastal maps generated from bathymetric surveys;33
33 generally, NOAA is the primary federal source for ocean bathymetric data. The USGS also generally, NOAA is the primary federal source for ocean bathymetric data. The USGS also
collects, monitors, and analyzes natural resources data, including for resources found in the collects, monitors, and analyzes natural resources data, including for resources found in the
ocean, such as sand and gravel for construction and critical minerals required for renewable ocean, such as sand and gravel for construction and critical minerals required for renewable
technologies.technologies.³⁴ 34
At least three USGS programs are engaged in ocean-based research.At least three USGS programs are engaged in ocean-based research.
 The Coastal/Marine Hazards and Resources Program, within the Natural Hazards The Coastal/Marine Hazards and Resources Program, within the Natural Hazards
Mission Area, collects and manages data, such as information about gas hydrates, Mission Area, collects and manages data, such as information about gas hydrates,
hydrothermal vent deposits, and rare Earth minerals.hydrothermal vent deposits, and rare Earth minerals.3535 This program also This program also
supports other ocean science topics, such as mapping the extent of the continental supports other ocean science topics, such as mapping the extent of the continental
shelf, studying factors related to sea level rise, and conducting research on ocean shelf, studying factors related to sea level rise, and conducting research on ocean
ecosystems, including benthic ecosystems (i.e., organisms living on or in seafloor ecosystems, including benthic ecosystems (i.e., organisms living on or in seafloor
sediments).sediments).
The Groundwater and Streamflow Information Program, within the Water Resources The Groundwater and Streamflow Information Program, within the Water Resources
Mission, deploys, operates, and retrieves sensors for coastal storm events, Mission, deploys, operates, and retrieves sensors for coastal storm events,
including tide gauges and other water sensors (including tide gauges and other water sensors (seesee Table 1 ~~and~~and Table 2). The . The
Coastal/Marine Hazards and Resources Program augments data collection and Coastal/Marine Hazards and Resources Program augments data collection and
other activities associated with storm events conducted by the Groundwater and other activities associated with storm events conducted by the Groundwater and
Streamflow Information Program as needed.Streamflow Information Program as needed.36
 36 The Climate Research and Development Program, within the Ecosystems The Climate Research and Development Program, within the Ecosystems
Mission Area, supports monitoring of the Arctic, sea ice, and sea level rise.Mission Area, supports monitoring of the Arctic, sea ice, and sea level rise.3737 This This
program also collects and analyzes deep-sea sediments to reconstruct changes in program also collects and analyzes deep-sea sediments to reconstruct changes in
past climate and oceanographic conditions.past climate and oceanographic conditions.³⁸Bureau of Ocean Energy Management BOEM, an agency within DOI, manages the development of the nation'38

~~31 NOAA, “Joint Polar Satellite System (JPSS) Program Office,” at https://www.jpss.noaa.gov/.~~
~~32 For more background on the USGS, see CRS In Focus IF12097,~~ ~~The U.S. Geological Survey (USGS): Background~~
~~and FY2023 Appropriations, by Anna E. Normand.~~
~~33 U.S. Geological Survey (USGS), “Sea Floor Mapping Group,” at https://www.usgs.gov/centers/whcmsc/science/sea-~~
~~floor-mapping-group.~~
~~34 USGS, “Ocean Resources,” at https://www.usgs.gov/centers/whcmsc/science/ocean-resources; USGS, “Celebrate~~
~~June as Oceans Month,” June 2, 2016, at https://www.usgs.gov/news/featured-story/celebrate-june-oceans-month.~~
~~35 USGS, “Coastal and Marine Hazards and Resources Program,” at https://www.usgs.gov/natural-hazards/coastal-~~
~~marine-hazards-and-resources/science/ocean-resources.~~
~~36 USGS funding for these activities primarily comes from reimbursable partners (typically the Federal Emergency~~
~~Management Agency, FEMA) as storm events occur. Email correspondence with USGS, Congressional Liaison,~~
~~Congressional Liaison Office, on January 7, 2022.~~
~~37 USGS, “Science,” at https://www.usgs.gov/programs/climate-research-and-development-program/science.~~
~~38 USGS, “Paleoclimate Research,” at https://www.usgs.gov/programs/climate-research-and-development-program/~~
~~science/paleoclimate-research.~~
~~Congressional Research Service~~

7

~~Federal Involvement in Ocean-Based Research and Development~~

~~Bureau of Ocean Energy Management~~
~~BOEM, an agency within DOI, manages the development of the nation’~~s energy and mineral s energy and mineral
resources on the outer continental shelf (OCS), which includes submerged lands, subsoil, and resources on the outer continental shelf (OCS), which includes submerged lands, subsoil, and
seabeds under U.S. jurisdiction.seabeds under U.S. jurisdiction.3939 BOEM conducts geological and geophysical (G&G) surveys to BOEM conducts geological and geophysical (G&G) surveys to
obtain data on oil and gas reserves located on the OCS, identify sites for offshore renewable obtain data on oil and gas reserves located on the OCS, identify sites for offshore renewable
energy structures, and locate seabed mineral resources.energy structures, and locate seabed mineral resources.40
40 BOEM conducts two types of G&G surveys: deep penetration airgun surveys and high-resolution BOEM conducts two types of G&G surveys: deep penetration airgun surveys and high-resolution
geophysical (HRG) surveys to characterize the subsurface of the seafloor (i.e., different layers of geophysical (HRG) surveys to characterize the subsurface of the seafloor (i.e., different layers of
rock beneath the seafloor).rock beneath the seafloor).4141 Deep penetration airgun surveys are also used for oil and gas Deep penetration airgun surveys are also used for oil and gas
exploration. HRG surveys can be used for oil and gas exploration, siting for renewable energy exploration. HRG surveys can be used for oil and gas exploration, siting for renewable energy
structures, and sand and gravel identification. HRG equipment can include multibeam sonars, structures, and sand and gravel identification. HRG equipment can include multibeam sonars,
sidescan sonars, and sub-bottom profilers. These surveys typically operate at higher frequencies sidescan sonars, and sub-bottom profilers. These surveys typically operate at higher frequencies
and image smaller structures at higher levels of detail as compared with airgun surveys.and image smaller structures at higher levels of detail as compared with airgun surveys.
BOEM has four programs, among other activities, that involve ocean-based studies and the BOEM has four programs, among other activities, that involve ocean-based studies and the
management of related scientific research and data.management of related scientific research and data.
 The Conventional Energy Program, among other activities, conducts assessments The Conventional Energy Program, among other activities, conducts assessments
of the oil and gas resource potential on the OCS, including G&G surveys to of the oil and gas resource potential on the OCS, including G&G surveys to
obtain data useful for oil and gas exploration, inventories of oil and gas reserves, obtain data useful for oil and gas exploration, inventories of oil and gas reserves,
and economic evaluations.and economic evaluations.
 The Renewable Energy Program, among other activities, funds and manages The Renewable Energy Program, among other activities, funds and manages
scientific research related to renewable energy projects on the OCS (e.g., scientific research related to renewable energy projects on the OCS (e.g.,
potential environmental and ecological stressors during the construction and potential environmental and ecological stressors during the construction and
operation of offshore renewable energy facilities).operation of offshore renewable energy facilities).
 The Environmental Program funds and manages environmental studies, The Environmental Program funds and manages environmental studies,
including, but not limited to, studies of physical oceanography, protected species, including, but not limited to, studies of physical oceanography, protected species,
economics, and cultural resources.economics, and cultural resources.
 The Marine Minerals Program, among other activities, conducts environmental The Marine Minerals Program, among other activities, conducts environmental
studies and assessments, performs resource evaluation studies, and contributes studies and assessments, performs resource evaluation studies, and contributes
data for bathymetric maps. Initiatives include the National Offshore Critical data for bathymetric maps. Initiatives include the National Offshore Critical
Mineral Inventory, the National Offshore Sand Inventory, and the Marine Mineral Inventory, the National Offshore Sand Inventory, and the Marine
Minerals Information System (with information on OCS sand and gravel Minerals Information System (with information on OCS sand and gravel
resources).resources).
National Science Foundation
NSF promotes the progress of science by funding extramural research, largely through grants NSF promotes the progress of science by funding extramural research, largely through grants
awarded in support of academic research.awarded in support of academic research.4242 The types of data collected, and the modes of data ~~The types of data collected, and the modes of data~~

~~39 The Outer Continental Shelf Lands Act of 1953 (OCSLA, 43 U.S.C. §§1331-1356b) defines the outer continental~~
~~shelf (OCS) as all federally controlled submerged lands, subsoil, and seabed. The OCS generally begins 3 nautical~~
~~miles (international nautical mile = 6,076.1 feet) off the coastline and extends for at least 200 nautical miles to the edge~~
~~of the exclusive economic zone, or farther if the continental shelf extends beyond 200 nautical miles. For more~~
~~information, see CRS Report RL33404, Offshore Oil and Gas Development: Legal Framework, by Adam Vann.~~
~~40 Bureau of Ocean Energy Management (BOEM), “Fact Sheet: Geological and Geophysical (G&G) Surveys,” at~~
~~https://www.boem.gov/sites/default/files/about-boem/BOEM-Regions/Atlantic-Region/GandG-Overview.pdf.~~
~~41 Ibid.~~
42 For more information on the National Science Foundation (NSF), see CRS Report R46753, The National Science
~~Congressional Research Service~~

8

~~Federal Involvement in Ocean-Based Research and Development~~

collection and observation, depend on the awarded research project. Funding duration for NSF collection and observation, depend on the awarded research project. Funding duration for NSF
grants generally ranges from one to five years, with an average of three years for research grants generally ranges from one to five years, with an average of three years for research
grants.grants.⁴³ 43
The Division of Ocean Sciences (OCE), within the NSF Directorate for Geosciences, provides The Division of Ocean Sciences (OCE), within the NSF Directorate for Geosciences, provides
funding support to advance understanding of all aspects of the global ocean (including human funding support to advance understanding of all aspects of the global ocean (including human
interactions),interactions),4444 including through competitive grants. Other NSF Directorates (e.g., Directorate including through competitive grants. Other NSF Directorates (e.g., Directorate
for Biological Sciences, Directorate for Mathematical and Physical Sciences) also may support for Biological Sciences, Directorate for Mathematical and Physical Sciences) also may support
aspects of ocean research. In general, about 30% of OCEaspects of ocean research. In general, about 30% of OCE’'s funding each year goes to new s funding each year goes to new
research grants, with the remaining 70% of funds supporting grants made in previous years and research grants, with the remaining 70% of funds supporting grants made in previous years and
research infrastructure.research infrastructure.4545 Also within NSF Also within NSF’'s Directorate for Geosciences is the Office of Polar s Directorate for Geosciences is the Office of Polar
Programs (OPP), which provides research funding for scientists supported by NSF and by other Programs (OPP), which provides research funding for scientists supported by NSF and by other
federal departments and agencies studying the polar regions, including the Southern and Arctic federal departments and agencies studying the polar regions, including the Southern and Arctic
Oceans. OPP leverages both interagency and international partnerships.Oceans. OPP leverages both interagency and international partnerships.
Both OCE and OPP support the U.S. Global Change Research Program (USGCRP),Both OCE and OPP support the U.S. Global Change Research Program (USGCRP),4646 which which
includes infrastructure programs that focus on observing todayincludes infrastructure programs that focus on observing today’'s changing ocean and better s changing ocean and better
understanding past climate events to inform modeling of future climate change. One of the two understanding past climate events to inform modeling of future climate change. One of the two
goals USGCRP set for FY2023 is to advance scientific knowledge of the integrated natural and goals USGCRP set for FY2023 is to advance scientific knowledge of the integrated natural and
human components of the Earth system, which includes the role of the ocean in climate change.human components of the Earth system, which includes the role of the ocean in climate change.⁴⁷ 47
NSF is part of the University-National Oceanographic Laboratory System (UNOLS),NSF is part of the University-National Oceanographic Laboratory System (UNOLS),4848 which which
provides a forum for the research and education community and the federal government to work provides a forum for the research and education community and the federal government to work
cooperatively on oceanographic research while coordinating a federally supported Academic cooperatively on oceanographic research while coordinating a federally supported Academic
Research Fleet (ARF).Research Fleet (ARF).4949 For example, the R/V For example, the R/V Sikuliaq is a research vessel owned by the NSF is a research vessel owned by the NSF
and operated by the College of Fisheries and Ocean Sciences at the University of Alaska and operated by the College of Fisheries and Ocean Sciences at the University of Alaska
Fairbanks that specializes in polar-focused ocean research. OCE also oversees the Regional Class Fairbanks that specializes in polar-focused ocean research. OCE also oversees the Regional Class
Research Vessel (RCRV) project, which is currently funding the construction of three ships for Research Vessel (RCRV) project, which is currently funding the construction of three ships for
inclusion in the ARF to support the needs of researchers in coastal zones.inclusion in the ARF to support the needs of researchers in coastal zones.5050 The first of these three The first of these three
new ships is planned for delivery in 2023, with subsequent vessels being delivered 6 and 12 new ships is planned for delivery in 2023, with subsequent vessels being delivered 6 and 12
~~months thereafter.51~~

Foundation: An Overview, by Laurie A. Harris.
~~43 NSF, Merit Review Process: Fiscal Year 2019 Digest, December 2020, pp. 7 and 20.~~
~~44 NSF, “About the Division of Ocean Sciences (OCE),” at https://www.nsf.gov/geo/oce/about.jsp.~~
~~45 NSF, “FY 2022 NSF Budget Response to Congress—Geosciences,” p. GEO-11, at https://www.nsf.gov/about/~~
~~budget/fy2022/pdf/49_fy2022.pdf.~~
~~46 The U.S. Global Change Research Program (USGCRP) was mandated by Congress in the Global Change Research~~
~~Act of 1990 (P.L. 101-606) to coordinate federal research and investments across 13 departments and agencies to~~
~~advance understanding of the changing Earth system.~~
~~47 NSF, National Science Foundation FY2023 Budget Response to Congress, pp. Climate-9 and GEO-1, at~~
~~https://www.nsf.gov/about/budget/fy2023/pdf/fy2023budget.pdf. Hereinafter referred to as “FY2023 NSF Budget~~
~~Response.”~~
~~48 University-National Oceanographic Laboratory System (UNOLS), “UNOLS Charter,” at https://www.unols.org/~~
~~sites/default/files/UNOLS_Charter_2019.pdf.~~
~~49 Academic Research Fleet vessels support the needs of all federal oceanographic research stakeholders, particularly~~
~~NSF, NOAA, and ONR. FY2023 NSF Budget Response, p. Research Infrastructure-54.~~
~~50 The National Academies of Sciences, Engineering, and Medicine,~~ ~~Sea Change: 2015-2025 Decadal Survey of Ocean~~
~~Sciences~~ ~~(Washington, DC: The National Academies Press, 2015), p. 3.~~
~~51 FY2023 NSF Budget Response, p. Overview-12.~~
~~Congressional Research Service~~

9

~~link to page 14 link to page 15 link to page 14 link to page 14 link to page 23~~ ~~Federal Involvement in Ocean-Based Research and Development~~

months thereafter.⁵¹ NSF also provides support to the International Ocean Discovery Program (IODP), an NSF also provides support to the International Ocean Discovery Program (IODP), an
international marine research collaboration that uses research platforms to drill and recover international marine research collaboration that uses research platforms to drill and recover
seafloor sediments that can be used to study the dynamics of the sub-seafloor and the past 200 seafloor sediments that can be used to study the dynamics of the sub-seafloor and the past 200
million years of Earthmillion years of Earth’'s history.s history.5252 Seafloor sediments can be used to reconstruct the extent of sea Seafloor sediments can be used to reconstruct the extent of sea
ice during past glaciation events. The sediments also reflect past changes in deep-sea circulation ice during past glaciation events. The sediments also reflect past changes in deep-sea circulation
patterns, which help distribute and sequester (or bury) atmospheric patterns, which help distribute and sequester (or bury) atmospheric ~~CO2~~CO₂ in the ocean. in the ocean.
~~Office of Naval Research~~
U.S. Department of the Navy DON produces meteorological and oceanographic knowledge to advance the U.S. military mission and to provide secondary benefits to the United States. ONR within the DON aims to provide science- and technology-based solutions for current and ONR within the DON aims to provide science- and technology-based solutions for current and
future naval challenges. ONR oversees the execution of the science and technology (S&T) future naval challenges. ONR oversees the execution of the science and technology (S&T)
portion of DONportion of DON’'s overall research and development account. ONR addresses a wide range of s overall research and development account. ONR addresses a wide range of
potential S&T issues of interest to the Navy. A portion of those issues are ocean-based, including potential S&T issues of interest to the Navy. A portion of those issues are ocean-based, including
ocean engineering, maritime sensing, undersea and remote sensing system development, ocean ocean engineering, maritime sensing, undersea and remote sensing system development, ocean
acoustics, Arctic changes, and physical oceanography monitoring.acoustics, Arctic changes, and physical oceanography monitoring.
ONR and NSF are the two primary federal support agencies of the UNOLS fleet of academic ONR and NSF are the two primary federal support agencies of the UNOLS fleet of academic
research vessels. ONR owns research vessels. ONR owns ~~three~~six UNOLS academic research vessels and, together with the UNOLS academic research vessels and, together with the
operating institutions, coordinates their research missions and ship schedules.operating institutions, coordinates their research missions and ship schedules.
~~DON’~~53 DON's Naval Oceanographic Office (NAVOCEANO) collects and analyzes oceanographic data s Naval Oceanographic Office (NAVOCEANO) collects and analyzes oceanographic data
to support national security and provide knowledge of the maritime battlespace. Civilian and to support national security and provide knowledge of the maritime battlespace. Civilian and
military members of NAVOCEANO are generally qualified as hydrographers and survey military members of NAVOCEANO are generally qualified as hydrographers and survey
technicians capable of hydrographic surveys (descriptions of seafloor features) anywhere in the technicians capable of hydrographic surveys (descriptions of seafloor features) anywhere in the
world.world.53
54 Oceanographic Data
Oceanographic data consist of measurements of the physical state of the ocean (e.g., sea level is a Oceanographic data consist of measurements of the physical state of the ocean (e.g., sea level is a
physical variable) and the amount of chemical elements in the seawater (e.g., dissolved oxygen is physical variable) and the amount of chemical elements in the seawater (e.g., dissolved oxygen is
a biogeochemical variable). Oceanographic data provide a basis for insights into the ocean a biogeochemical variable). Oceanographic data provide a basis for insights into the ocean
ecosystem and its changing environment, aspects of climate change, and the geographic ecosystem and its changing environment, aspects of climate change, and the geographic
distribution and availability of marine resources. Physical oceanographic data distribution and availability of marine resources. Physical oceanographic data (Table 1) also can also can
provide information on oceanographic processes, such as ocean upwellingprovide information on oceanographic processes, such as ocean upwelling (Figure 2) and ocean and ocean
current and circulation patterns. Whereas a single oceanographic variable can provide insight into current and circulation patterns. Whereas a single oceanographic variable can provide insight into
various characteristics of the ocean, the combination of more than one physical or various characteristics of the ocean, the combination of more than one physical or
biogeochemical variable often can provide additional confidence about the scientific biogeochemical variable often can provide additional confidence about the scientific
interpretations of the oceaninterpretations of the ocean’'s current and future state through scientific modeling studies.s current and future state through scientific modeling studies.
Physical oceanographic variables are collected through an array of instrumentation and used for Physical oceanographic variables are collected through an array of instrumentation and used for
various purposes. Selected common physical oceanographic data are summarized below various purposes. Selected common physical oceanographic data are summarized below inin Table
1. These data are discussed in more detail These data are discussed in more detail inin Appendix A. Table 1. Selected Physical Oceanographic Variables Appendix A.

~~52 Jason Daley, “This 340-Million-Year-Old Ocean Crust Could Date Back to Pangaea,” Smithsonian Magazine,~~
~~August 17, 2016, at https://www.smithsonianmag.com/smart-news/oldest-bit-seafloor-discovered-mediterranean-~~
~~180960153/.~~
~~53 Naval Meteorology and Oceanography Command, “Fleet Survey Team (FST),” at https://www.cnmoc.usff.navy.mil/~~
~~Our-Commands/Naval-Oceanographic-Office/Fleet-Survey-Team/ .~~
~~Congressional Research Service~~

10

~~link to page 14 link to page 14 link to page 14 link to page 23~~ ~~Federal Involvement in Ocean-Based Research and Development~~

~~Table 1. Selected Physical Oceanographic Variables~~
(common physical oceanographic data collected and studied by federal departments and agencies)(common physical oceanographic data collected and studied by federal departments and agencies)
Physical Oceanographic
Variable Instrumentation and
~~Variable~~
~~Equipment Examples~~
Equipment Examples Selected Uses/Purposes
~~Ocean Temperature~~
~~Argo Profiling Floats (NOAA);~~


Ocean Temperature

Argo Profiling Floats (NOAA); Unmanned Surface Wave Gliders (NOAA);^a CTD Sensors (NOAA/USGS);^b Research Vessels (NOAA); Submersible ROVs (NOAA); Earth-Observing Satellites (NOAA/NASA); Water-Quality Gauge (USGS) Forecast and track pending short- and mid-~~Forecast and track pending short- and mid-~~
~~Unmanned Surface Wave~~
~~term weather events (including storms and~~
~~Gliders (NOAA);a CTD~~
~~hurricanes) and long-term climate patterns,~~
~~Sensors (NOAA/USGS);b~~
~~such as the El Niño Southern Oscil ation~~
~~Research Vessels (NOAA);~~

~~Submersible ROVs (NOAA);~~

term weather events (including storms and hurricanes) and long-term climate patterns, such as the El Niño Southern Oscillation Track ocean circulation patterns, such as the Track ocean circulation patterns, such as the
Gulf StreamGulf Stream
~~Earth-Observing Satellites~~
~~(NOAA/NASA); Water-~~

Monitor ocean upwelling, which can be Monitor ocean upwelling, which can be
~~Quality Gauge (USGS)~~
applied to track the occurrence of specific applied to track the occurrence of specific
marine speciesmarine species
Ice Elevation and ThicknessIce Elevation and Thickness ~~Earth-Observing Satellites~~

~~Understand impact of climate change on~~
~~(NOAA/NASA); Research~~
~~polar regions~~
Earth-Observing Satellites (NOAA/NASA); Research Vessels (NSF);Vessels (NSF); Moored Moored

(Stationary) Buoys (NOAA);(Stationary) Buoys (NOAA);

Aircraft (NASA)

Understand impact of climate change on polar regions

Predict and quantify rate of sea level risePredict and quantify rate of sea level rise
~~Aircraft (NASA)~~

Predict freshening (salinity decline) of Predict freshening (salinity decline) of
surface ocean water in polar regionssurface ocean water in polar regions
Sea LevelSea Level
Earth-Observing Satellites Earth-Observing Satellites

~~Predict coastal sea level trends and flooding~~
(NOAA/NASA); Tide Gauges (NOAA/NASA); Tide Gauges

(NOAA/USGS); Water-Level (NOAA/USGS); Water-Level

Sensors (USGS)

Predict coastal sea level trends and flooding

Quantify the rate of sea level riseQuantify the rate of sea level rise
~~Sensors (USGS)~~

Inform safe vessel navigationInform safe vessel navigation
Chlorophyll (ocean color)Chlorophyll (ocean color)
Earth-Observing Satellites Earth-Observing Satellites
(NOAA/NASA) 
Monitor ocean upwelling and provide an Monitor ocean upwelling and provide an
~~(NOAA/NASA)~~
estimate for living phytoplankton in the estimate for living phytoplankton in the
near-surface waternear-surface water
Seafloor BathymetrySeafloor Bathymetry
~~Research Vessels Equipped~~

~~Quantify water depth~~
~~with Geological and~~

~~Provide information on seafloor sediment~~
~~Geophysical Survey Equipment~~
~~type that could aid siting of natural~~
Research Vessels Equipped with Geological and Geophysical Survey Equipment (NOAA/BOEM(NOAA/BOEM/USGS);USGS);
~~resources~~
Submersible ROVs (NOAA); Submersible ROVs (NOAA);
Aircraft Equipped with lidar Aircraft Equipped with lidar

~~Identify seafloor geologic features (faults or~~
~~(NOAA); Earth-Observing~~
~~subduction zones) that could produce~~
~~Satellites (NASA/USGS)~~
(NOAA); Earth-Observing Satellites (NASA/USGS)

Quantify water depth

Provide information on seafloor sediment type that could aid siting of natural resources

Identify seafloor geologic features (faults or subduction zones) that could produce natural hazards (earthquakes or tsunamis)natural hazards (earthquakes or tsunamis)

Determine the extent of the U.S. Determine the extent of the U.S.
continental continental ~~shelfc~~

shelf^c Inform safe vessel navigationInform safe vessel navigation
Source: Information for this table is derived from NASA, NOAA, NSF, and USGS websites. For additional Information for this table is derived from NASA, NOAA, NSF, and USGS websites. For additional
information and source data, referinformation and source data, refer to Appendix A.
Notes: BOEM = Bureau of Ocean Energy Management; CTD Sensors = Conductivity, Temperature, and Depth BOEM = Bureau of Ocean Energy Management; CTD Sensors = Conductivity, Temperature, and Depth
Sensors; lidar = light detection and ranging; NASA = National Aeronautics and Space Administration; NOAA = Sensors; lidar = light detection and ranging; NASA = National Aeronautics and Space Administration; NOAA =
National Oceanic and Atmospheric Administration; National Science Foundation = NSF; ONR = Office of Naval National Oceanic and Atmospheric Administration; National Science Foundation = NSF; ONR = Office of Naval
Research; ROV = remote-operated vehicle; USGS = U.S. Geological Survey.Research; ROV = remote-operated vehicle; USGS = U.S. Geological Survey.
a. a. Wave gliders are inexpensive surfboard-looking autonomous vehicles that Wave gliders are inexpensive surfboard-looking autonomous vehicles that ~~col ect~~collect surface ocean data. surface ocean data.
b. b. A CDT sensor detects how the conductivity and temperature of the seawater changes with water depth, A CDT sensor detects how the conductivity and temperature of the seawater changes with water depth,
which can be used to derive salinity.which can be used to derive salinity.
c. c. For more information, see CRS Report R41153, For more information, see CRS Report R41153, Changes in the Arctic: Background and Issues for Congress, ,
coordinated by Ronald O'Rourke.coordinated by Ronald O'Rourke.
~~Congressional Research Service~~

11

~~link to page 23 link to page 16 link to page 16 link to page 28~~

~~Federal Involvement in Ocean-Based Research and Development~~

Figure 2. Major Areas of Coastal Upwelling

Source: National Oceanic and Atmospheric Administration (NOAA), National Oceanic and Atmospheric Administration (NOAA), “"Upwelling,Upwelling,~~” at~~"
https://oceanservice.noaa.gov/education/tutorial_currents/03coastal4.htmlhttps://oceanservice.noaa.gov/education/tutorial_currents/03coastal4.html.
. Notes: Areas of major coastal upwelling are shown in red. Ocean upwelling occurs when wind energy pushes Areas of major coastal upwelling are shown in red. Ocean upwelling occurs when wind energy pushes
sea surface water in a specific direction, allowing deep water to move to the surface. Upwelled waters are rich in sea surface water in a specific direction, allowing deep water to move to the surface. Upwelled waters are rich in
nutrients, and ocean upwelling is a natural fertilization process for the surface ocean, stimulating the base of the nutrients, and ocean upwelling is a natural fertilization process for the surface ocean, stimulating the base of the
marine food web. For additional information on ocean upwelling, see text box entitled marine food web. For additional information on ocean upwelling, see text box entitled “"Ocean UpwellingOcean Upwelling”" in in
Appendix A.
The concentrations of biogeochemical variables The concentrations of biogeochemical variables (Table 2) in se~~awater~~seawater are influenced by are influenced by
mixing of waters with different concentrations (e.g., upwelled deep-sea water mixing mixing of waters with different concentrations (e.g., upwelled deep-sea water mixing
with near-surface water), biogeochemical processes (e.g., the marine carbon cycle), and with near-surface water), biogeochemical processes (e.g., the marine carbon cycle), and
atmospheric inputs (e.g., diffusion of dissolved oxygen across the atmosphere-surface atmospheric inputs (e.g., diffusion of dissolved oxygen across the atmosphere-surface
water interface), among other factors. Anthropogenic water interface), among other factors. Anthropogenic ~~CO2~~CO₂ emissions and agricultural or emissions and agricultural or
wastewater discharge have also altered biogeochemical variables (e.g., pH and dissolved wastewater discharge have also altered biogeochemical variables (e.g., pH and dissolved
oxygen).oxygen).5455 Selected common biogeochemical oceanographic data are summarized below Selected common biogeochemical oceanographic data are summarized below
inin Table 2. These data are discussed in more detailThese data are discussed in more detail ~~in Appendix B.~~

~~54 For information on the effects of human-associated discharge on coastal ocean waters, see CRS Report R46921,~~
Marine Harmful Algal Blooms (HABs): Background, Statutory Authorities, and Issues for Congress, by Eva Lipiec.
~~Congressional Research Service~~

12

~~link to page 28~~ ~~Federal Involvement in Ocean-Based Research and Development~~

in Appendix B. Table 2. Selected Biogeochemical Oceanographic Variables
(common biogeochemical oceanographic data collected and studied by federal departments and agencies)(common biogeochemical oceanographic data collected and studied by federal departments and agencies)
~~Biogeochemical~~
~~Instrumentation and~~
Biogeochemical Oceanographic Variable
Instrumentation and Equipment Examples

Selected Use/Purpose

Salinity
Argo Profiling Floats (NOAA); ~~Selected Use/Purpose~~
~~Salinity~~
~~Argo Profiling Floats (NOAA);~~

~~Provide insight into the water cycle~~
Unmanned Wave Gliders (NOAA);Unmanned Wave Gliders (NOAA);

~~Submersible ROVs (NOAA); CTD~~

~~Trace ocean circulation patterns~~
~~Sensors (NOAA/USGS); Water-~~

~~Monitor runoff from land or ice melt~~
~~Quality Gauge (USGS)~~

~~Predict hurricane intensity~~
~~Dissolved Oxygen~~
Submersible ROVs (NOAA); CTD Sensors (NOAA/USGS); Water-Quality Gauge (USGS)

Provide insight into the water cycle
Trace ocean circulation patterns
Monitor runoff from land or ice melt
Predict hurricane intensity

Dissolved Oxygen

Argo Profiling Floats (NOAA); ~~Argo Profiling Floats (NOAA);~~

~~Serve as indicator of the health of~~
Unmanned Wave Gliders (NOAA);Unmanned Wave Gliders (NOAA);
~~the marine ecosystem~~
Submersible ROVs (NOAA); Submersible ROVs (NOAA);

~~Water-Quality Gauge (USGS)~~

~~Correlate with surface ocean~~
~~temperature~~
pH
~~Argo Profiling Floats (NOAA);~~

~~Quantify rate of anthropogenic~~
~~Unmanned Wave Gliders (NOAA);~~
~~carbon uptake by the ocean~~
~~Moored Buoys Equipped with CO2~~

Water-Quality Gauge (USGS)

Serve as indicator of the health of the marine ecosystem
Correlate with surface ocean temperature

Argo Profiling Floats (NOAA); Unmanned Wave Gliders (NOAA); Moored Buoys Equipped with CO₂ Sensors (NOAA); Earth-Observing Satellites (NASA/NOAA);

Quantify rate of anthropogenic carbon uptake by the ocean
Serve as indicator for ocean acidification

~~Sensors (NOAA); Earth-Observing~~

~~Serve as indicator for ocean~~
~~acidification~~
~~Satellites (NASA/NOAA);~~
Source: Information for this table is derived from NASA, NOAA, and USGS websites. For additional Information for this table is derived from NASA, NOAA, and USGS websites. For additional
background information and source data referbackground information and source data refer to Appendix B.
Notes: ~~CO2~~CO₂ = carbon dioxide; CTD Sensors = Conductivity, Temperature, and Depth Sensors; NASA = = carbon dioxide; CTD Sensors = Conductivity, Temperature, and Depth Sensors; NASA =
National Aeronautics and Space Administration; NOAA = National Oceanic and Atmospheric Administration; National Aeronautics and Space Administration; NOAA = National Oceanic and Atmospheric Administration;
USGS = U.S. Geological Survey. A CDT sensor detects how the conductivity and temperature of the seawater USGS = U.S. Geological Survey. A CDT sensor detects how the conductivity and temperature of the seawater
changes with water depth, which can be used to derive salinity.changes with water depth, which can be used to derive salinity.
Ocean Data Trends and Climate Change
Ocean data and observation trends over time have informed scientific reports that have Ocean data and observation trends over time have informed scientific reports that have
highlighted the nature and rate of change in the global ocean, as well as the potential impacts of highlighted the nature and rate of change in the global ocean, as well as the potential impacts of
these changes.these changes.
 Ocean Temperature. Warming surface ocean waters affect weather patterns and Warming surface ocean waters affect weather patterns and
storms, including hurricanes. The 2019 Intergovernmental Panel on Climate storms, including hurricanes. The 2019 Intergovernmental Panel on Climate
Change (IPCC) Change (IPCC) Special Report on the Ocean and ~~Cryosphere~~Cryosphere in a Changing
Climate found evidence for an increase in the global proportion of category 4-5 found evidence for an increase in the global proportion of category 4-5
tropical cyclones in recent decades; the proportion of high intensity tropical tropical cyclones in recent decades; the proportion of high intensity tropical
cyclones is projected to increase with continued warming.cyclones is projected to increase with continued warming.55
 56 Ice. Warming near-surface air temperatures in the Arctic are melting continental Warming near-surface air temperatures in the Arctic are melting continental
ice (ice sheet and glacier) across the region, including the Greenland Ice Sheet, ice (ice sheet and glacier) across the region, including the Greenland Ice Sheet,
and contributing to sea ice melt on the Arctic Ocean.and contributing to sea ice melt on the Arctic Ocean.5657 The climate modeling The climate modeling
results for the mid- and high-greenhouse gas emissions scenarios published in the results for the mid- and high-greenhouse gas emissions scenarios published in the
2021 IPCC 2021 IPCC Sixth Assessment Report project the Arctic to be project the Arctic to be ~~“practically”~~"practically" sea-ice sea-ice
~~free during the month of September between 2050-2100.57~~

~~55 “Summary for Policymakers,” in IPCC, Ocean and Cryosphere, p. 11. NOAA, “Global Warming and Hurricanes,”~~
~~April 11, 2023, at https://www.gfdl.noaa.gov/global-warming-and-hurricanes/.~~
~~56 T. J. Ballinger et al., “Surface Air Temperature,” in NOAA, 2022 Arctic Report Card, December 2020, p. 2.~~
~~57 IPCC, “Summary for Policymakers,” in Changing Climate 2021: The Physical Science Basis, eds. V. Masson-~~
Delmotte et al., 2021, pp. SMP-29-SMP-30. Hereinafter referred to as IPCC, AR6 Physical Science Basis.
~~Congressional Research Service~~

13

~~Federal Involvement in Ocean-Based Research and Development~~

 free during the month of September between 2050-2100.⁵⁸ Sea level. Continental ice melt and thermal expansion of ocean water are Continental ice melt and thermal expansion of ocean water are
contributing to rising sea levels.contributing to rising sea levels.5859 From 2006 to 2018, continental ice melt was From 2006 to 2018, continental ice melt was
the dominant contributor to global sea level rise.the dominant contributor to global sea level rise.5960 Continuous data on variations Continuous data on variations
in sea level inform scientists on the rate of sea level rise and the regions most in sea level inform scientists on the rate of sea level rise and the regions most
susceptible to coastal flooding. The average global sea level rise from 2006 to susceptible to coastal flooding. The average global sea level rise from 2006 to
2018 was 3.7 millimeters per year.2018 was 3.7 millimeters per year.60
 61 Dissolved Oxygen. Declining oxygen levels in seawater correlate with warming Declining oxygen levels in seawater correlate with warming
ocean waters. Warmer water holds less dissolved gases (e.g., oxygen) than colder ocean waters. Warmer water holds less dissolved gases (e.g., oxygen) than colder
water. Trends published in the physical science report of the 2021 IPCC water. Trends published in the physical science report of the 2021 IPCC Sixth
Assessment Report showed a decline in surface dissolved oxygen levels showed a decline in surface dissolved oxygen levels
(deoxygenation) in all ocean basins. The IPCC attributed this decline, with (deoxygenation) in all ocean basins. The IPCC attributed this decline, with
medium confidence, to surface ocean warming.medium confidence, to surface ocean warming.61
 62 pH. Declining seawater pH levels are attributed to the global ocean Declining seawater pH levels are attributed to the global ocean’'s increased s increased
absorption of anthropogenic atmospheric absorption of anthropogenic atmospheric ~~CO2~~CO₂.. Since the beginning of the Since the beginning of the
Industrial Revolution, the pH of global surface ocean has decreased by 0.1 pH Industrial Revolution, the pH of global surface ocean has decreased by 0.1 pH
units (from an average pH of 8.2 to 8.1), equivalent to a 25%-30% increase in units (from an average pH of 8.2 to 8.1), equivalent to a 25%-30% increase in
ocean acidity.ocean acidity.62
63Selected Issues for Congress
Research and analysis of ocean processes, resources, and potential future changes to these Research and analysis of ocean processes, resources, and potential future changes to these
processes and resources have the potential to inform congressional deliberations regarding ocean processes and resources have the potential to inform congressional deliberations regarding ocean
policy and ocean management. Congress also may be interested in these efforts for their potential policy and ocean management. Congress also may be interested in these efforts for their potential
to support public- and private-sector economic activities that rely on the ocean or facilitate the to support public- and private-sector economic activities that rely on the ocean or facilitate the
protection of sensitive habitats and their wildlife.protection of sensitive habitats and their wildlife.
A potential issue facing Congress is to what extent, if any, to continue supporting and directing A potential issue facing Congress is to what extent, if any, to continue supporting and directing
federal ocean science research and development and, if so, which efforts to prioritize and how to federal ocean science research and development and, if so, which efforts to prioritize and how to
guide departments and agencies in this work. Scientific knowledge of the ocean evolves as new guide departments and agencies in this work. Scientific knowledge of the ocean evolves as new
information and exploration technology becomes available. Thus, some scientists and information and exploration technology becomes available. Thus, some scientists and
environmental and climate advocates have called for continuous, systematic ocean research environmental and climate advocates have called for continuous, systematic ocean research
observations and monitoring by federal government, as well as funding for new endeavors. observations and monitoring by federal government, as well as funding for new endeavors.
Supporters of these efforts emphasize the modern challenges of ocean management and the Supporters of these efforts emphasize the modern challenges of ocean management and the
opportunities the ocean presents to address environmental and societal issues. In addition, some opportunities the ocean presents to address environmental and societal issues. In addition, some
supporters see this research as contributing to the U.S. global leadership role in ocean science. At supporters see this research as contributing to the U.S. global leadership role in ocean science. At
the same time, funding for ocean research can be costly; thus, some may question the relative the same time, funding for ocean research can be costly; thus, some may question the relative
~~priority of some work, compared to both other ocean-based efforts and other federal activities.~~

~~58 Because water expands as it warms (thermal expansion), warming ocean water will cause sea level rise.~~
~~59 “Summary for Policymakers,” in IPCC, AR6 Physical Science Basis, p. SMP-14.~~
~~60 Ibid, p. SMP-6.~~
~~61 Ibid.~~
~~62 For more information on the effects of anthropogenic CO2 emissions on seawater pH, see CRS Report R47300,~~
Ocean Acidification: Frequently Asked Questions, by Caitlin Keating-Bitonti and Eva Lipiec. NOAA, “Ocean
~~Acidification,” at https://www.noaa.gov/education/resource-collections/ocean-coasts/ocean-acidification;~~
~~Environmental Protection Agency (EPA), “Understanding the Science of Ocean and Coastal Acidification,” at~~
~~https://www.epa.gov/ocean-acidification/understanding-science-ocean-and-coastal-acidification.~~
~~Congressional Research Service~~

14

~~link to page 19~~ ~~Federal Involvement in Ocean-Based Research and Development~~

priority of some work, compared to both other ocean-based efforts and other federal activities. Ocean Data and Research Needs Related to Climate Change
Some scientists and environmental advocates view the ocean as having a key role in mitigating Some scientists and environmental advocates view the ocean as having a key role in mitigating
climate change,climate change,6364 and they view federal spending in ocean monitoring and observational and they view federal spending in ocean monitoring and observational
technologies as one means to better understand the ocean-climate nexus. Congress may consider technologies as one means to better understand the ocean-climate nexus. Congress may consider
whether the current investment is sufficient to provide adequate information on the potential whether the current investment is sufficient to provide adequate information on the potential
impacts of climate change on the global ocean and its resources and, conversely, on the ways in impacts of climate change on the global ocean and its resources and, conversely, on the ways in
which ocean processes influence global climate.which ocean processes influence global climate.64
65 Some believe increasing investments in certain ocean programs would allow ocean-based Some believe increasing investments in certain ocean programs would allow ocean-based
research to capitalize on technology advancements.research to capitalize on technology advancements.6566 For example, the Argo Program, established For example, the Argo Program, established
in 1998, could be advanced through developing and deploying a fleet of floats that extend the in 1998, could be advanced through developing and deploying a fleet of floats that extend the
typical profiling depth of 2,000 meters to 6,000 meters (Deep Argo) and a fleet that includes typical profiling depth of 2,000 meters to 6,000 meters (Deep Argo) and a fleet that includes
additional biogeochemical sensors to study carbon and nutrient cycling in the ocean additional biogeochemical sensors to study carbon and nutrient cycling in the ocean
(Biogeochemical Argo).(Biogeochemical Argo).6667 Congress funds NOAA Congress funds NOAA’'s Sustained Ocean Observing and Monitoring s Sustained Ocean Observing and Monitoring
Program (SOOM), projects, and activities on a year-to-year basis, from which NOAA determines Program (SOOM), projects, and activities on a year-to-year basis, from which NOAA determines
and allocates the amount of funds to the Argo Program and allocates the amount of funds to the Argo Program (Table 3). Funding support for the Argo . Funding support for the Argo
Program has remained relatively constant since 2004 (with variations), with funding priority Program has remained relatively constant since 2004 (with variations), with funding priority
directed to sustaining the current fleet of Argo floats.directed to sustaining the current fleet of Argo floats.6768 Some Members of Congress have Some Members of Congress have
proposed increases for Argo funding; for example, in FY2022, Congress directed NOAA to proposed increases for Argo funding; for example, in FY2022, Congress directed NOAA to
~~expand coverage of the Biogeochemical Argo fleet.68~~

~~63 The global ocean absorbs CO2 emissions from human activities (i.e., the combustion of fossil fuels), helping to offset~~
~~the buildup of anthropogenic CO2 in the atmosphere.~~
~~64 The 117th Congress provided funding to NOAA to advance ocean and climate research. P.L. 117-169, a budget~~
~~reconciliation measure commonly referred to as the Inflation Reduction Act of 2022 (IRA), appropriated $150 million~~
~~in FY2022 (available through FY2026) to NOAA, with the goal of accelerating advances and improvements in research~~
~~of atmospheric and ocean processes that relate to climate and weather, among others. In addition, Section 40004 of the~~
~~IRA appropriated $50 million in FY2022 (available through FY2026) to NOAA for climate research competitive grants~~
~~relating to ocean and other processes and associated impacts to marine species and coastal habitat.~~
~~65 For example, Dean Roemmich et al., “On the Future of Argo: A Global, Full-Depth, Multi-Disciplinary Array,”~~
Frontiers in Marine Science, vol. 6 (August 2019), p. 2.
~~66 Successful prototype float deployments of Deep Argo floats took place in 2013-2015. These prototypes were able to~~
~~reach approximately 6,000 meters below sea level. Testing of Biogeochemical Argo floats equipped with sensors for~~
~~dissolved oxygen, nitrate, pH, chlorophyll fluorescence, and particulate backscatter began in 2012. Scripps Institution~~
~~of Oceanography Argo Program Office, “Frequently Asked Questions,” at https://argo.ucsd.edu/faq/#who; NOAA~~
~~Research News, “NOAA Invests in New Tools to Measure the Ocean,” at https://research.noaa.gov/article/ArtMID/~~
~~587/ArticleID/2561.~~
~~67 Scripps Institution of Oceanography Argo Program Office, U.S. Argo National Report to Argo Steering Team-22,~~
~~March 2021, at https://argo.ucsd.edu/wp-content/uploads/sites/361/2021/03/USA_national_report_AST22v1.pdf.~~
~~68 H.Rept. 117-97 referenced by the explanatory statement accompanying the FY2022 Consolidated Appropriations Act~~
~~(P.L. 117-103).~~
~~Congressional Research Service~~

15

~~link to page 19~~ ~~Federal Involvement in Ocean-Based Research and Development~~

~~Table 3. Congressional Appropriations Applied to NOAA Argo Program~~
~~FY2020 Enacted~~
~~FY2021 Enacted~~
~~FY2022 Enacted~~
~~Program~~
~~Appropriations~~
~~Appropriations~~
~~Appropriations~~
~~Description~~
~~Argo Program~~
~~$11,491,000~~
~~$11,495,000~~
~~$12,100,000~~
expand coverage of the Biogeochemical Argo fleet.⁶⁹ Table 3. Congressional Appropriations Applied to NOAA Argo Program

Program

FY2020 Enacted Appropriations

FY2021 Enacted Appropriations

FY2022 Enacted Appropriations

Description

Argo Program

$11,491,000

$11,495,000

$12,100,000

Amount directed Amount directed
toward Argo toward Argo
Program from total Program from total
~~SOOM~~
~~appropriationsa~~
~~Other Argo~~
~~$3,600,000~~
~~$3,780,000~~
~~$3,000,000~~
~~Amount~~
~~Initiatives~~
SOOM appropriations^a

Other Argo Initiatives

$3,600,000

$3,780,000

$3,000,000

Amount appropriated to appropriated to
other programs, other programs,
projects, and projects, and
activities that was activities that was
used for Deep Argo used for Deep Argo
and Biogeochemical and Biogeochemical
~~Argo~~
~~IIJA Funding for the~~

~~$850,000~~
~~Amount~~
~~Argo Program~~
Argo

IIJA Funding for the Argo Program

$850,000

Amount appropriated appropriated
through SOOM through SOOM
programs, projects, programs, projects,
and activitiesand activities
Total Argo
Funding $15,091,000
$15,275,000
$15,950,000
—
~~Funding~~

—

Source: Email correspondence with NOAA, Congressional Affairs Specialist, Office of Legislative and Email correspondence with NOAA, Congressional Affairs Specialist, Office of Legislative and
Intergovernmental Affairs, November 18, 2021 and March 29, 2023.Intergovernmental Affairs, November 18, 2021 and March 29, 2023.
Notes: NOAA = National Oceanic and Atmospheric Administration; IIJA = Infrastructure Investments and Jobs NOAA = National Oceanic and Atmospheric Administration; IIJA = Infrastructure Investments and Jobs
Act of 2021 (P.L. 117-58); SOOM =Act of 2021 (P.L. 117-58); SOOM = Sustained Ocean Observing and Monitoring Program.Sustained Ocean Observing and Monitoring Program.
a. a. SOOM enacted appropriations were $45,000,000 in FY2020, $45,408,000 in FY2021, and $49,000,000 in SOOM enacted appropriations were $45,000,000 in FY2020, $45,408,000 in FY2021, and $49,000,000 in
FY2022. ~~FY2022.~~
Applications of Ocean Exploration and Bathymetric Data
Congress has shown, and continues to show, interest in mapping the ocean to inform ocean Congress has shown, and continues to show, interest in mapping the ocean to inform ocean
policies related to marine geologic hazards, environmental protections, and seabed mineral policies related to marine geologic hazards, environmental protections, and seabed mineral
resource deposits, among other policy considerations. According to reports, 50% of the U.S. resource deposits, among other policy considerations. According to reports, 50% of the U.S.
coastal, ocean, and Great Lakes waters remain unmapped; a fraction of the mapped areas have coastal, ocean, and Great Lakes waters remain unmapped; a fraction of the mapped areas have
been explored or characterized.been explored or characterized. 6970 Technological advances and the collection and study of modern Technological advances and the collection and study of modern
bathymetric data have allowed for greater and more detailed mapping, exploration, and bathymetric data have allowed for greater and more detailed mapping, exploration, and
characterization of the ocean environment.characterization of the ocean environment.7071 Congress may consider how federal efforts to map, Congress may consider how federal efforts to map,
explore, and characterize the U.S. ocean and coastal waters can complement other ocean-related explore, and characterize the U.S. ocean and coastal waters can complement other ocean-related
policies and whether to direct federal agencies to prioritize certain U.S. ocean and coastal waters policies and whether to direct federal agencies to prioritize certain U.S. ocean and coastal waters
for mapping activities.for mapping activities.
Congress also may wish to consider providing oversight on how federal agencies prioritize U.S. Congress also may wish to consider providing oversight on how federal agencies prioritize U.S.
ocean and coastal mapping activities. The Ocean and Coastal Mapping Integration Act of 2009 ocean and coastal mapping activities. The Ocean and Coastal Mapping Integration Act of 2009
((P.L. 111-11) authorized appropriations intended to facilitate federal mapping activities of U.S. P.L. 111-11) authorized appropriations intended to facilitate federal mapping activities of U.S.

~~69 NOAA, “Progress Report: Unmapped U.S. Waters,” at https://iocm.noaa.gov/documents/mapping-progress-~~
~~report2023.pdf.~~
~~70 Modern bathymetric data are data collected post 1960. NOAA, “U.S. Bathymetric Coverage and Gap Analysis,” at~~
~~https://iocm.noaa.gov/seabed-2030-bathymetry.html.~~
~~Congressional Research Service~~

16

~~Federal Involvement in Ocean-Based Research and Development~~

~~ocean and coastal waters and the Great Lakes.71~~ocean and coastal waters and the Great Lakes.⁷² In 2021, Congress provided specific direction for In 2021, Congress provided specific direction for
NOAA to use $2 million of its appropriated funds to support mapping, exploration, and NOAA to use $2 million of its appropriated funds to support mapping, exploration, and
characterization strategies, such as the National Strategy for Mapping, Exploring, and characterization strategies, such as the National Strategy for Mapping, Exploring, and
Characterizing of the United States Exclusive Economic Zone (hereinafter referred to as the Characterizing of the United States Exclusive Economic Zone (hereinafter referred to as the
~~NOMEC Strategy72)~~NOMEC Strategy)⁷³ and the Alaska Coastal Mapping Strategy (ACMS). and the Alaska Coastal Mapping Strategy (ACMS).7374 The majority of the $2 The majority of the $2
million was used for collaborative mapping data acquisition in Alaska in support of ACMS.million was used for collaborative mapping data acquisition in Alaska in support of ACMS.74
75 Congress may wish to review how NOAA has used these funds or provide additional direction on Congress may wish to review how NOAA has used these funds or provide additional direction on
where funds should be applied to specific U.S. ocean and coastal areas for mapping activities in where funds should be applied to specific U.S. ocean and coastal areas for mapping activities in
the future.the future.
One goal of the NOMEC Strategy is to build public and private partnerships to map, explore, and One goal of the NOMEC Strategy is to build public and private partnerships to map, explore, and
characterize the U.S. ocean and coastal waters (including the Great Lakes).characterize the U.S. ocean and coastal waters (including the Great Lakes).7576 Fulfilling this goal Fulfilling this goal
may help accelerate the analysis of bathymetric data needed to completely map U.S. ocean and may help accelerate the analysis of bathymetric data needed to completely map U.S. ocean and
coastal waters. In 2021, NOAA announced the creation of the Brennan Matching Fund (BMF) to coastal waters. In 2021, NOAA announced the creation of the Brennan Matching Fund (BMF) to
encourage nonfederal entities to partner with NOAA to acquire more ocean and coastal survey encourage nonfederal entities to partner with NOAA to acquire more ocean and coastal survey
data,data,7677 and in 2022, the BMF was enacted (P.L. 117-263 and in 2022, the BMF was enacted (P.L. 117-263).⁷⁸~~).77~~ In FY2023, NOAA accepted two In FY2023, NOAA accepted two
BMF projects. One partnership with the State of Connecticut Department of Energy aims to use BMF projects. One partnership with the State of Connecticut Department of Energy aims to use
multibeam and backscatter approaches to identify potential constraints for the installation of multibeam and backscatter approaches to identify potential constraints for the installation of
offshore wind electric transmission cables. The second partnership, with the Cordova, AK, offshore wind electric transmission cables. The second partnership, with the Cordova, AK,
Electric Cooperative, aims to use lidar to support the laying of an undersea power cable to a Electric Cooperative, aims to use lidar to support the laying of an undersea power cable to a
regional Federal Aviation Administration flight station.regional Federal Aviation Administration flight station.7879 Congress may consider whether to Congress may consider whether to
provide increased funding support to enhance public-private partnerships aimed at collecting and provide increased funding support to enhance public-private partnerships aimed at collecting and
analyzing new bathymetric data, or funding support for the integration of existing modern analyzing new bathymetric data, or funding support for the integration of existing modern
bathymetric data from multiple sources (e.g., federal, state, academic, nongovernmental bathymetric data from multiple sources (e.g., federal, state, academic, nongovernmental
organizations).organizations).
Marine Geologic Hazards
Seafloor mapping is a primary tool used for seafloor geohazard assessments. Congress may wish Seafloor mapping is a primary tool used for seafloor geohazard assessments. Congress may wish
to consider using these assessments to inform decisions about national security, such as protecting to consider using these assessments to inform decisions about national security, such as protecting
coastal communities. Improved scientific knowledge of marine geohazard events (e.g., coastal communities. Improved scientific knowledge of marine geohazard events (e.g.,
earthquakes, tsunamis, marine landslides) can help safeguard coastal communities and marine earthquakes, tsunamis, marine landslides) can help safeguard coastal communities and marine
infrastructure (e.g., pipelines, undersea cables). Detailed imaging of the seafloor can provide infrastructure (e.g., pipelines, undersea cables). Detailed imaging of the seafloor can provide
information about the complex seafloor landscape, such as how fast a seafloor fault is moving and information about the complex seafloor landscape, such as how fast a seafloor fault is moving and
when the last earthquake occurred along that fault.when the last earthquake occurred along that fault.7980 For example, the Cascadia subduction zone ~~For example, the Cascadia subduction zone~~

~~71 P.L. 111-11, Title XII, Part II, Subtitle B.~~
~~72 Ocean Science and Technology Subcommittee of the Ocean Policy Committee,~~ ~~National Strategy for Mapping,~~
~~Exploring, and Characterizing the United States Exclusive Economic Zone, June 9, 2020. Hereinafter referred to as~~
NOMEC Strategy, 2020, pp. 1-20.
~~73 Email correspondence with NOAA, Congressional Affairs Specialist, Office of Legislative and Intergovernmental~~
~~Affairs, January 14, 2022.~~
~~74 Ibid.~~
~~75 NOMEC Strategy, 2020, pp. 17-19.~~
~~76 For example, NOAA, “Notice of Matching Fund Opportunity for Ocean and Coastal Mapping and Request for~~
~~Partnership Proposals,” 87 Federal Register 35509, June 10, 2022.~~
~~77 P.L. 117-263, Division J, Title CIII, Sec. 12206.~~
~~78 Email correspondence with NOAA, Congressional Affairs Specialist, Office of Legislative and Intergovernmental~~
~~Affairs, April 14, 2023.~~
~~79 USGS, “Marine Geohazards,” May 6, 2022, at https://www.usgs.gov/media/slideshows/marine-geohazards.~~
~~Congressional Research Service~~

17

~~Federal Involvement in Ocean-Based Research and Development~~

off the coast of the northwestern United States has the capability of producing earthquakes of off the coast of the northwestern United States has the capability of producing earthquakes of
magnitude 8 or 9, which could cause destructive tsunamis that would strike the coastlines of magnitude 8 or 9, which could cause destructive tsunamis that would strike the coastlines of
Washington, Oregon, and Northern California.Washington, Oregon, and Northern California.8081 Knowledge of this subduction zone allows for Knowledge of this subduction zone allows for
the establishment and enforcement of construction standards for marine infrastructure that can the establishment and enforcement of construction standards for marine infrastructure that can
withstand seafloor movement, which aims to save lives and mitigate potential damage and the withstand seafloor movement, which aims to save lives and mitigate potential damage and the
need for costly repairs.need for costly repairs.
Congress also may wish to use data of seafloor hazards to inform funding level decisions for Congress also may wish to use data of seafloor hazards to inform funding level decisions for
federal programs aimed at preparing communities for marine geohazard events. For example, the federal programs aimed at preparing communities for marine geohazard events. For example, the
National Weather Service National Tsunami Hazard Mitigation Program provides grants to National Weather Service National Tsunami Hazard Mitigation Program provides grants to
partner states for tsunami-related activities, such as preparing evacuation plans and maps,partner states for tsunami-related activities, such as preparing evacuation plans and maps,8182 and and
the Federal Emergency Management Agency Building Resilient Infrastructure and Communities the Federal Emergency Management Agency Building Resilient Infrastructure and Communities
grant program funds the construction of tsunami vertical evacuation towers.grant program funds the construction of tsunami vertical evacuation towers.8283 In addition, the In addition, the
National Tsunami Warning Center and the Pacific Tsunami Warning Center monitor for tsunamis National Tsunami Warning Center and the Pacific Tsunami Warning Center monitor for tsunamis
and the earthquakes that cause them and issue tsunami alerts to coastal communities.and the earthquakes that cause them and issue tsunami alerts to coastal communities.83
84 Environmental Protection of the Deep Sea
Congress may consider using maps identifying certain marine habitats to establish marine Congress may consider using maps identifying certain marine habitats to establish marine
protected areas or to weigh the potential ecological impacts associated with natural resource protected areas or to weigh the potential ecological impacts associated with natural resource
exploitation. In 2017, NOAAexploitation. In 2017, NOAA’'s s Okeanos Explorer concluded a three-year field campaign concluded a three-year field campaign
mapping approximately 600,000 square kilometers of the Pacific seafloor (about 61% within the mapping approximately 600,000 square kilometers of the Pacific seafloor (about 61% within the
U.S. exclusive economic zone, or EEZ) and documenting its biodiversity.U.S. exclusive economic zone, or EEZ) and documenting its biodiversity.8485 Knowledge and Knowledge and
understanding of the U.S. deep sea through exploration and scientific research may allow for understanding of the U.S. deep sea through exploration and scientific research may allow for
protection of certain habitats and establishment of a domestic supply of marine natural resources, protection of certain habitats and establishment of a domestic supply of marine natural resources,
such as critical minerals, located in the U.S. EEZ. In addition, the documentation of deep-sea such as critical minerals, located in the U.S. EEZ. In addition, the documentation of deep-sea
habitats can provide baselines for understanding whether and how vulnerable (or resilient) they habitats can provide baselines for understanding whether and how vulnerable (or resilient) they
might be to human disturbance or natural environmental change. Congress may consider the level might be to human disturbance or natural environmental change. Congress may consider the level
of funding to provide to support NOAAof funding to provide to support NOAA’'s deep-sea exploration campaigns that are designed to s deep-sea exploration campaigns that are designed to
better explore and characterize the ocean.better explore and characterize the ocean.85
86 Seabed Mineral Resource Deposits
Congress has interest in securing and enhancing the domestic supply of critical minerals. Congress has interest in securing and enhancing the domestic supply of critical minerals.
~~Bathymetric and G&G survey data can help identify potential deep-sea mineral resource deposits,~~

~~80 NOAA, “JetStream Max: Cascadia Subduction Zone,” at https://www.noaa.gov/jetstream/jetstream-max-cascadia-~~
~~subduction-zone#.~~
~~81 National Weather Service (NWS), “NOAA/NWS Tsunami Activities Grants – Allowable Grant Activities,” at~~
~~https://nws.weather.gov/nthmp/grants/Allowable.pdf.~~
~~82 For example, see FEMA, “Shoalwater Bay Tribe Builds Evacuation Tower to Provide Tsunami Safety for~~
~~Community,” June 30, 2021, at https://www.fema.gov/blog/shoalwater-bay-tribe-builds-evacuation-tower-provide-~~
~~tsunami-safety-community.~~
~~83 NWS, “Detection, Warning, and Forecasting,” at https://www.weather.gov/jetstream/tsu_detect.~~
~~84 Brian R.C. Kennedy et al., “The Unknown and the Unexplored: Insights into the Pacific Deep-Sea Following NOAA~~
~~CAPSTONE Expeditions,” in Frontiers in Marine Sciences, vol. 6 (August 2019), p. 2.~~
~~85 NOAA’s Office of Marine and Aviation Operations operates oceanographic research vessels (e.g.,~~ ~~Okeanos~~
~~Explorer) that help achieve the Administration’s scientific missions. NOAA’s Office of Oceanic and Atmospheric~~
~~Research Deep-Sea, which houses the Office of Ocean Exploration and Research, owns the mission equipment onboard~~
~~the Okeanos Explorer and coordinates the ship’s exploration mission. NOAA, “About NOAA Ship Okeanos Explorer,”~~
~~at https://oceanexplorer.noaa.gov/okeanos/about.html.~~
~~Congressional Research Service~~

18

~~Federal Involvement in Ocean-Based Research and Development~~

Bathymetric and G&G survey data can help identify potential deep-sea mineral resource deposits, such as ferromanganese crusts, which may contain cobalt, manganese, and rare earth elements.such as ferromanganese crusts, which may contain cobalt, manganese, and rare earth elements.86
87 For example, bathymetric data can identify geologic features such as seamounts, where For example, bathymetric data can identify geologic features such as seamounts, where
ferromanganese crusts often can be found on their summits and flanks.ferromanganese crusts often can be found on their summits and flanks.8788 Congress may be Congress may be
interested in interagency coordination of seabed mining research activities by NOAA,interested in interagency coordination of seabed mining research activities by NOAA,~~88 USGS,89~~
89 USGS,⁹⁰ and BOEM,and BOEM,9091 among others, to better document the distribution seabed minerals in the U.S. EEZ among others, to better document the distribution seabed minerals in the U.S. EEZ
and in areas beyond national jurisdiction. In addition, Congress may consider directing these and in areas beyond national jurisdiction. In addition, Congress may consider directing these
agencies to coordinate research activities to study potential seabed mining impacts on deep-sea agencies to coordinate research activities to study potential seabed mining impacts on deep-sea
habitats. For example, the habitats. For example, the ~~117th~~117^th Congress considered legislation that would have called on the Congress considered legislation that would have called on the
NOAA Administrator to seek NOAA Administrator to seek “"an agreement with the National Academies to conduct a an agreement with the National Academies to conduct a
comprehensive assessment of the environmental impacts of deep-sea mining.comprehensive assessment of the environmental impacts of deep-sea mining.~~”91~~"⁹² Congress may Congress may
consider using maps that identify certain marine habitats to establish marine protected areas that consider using maps that identify certain marine habitats to establish marine protected areas that
limit (or restrict) exploitation activities, or to weigh the potential ecological impacts associated limit (or restrict) exploitation activities, or to weigh the potential ecological impacts associated
~~with the seabed mining in these habitats.~~

~~86 USGS, “Global Marine Mineral Resources,” at https://www.usgs.gov/centers/pcmsc/science/global-marine-mineral-~~
~~resources?qt-science_center_objects=0.~~
~~87 For more information on the occurrence of seabed minerals, see CRS Report R47324,~~ ~~Seabed Mining in Areas~~
~~Beyond National Jurisdiction: Issues for Congress, by Caitlin Keating-Bitonti.~~
~~88 NOAA implements the Deep Seabed Hard Mineral Resources Act (P.L. 96-283; 30 U.S.C. §§1401-1473), enacted in~~
~~1980, which governs seabed mining activities in areas beyond national jurisdiction.~~
~~89 The Global Marine Mineral Resources Project, based out of the USGS Pacific Coastal and Marine Science Center,~~
~~“provide[s] stakeholders with the best available science regarding potential resources and environmental impacts~~
~~associated with accessing [marine mineral deposits].” USGS, “Global Marine Mineral Resources,” at~~
~~https://www.usgs.gov/centers/pcmsc/science/global-marine-mineral-resources?qt-science_center_objects=0.~~
~~90 OCSLA authorizes the Department of the Interior (DOI) to manage the submerged lands of the OCS (43 U.S.C.~~
~~§§1331-1356c). DOI delegated the mineral leasing authorities to BOEM. BOEM scientists use the results of~~
~~environmental studies to characterize the effects of proposed mineral extraction from the OCS and design mitigation~~
~~measure to minimize or avoid adverse effects. BOEM, “Research and Studies,” at https://www.boem.gov/marine-~~
~~minerals/research-and-studies.~~
~~91 In the 117th Congress, H.R. 3764.~~
~~Congressional Research Service~~

19

~~link to page 8~~ ~~Federal Involvement in Ocean-Based Research and Development~~

with the seabed mining in these habitats. Appendix A. Background on Selected Physical
Oceanographic Variables
Ocean Temperature
Ocean temperature varies predictably—colder water occurs at higher latitudes and at greater Ocean temperature varies predictably—colder water occurs at higher latitudes and at greater
depths, as well as in regions where wind energy pushes sea surface water in a specific direction, depths, as well as in regions where wind energy pushes sea surface water in a specific direction,
allowing for deep water to move to the surface (see text box entitled allowing for deep water to move to the surface (see text box entitled “"Ocean UpwellingOcean Upwelling”"). Sea ). Sea
surface temperatures (SSTs) and temperatures for water depths up to 2,000 meters are primarily surface temperatures (SSTs) and temperatures for water depths up to 2,000 meters are primarily
collected by National Oceanic and Atmospheric Administration (NOAA) Argo Profiling Floats.collected by National Oceanic and Atmospheric Administration (NOAA) Argo Profiling Floats.92
93 As Argo floats drift in the ocean and submerge to new pressure levels at different water depths, As Argo floats drift in the ocean and submerge to new pressure levels at different water depths,
they collect data on the waterthey collect data on the water’'s temperature profile s temperature profile (Figure 1). When Argo floats return to the . When Argo floats return to the
surface, they transmit temperature data via satellites to scientists for processing and analysis.surface, they transmit temperature data via satellites to scientists for processing and analysis.
Various instruments other than Argo floats also collect and transmit ocean temperature data. Various instruments other than Argo floats also collect and transmit ocean temperature data.
Research vessels can collect ocean temperature and other data using deployable vehicles or Research vessels can collect ocean temperature and other data using deployable vehicles or
devices. For example, unmanned wave gliders are remotely operated vehicles that collect SST devices. For example, unmanned wave gliders are remotely operated vehicles that collect SST
data. Research vessels can also deploy Conductivity, Temperature, and Depth (CTD) sensors that data. Research vessels can also deploy Conductivity, Temperature, and Depth (CTD) sensors that
collect water temperatures at various water depths. Wave gliders and CTD sensors are limited to collect water temperatures at various water depths. Wave gliders and CTD sensors are limited to
the path taken by the ship, but can provide detailed data for specific sites.the path taken by the ship, but can provide detailed data for specific sites.
The satellites Aqua, Terra, Suomi National Polar-Orbiting Partnership (NPP), and NOAA-20 are The satellites Aqua, Terra, Suomi National Polar-Orbiting Partnership (NPP), and NOAA-20 are
equipped with instruments that collect near-global SST data from space. Unlike sensors deployed equipped with instruments that collect near-global SST data from space. Unlike sensors deployed
in the ocean, they collect data from the top 1 millimeter of the ocean.in the ocean, they collect data from the top 1 millimeter of the ocean.
Over the Over the ~~20th~~20^th century and continuing today, global SSTs have increased as the ocean absorbs century and continuing today, global SSTs have increased as the ocean absorbs
more heat.more heat.9394 Ocean temperature impacts global climate. For example, warm waters increase the Ocean temperature impacts global climate. For example, warm waters increase the
amount of water vapor over the ocean that can influence weather systems (e.g., precipitation amount of water vapor over the ocean that can influence weather systems (e.g., precipitation
patterns, storm events).patterns, storm events).9495 Warming SSTs also have the potential to affect marine ecosystems by Warming SSTs also have the potential to affect marine ecosystems by
altering where species can live and when species migrate and reproduce, and causing loss of life altering where species can live and when species migrate and reproduce, and causing loss of life
for species that cannot migrate to new waters.for species that cannot migrate to new waters.9596 Additionally, ocean temperature influences other Additionally, ocean temperature influences other
ocean variables, such as ice, sea level (because of thermal expansion of ocean water),ocean variables, such as ice, sea level (because of thermal expansion of ocean water),96
97 chlorophyll, dissolved oxygen, and pH.

Ocean Upwelling

There are two types of ocean upwelling.

~~chlorophyll, dissolved oxygen, and pH.~~

~~92 Sea surface temperatures (SSTs) are considered as depths up to 5 meters below the surface ocean. NOAA, “Argo~~
~~Center,” at https://www.aoml.noaa.gov/phod/argo/.~~
~~93 EPA, “Climate Change Indicators: Sea Surface Temperature,” at https://www.epa.gov/climate-indicators/climate-~~
~~change-indicators-sea-surface-temperature.~~
~~94 NASA, “Sea Surface Temperature & Water Vapor,” at https://earthobservatory.nasa.gov/global-maps/MYD28M/~~
~~MYDAL2_M_SKY_WV.~~
~~95 “Chapter 5. Changing Ocean, Marine Ecosystems, and Dependent Communities,” in IPCC, Ocean and Cryosphere.~~
~~96 Because water expands as it warms (thermal expansion), warming ocean water causes sea level rise.~~
~~Congressional Research Service~~

20

~~Federal Involvement in Ocean-Based Research and Development~~

~~Ocean Upwelling~~
~~There are two types of ocean upwelling.~~

Coastal upwelling is the most common type of upwelling and generally occurs along the western coast of is the most common type of upwelling and generally occurs along the western coast of
North America in the winter and year-round along the western coasts of South America and Africa. In the North America in the winter and year-round along the western coasts of South America and Africa. In the
winter, strong winds typically blow north to south along the west coast of the United States. Due to Earthwinter, strong winds typically blow north to south along the west coast of the United States. Due to Earth’s
's rotation, these strong winds cause surface waters along the western U.S. coast to be pushed offshore, rotation, these strong winds cause surface waters along the western U.S. coast to be pushed offshore,
allowing for deep, colder ocean waters to replace them. This path of air deflection is called the allowing for deep, colder ocean waters to replace them. This path of air deflection is called the Coriolis Effect. .
Because of the Because of the Coriolis Effect, surface ocean water is also deflected, moving at about 90-degrees to the right of , surface ocean water is also deflected, moving at about 90-degrees to the right of
the wind direction in the Northern Hemisphere and about 90-degrees to the left of the wind direction in the the wind direction in the Northern Hemisphere and about 90-degrees to the left of the wind direction in the
Southern Hemisphere. This movement of water is called Southern Hemisphere. This movement of water is called Ekman Transport (or (or Ekman Spiral).).

Equatorial upwelling occurs along the equator. Surface water in the Northern Hemisphere diverges occurs along the equator. Surface water in the Northern Hemisphere diverges
northward along the equator (to the right) and southward in the Southern Hemisphere (to the left) due to northward along the equator (to the right) and southward in the Southern Hemisphere (to the left) due to
the the Coriolis Effect. Where these two surface water masses diverge away from each other along the equator, . Where these two surface water masses diverge away from each other along the equator,
deep, colder waters rise to the surface. Trade winds in the Indian Ocean make equatorial upwelling less deep, colder waters rise to the surface. Trade winds in the Indian Ocean make equatorial upwelling less
prevalent in this ocean basin compared to the Atlantic and Pacific Oceans.prevalent in this ocean basin compared to the Atlantic and Pacific Oceans.
Sources: National Oceanic and Atmospheric Administration (NOAA), National Oceanic and Atmospheric Administration (NOAA), “"The Coriolis Effect,The Coriolis Effect,~~” at~~
" https://oceanservice.noaa.gov/education/tutorial_currents/04currents1.htmlhttps://oceanservice.noaa.gov/education/tutorial_currents/04currents1.html; ; NOAA, NOAA, “"The Ekman Spiral,The Ekman Spiral,~~” at~~"
https://oceanservice.noaa.gov/education/tutorial_currents/04currents4.htmlhttps://oceanservice.noaa.gov/education/tutorial_currents/04currents4.html. .
Ice
Continental ice and sea ice cover vast swaths of the Antarctic and Arctic regions, including Continental ice and sea ice cover vast swaths of the Antarctic and Arctic regions, including
Greenland. Extreme weather, ice-covered terrain, and thick sea ice can pose challenges to Greenland. Extreme weather, ice-covered terrain, and thick sea ice can pose challenges to
research vessel polar scientific expeditions. Satellite and aircraft remote sensing allow for more research vessel polar scientific expeditions. Satellite and aircraft remote sensing allow for more
continuous and broad monitoring of these regions, including aspects such as ice thickness and continuous and broad monitoring of these regions, including aspects such as ice thickness and
areal extent. Sea-ice concentration data are derived from the Advanced Topographic Laser areal extent. Sea-ice concentration data are derived from the Advanced Topographic Laser
Altimeter System on the IceSat-2 and the Special Sensor Microwave/Imager and Special Sensor Altimeter System on the IceSat-2 and the Special Sensor Microwave/Imager and Special Sensor
Microwave Imager/Sounder on Defense Meteorological Satellite Programs satellites.Microwave Imager/Sounder on Defense Meteorological Satellite Programs satellites.9798 The VIIRS The VIIRS
instrument onboard both the Suomi NPP and NOAA-20 also collects data used to monitor the instrument onboard both the Suomi NPP and NOAA-20 also collects data used to monitor the
amount of ice at the poles. The GRACE-FO satellite measures changes to Earthamount of ice at the poles. The GRACE-FO satellite measures changes to Earth’'s gravitational s gravitational
pull, which reflect changes in Earthpull, which reflect changes in Earth’'s distribution of mass (including water and ice).s distribution of mass (including water and ice).9899 As ice As ice
melts and redistributes water across the planet, it alters Earthmelts and redistributes water across the planet, it alters Earth’'s gravitational pull, allowing s gravitational pull, allowing
scientists to use the satellite data to measure these water mass and ice mass changes.scientists to use the satellite data to measure these water mass and ice mass changes.
Continental and sea-ice melt add freshwater to the surface ocean. Freshwater is less dense than Continental and sea-ice melt add freshwater to the surface ocean. Freshwater is less dense than
seawater and consequently tends to layer with the underlying seawater, leading to the seawater and consequently tends to layer with the underlying seawater, leading to the
stratification of ocean water in regions with increased ice melt. Cold, salty polar surface waters stratification of ocean water in regions with increased ice melt. Cold, salty polar surface waters
are dense enough to sink to depth in the ocean and fuel global deep-sea circulation. Because cold are dense enough to sink to depth in the ocean and fuel global deep-sea circulation. Because cold
water also holds more dissolved gasses than warm water, polar regions play an important role in water also holds more dissolved gasses than warm water, polar regions play an important role in
absorbing atmospheric absorbing atmospheric ~~CO2~~CO₂ and sinking this carbon into the deep ocean.

Sea Level

~~and sinking this carbon into the deep ocean.~~

~~97 Initiated by the Department of Defense in the mid-1960s, the Defense Meteorological Satellite Program is composed~~
~~of low, Earth-orbiting satellites that provide the military with environmental information. These satellites provide~~
~~global coverage twice per day. Meteorologists interpret the data (e.g., cloud type, land and water temperatures, water~~
~~currents) for U.S. military operations worldwide.~~
~~98 NASA, “GRACE, GRACE-FO Satellite Data Track Ice Loss at the Poles,” March 18, 2020, at~~
~~https://climate.nasa.gov/news/2959/grace-grace-fo-satellite-data-track-ice-loss-at-the-poles/.~~
~~Congressional Research Service~~

21

~~Federal Involvement in Ocean-Based Research and Development~~

~~Sea Level~~
The global average sea level has been slowly rising because of melting continental ice and The global average sea level has been slowly rising because of melting continental ice and
thermal expansion of ocean water due to its warming. The surface height (elevation) of the ocean thermal expansion of ocean water due to its warming. The surface height (elevation) of the ocean
in any particular area can naturally vary in places due to gravitational pull from the moon and in any particular area can naturally vary in places due to gravitational pull from the moon and
sun, Earthsun, Earth’'s rotation, atmospheric pressure, and gravitational forces from continental land mass.s rotation, atmospheric pressure, and gravitational forces from continental land mass.99
100 Satellite-based radar altimeters measure variations in the surface height of the ocean by sending Satellite-based radar altimeters measure variations in the surface height of the ocean by sending
pulses of microwaves toward the ocean that bounce off its surface and return to the satellite. pulses of microwaves toward the ocean that bounce off its surface and return to the satellite.
Similar to sonar sensor systems, the amount of time it takes for the signal to return to the satellite Similar to sonar sensor systems, the amount of time it takes for the signal to return to the satellite
corresponds to the height of the sea surface. Both Jason-3 and Sentinel-6 Michael Freilich are corresponds to the height of the sea surface. Both Jason-3 and Sentinel-6 Michael Freilich are
altimetry satellites. The Jason-3 satellite is a shared partnership between NASA, NOAA, Francealtimetry satellites. The Jason-3 satellite is a shared partnership between NASA, NOAA, France’s
's Centre National d'Etudes Spatiales, the European Organisation for the Exploitation of Centre National d'Etudes Spatiales, the European Organisation for the Exploitation of
Meteorological Satellites, and the European Space Agency.Meteorological Satellites, and the European Space Agency.~~100~~101 The Sentinel-6 Michael Freilich The Sentinel-6 Michael Freilich
satellite is a collaborative partnership between the European Space Agency, European satellite is a collaborative partnership between the European Space Agency, European
Commission, European Organisation for the Exploitation of Meteorological Satellites, SpaceX, Commission, European Organisation for the Exploitation of Meteorological Satellites, SpaceX,
NASA, and NOAA.NASA, and NOAA.~~101~~102 The GRACE-FO satellite measures changes to Earth The GRACE-FO satellite measures changes to Earth’'s gravitational pull, s gravitational pull,
which can provide information about the amount of sea level rise as the distribution of water and which can provide information about the amount of sea level rise as the distribution of water and
ice changes across Earthice changes across Earth’'s surface.s surface.~~102~~
103 Prior to altimetry satellites, tide gauges were used to continuously collect tidal wave heights. This Prior to altimetry satellites, tide gauges were used to continuously collect tidal wave heights. This
recorded the height of the surrounding water relative to a reference point, taking into account land recorded the height of the surrounding water relative to a reference point, taking into account land
elevation changes. Modern gauges use a microprocessor-based technology to collect sea level elevation changes. Modern gauges use a microprocessor-based technology to collect sea level
data every six minutes and are synchronized with Geostationary Operational Environmental data every six minutes and are synchronized with Geostationary Operational Environmental
Satellites.Satellites.~~103~~
104 Heating of EarthHeating of Earth’'s climate system has led to both continental ice melt and thermal expansion of s climate system has led to both continental ice melt and thermal expansion of
the ocean, leading to global mean sea level rise.the ocean, leading to global mean sea level rise.~~104~~105 Due to sea level rise, low-lying areas are Due to sea level rise, low-lying areas are
susceptible to more frequent and severe coastal flooding events and sandy coastlines more susceptible to more frequent and severe coastal flooding events and sandy coastlines more
susceptible to coastal erosion. The 2021 IPCC susceptible to coastal erosion. The 2021 IPCC Sixth Assessment Report also projects that with also projects that with
high confidence that extreme sea level events that previously occurred once per century at least high confidence that extreme sea level events that previously occurred once per century at least
~~annually at more than half of all tide gauge locations by 2100.105~~

~~99 NASA, “Sea Level 101: What Determines the Level of the Sea?,” June 3, 2020, at https://climate.nasa.gov/ask-nasa-~~
~~climate/2990/sea-level-101-what-determines-the-level-of-the-sea/.~~
~~100 NOAA, “Taking a Measure of Sea Level Rise: Ocean Altimetry,” at https://earthobservatory.nasa.gov/images/~~
~~147435/taking-a-measure-of-sea level-rise-ocean-altimetry.~~
~~101 Linda Herridge, “Sentinel-6 Michael Freilich Satellite in Earth Orbit, Mission Begins to Map Sea Levels,”~~ ~~NASA~~
~~Blogs, November 21, 2020, at https://blogs.nasa.gov/sentinel-6/.~~
~~102 NASA, “Sea Level,” at https://gracefo.jpl.nasa.gov/science/sea-level/.~~
~~103 Geostationary Operational Environmental Satellites (GOES) track the same position on Earth’s surface as the planet~~
~~rotates, thereby providing constant surveillance over the specified area. These satellites can provide information on~~
~~weather conditions (e.g., tornados, floods, hurricanes). NASA, “GOES Satellite Network,” at https://www.nasa.gov/~~
~~content/goes; and NOAA, “What Is a Tide Gauge?” at https://oceanservice.noaa.gov/facts/tide-gauge.html. For more~~
~~information, see CRS Report R44632, Sea-Level Rise and U.S. Coasts: Science and Policy Considerations, by Peter~~
~~Folger and Nicole T. Carter.~~
~~104 “Summary for Policymakers,” in IPCC, AR6 Physical Science Basis, p. SPM-14.~~
~~105 Ibid, p. SPM-33.~~
~~Congressional Research Service~~

22

~~link to page 26~~

~~Federal Involvement in Ocean-Based Research and Development~~

annually at more than half of all tide gauge locations by 2100.¹⁰⁶ Chlorophyll (Ocean Color)
The chlorophyll concentration of the surface ocean provides an estimate for living phytoplankton The chlorophyll concentration of the surface ocean provides an estimate for living phytoplankton
in the near-surface water and is inversely correlated with temperature (i.e., dense populations of in the near-surface water and is inversely correlated with temperature (i.e., dense populations of
phytoplankton occur in cold surface waters where ocean upwelling has occurred).phytoplankton occur in cold surface waters where ocean upwelling has occurred).~~106~~
107 Phytoplankton use photosynthetic green pigments (chlorophyll) to convert the solar energy they Phytoplankton use photosynthetic green pigments (chlorophyll) to convert the solar energy they
capture into organic matter. When phytoplankton occur in dense populations, the color of the capture into organic matter. When phytoplankton occur in dense populations, the color of the
ocean appears greenerocean appears greener (Figure A-1). The MODIS instrument on the Aqua and Terra satellites and . The MODIS instrument on the Aqua and Terra satellites and
the VIIRS instrument on the Suomi NPP and NOAA-20 satellites collect chlorophyll data.the VIIRS instrument on the Suomi NPP and NOAA-20 satellites collect chlorophyll data.
Chlorophyll concentrations provide information about ocean health and primary productivity in Chlorophyll concentrations provide information about ocean health and primary productivity in
surface waters. Deep, cold waters tend be nutrient-rich; when these waters are exposed to surface waters. Deep, cold waters tend be nutrient-rich; when these waters are exposed to
sunlight, marine phytoplankton absorb solar energy and atmospheric sunlight, marine phytoplankton absorb solar energy and atmospheric ~~CO2~~CO₂ to form organic matter, to form organic matter,
forming the base of the marine food chain for larger organisms to feed on them. Phytoplankton forming the base of the marine food chain for larger organisms to feed on them. Phytoplankton
are composed of organic (flesh) and inorganic (shell) carbon; thus, when phytoplankton die, the are composed of organic (flesh) and inorganic (shell) carbon; thus, when phytoplankton die, the
inorganic shell of the organism sinks to depth in the ocean, removing carbon from the surface inorganic shell of the organism sinks to depth in the ocean, removing carbon from the surface
waters. This process provides a natural atmospheric waters. This process provides a natural atmospheric ~~CO2 sink.~~
CO₂sink.

Figure A-1. Phytoplankton Bloom off the Washington Coast

Source: National Aeronautics and Space Administration (NASA) Earth Observatory, National Aeronautics and Space Administration (NASA) Earth Observatory, at
https://earthobservatory.nasa.gov/images/84095/phytoplankton-bloom-off-the-pacific-northwesthttps://earthobservatory.nasa.gov/images/84095/phytoplankton-bloom-off-the-pacific-northwest.
. Notes: NASA NASA’'s Aqua satellite captured this image of coastal upwelling on July 26, 2014. Upwelling currents and s Aqua satellite captured this image of coastal upwelling on July 26, 2014. Upwelling currents and
summer weather promoted this large phytoplankton bloom off the Pacific Northwest making the coastal ocean summer weather promoted this large phytoplankton bloom off the Pacific Northwest making the coastal ocean
~~waters appear green.~~

~~106 NASA, “Chlorophyll Concentration (1 Month—Aqua/Modis),” at https://neo.gsfc.nasa.gov/view.php?datasetId=~~
~~MY1DMM_CHLORA.~~
~~Congressional Research Service~~

23

~~Federal Involvement in Ocean-Based Research and Development~~

waters appear green. Seafloor Bathymetry
An estimated 77% of the global ocean remains unmapped.An estimated 77% of the global ocean remains unmapped.~~107~~108 The primary instrument used for The primary instrument used for
mapping the seafloor is a multibeam sonar sensor, which attaches directly to a shipmapping the seafloor is a multibeam sonar sensor, which attaches directly to a ship’'s hull. A s hull. A
multibeam sonar sensor sends out simultaneous sonar beams (sound waves) in a fan-shaped multibeam sonar sensor sends out simultaneous sonar beams (sound waves) in a fan-shaped
pattern to collect seafloor information surrounding the ship.pattern to collect seafloor information surrounding the ship.~~108~~109 The amount of time it takes for the The amount of time it takes for the
sonar sound wave to return back to the sensor corresponds to the depth of the seafloor. Multibeam sonar sound wave to return back to the sensor corresponds to the depth of the seafloor. Multibeam
sonar sensors also can collect backscatter measurements, which correspond to the return beamsonar sensors also can collect backscatter measurements, which correspond to the return beam’s
's intensity. The return signalintensity. The return signal’'s intensity provides information about the seafloors intensity provides information about the seafloor’'s composition; for s composition; for
example, a mud surface absorbs most of the sound pulse, returning a weak signal to the receiver, example, a mud surface absorbs most of the sound pulse, returning a weak signal to the receiver,
whereas a rocky surface absorbs little of the sound pulse, returning a strong signal.whereas a rocky surface absorbs little of the sound pulse, returning a strong signal.~~109~~
110 A sidescan sonar also provides information on the composition of the seafloor sediment. This A sidescan sonar also provides information on the composition of the seafloor sediment. This
equipment, which is towed off vessels on long cables, sends and receives sound signals across the equipment, which is towed off vessels on long cables, sends and receives sound signals across the
seafloor, recording the return signalseafloor, recording the return signal’'s intensity.s intensity.
Satellite-based remote sensing technology can also be used for shallow seafloor mapping, Satellite-based remote sensing technology can also be used for shallow seafloor mapping,
especially in areas inaccessible to research vessels. The Landsat 8 and Landsat 9 satellites provide especially in areas inaccessible to research vessels. The Landsat 8 and Landsat 9 satellites provide
near-shore bathymetric data, but the satellite primarily collects land-based observations for a near-shore bathymetric data, but the satellite primarily collects land-based observations for a
variety of governmental and nongovernmental applications.variety of governmental and nongovernmental applications.~~110~~111 The ICESat-2 satellite is equipped The ICESat-2 satellite is equipped
with lidar technology that can be used to map coastal waters.with lidar technology that can be used to map coastal waters.~~111~~
112 Knowledge of seafloor bathymetry serves several navigation, economic (marine resources), and Knowledge of seafloor bathymetry serves several navigation, economic (marine resources), and
ocean science purposes. Nautical charts are based on bathymetric data. Characteristics of the ocean science purposes. Nautical charts are based on bathymetric data. Characteristics of the
seafloor partially derived from bathymetric data can help identify and locate natural resources of seafloor partially derived from bathymetric data can help identify and locate natural resources of
economic value (e.g., sand and gravel, critical minerals, oil and gas reserves). In addition, economic value (e.g., sand and gravel, critical minerals, oil and gas reserves). In addition,
seafloor characteristics can help study changing coastlines (e.g., erosion, land sinking), geologic seafloor characteristics can help study changing coastlines (e.g., erosion, land sinking), geologic
hazards (e.g., active faults), and the habitats of benthic organisms (i.e., organisms living on or in hazards (e.g., active faults), and the habitats of benthic organisms (i.e., organisms living on or in
~~seafloor sediments).~~

~~107 The Nippon Foundation-GEBCO Seabed 2030 Project, “Mapping Progress,” at https://seabed2030.org/mapping-~~
~~progress.~~
~~108 A single-beam sonar uses only one sonar beam aimed directly beneath the ship to collect bathymetric data.~~
~~109 NOAA, “Sea Floor Mapping,” at https://oceanexplorer.noaa.gov/explorations/lewis_clark01/background/~~
~~seafloormapping/seafloormapping.html.~~
~~110 USGS, “Satellite-Derived Bathymetry,” at https://www.usgs.gov/special-topics/coastal-national-elevation-database-~~
~~%28coned%29-applications-project/science/satellite; NASA, “Landsat 8 Mission Details,” at~~
~~https://landsat.gsfc.nasa.gov/satellites/landsat-8/landsat-8-mission-details/. For more information, see CRS Report~~
~~R46560, Landsat 9 and the Future of the Sustainable Land Imaging Program, by Anna E. Normand.~~
~~111 NASA, “Sounding the Seafloor with Light,” at https://earthobservatory.nasa.gov/images/148246/sounding-the-~~
~~seafloor-with-light.~~
~~Congressional Research Service~~

24

~~Federal Involvement in Ocean-Based Research and Development~~

seafloor sediments). Appendix B. Background on Selected
Biogeochemical Oceanographic Variables
Salinity
Salinity (saltiness) is a measure of the dissolved salt ions in seawater. The two most common ions Salinity (saltiness) is a measure of the dissolved salt ions in seawater. The two most common ions
in seawater are chloride and sodium. They make up over 90% of all dissolved ions in seawater. in seawater are chloride and sodium. They make up over 90% of all dissolved ions in seawater.
Dissolved ions can be washed from land into the ocean via rivers or can be mixed into seawater Dissolved ions can be washed from land into the ocean via rivers or can be mixed into seawater
by submarine hydrothermal vents or undersea volcanoes.by submarine hydrothermal vents or undersea volcanoes.~~112~~113 Salinity can be measured using Argo Salinity can be measured using Argo
floats; unmanned wave gliders; Conductivity, Temperature, and Depth (CTD) sensors; and water floats; unmanned wave gliders; Conductivity, Temperature, and Depth (CTD) sensors; and water
quality gauges.quality gauges.
Salinity and sea surface temperature determine the density of surface ocean water. Density Salinity and sea surface temperature determine the density of surface ocean water. Density
differences between water masses (e.g., surface water versus deep-sea water) drive ocean differences between water masses (e.g., surface water versus deep-sea water) drive ocean
circulation, which is the primary mechanism for transporting heat across and within the global circulation, which is the primary mechanism for transporting heat across and within the global
ocean. Scientists use the salinity of ocean water to trace ocean circulation patterns and to monitor ocean. Scientists use the salinity of ocean water to trace ocean circulation patterns and to monitor
freshwater input from land or melting ice. Both increased precipitation over land and continental freshwater input from land or melting ice. Both increased precipitation over land and continental
and sea-ice melt are freshening near-surface ocean waters,and sea-ice melt are freshening near-surface ocean waters,~~113~~114 which may contribute to weaker which may contribute to weaker
ocean circulation.ocean circulation.
Dissolved Oxygen
Dissolved oxygen is the amount of oxygen that is present in water.Dissolved oxygen is the amount of oxygen that is present in water.~~114~~115 The amount of dissolved The amount of dissolved
oxygen is affected by seawater temperature, patterns of ocean circulation, ocean mixing (driven oxygen is affected by seawater temperature, patterns of ocean circulation, ocean mixing (driven
by wind energy and ocean stratification), aerobic biological activity (i.e., respiration), and by wind energy and ocean stratification), aerobic biological activity (i.e., respiration), and
distance from oxygen source (e.g., depth from the interface between the surface water and the distance from oxygen source (e.g., depth from the interface between the surface water and the
atmospheric). Continental runoff with increased nutrient loads (e.g., fertilizer) or pollution (e.g., atmospheric). Continental runoff with increased nutrient loads (e.g., fertilizer) or pollution (e.g.,
wastewater) can lead to excessive richness of nutrients in the water. This may stimulate marine wastewater) can lead to excessive richness of nutrients in the water. This may stimulate marine
algal blooms that lower the amount of dissolved oxygen.algal blooms that lower the amount of dissolved oxygen.~~115~~116 Dissolved oxygen concentrations can Dissolved oxygen concentrations can
be measured using Argo floats, unmanned wave gliders, and water quality gauges.be measured using Argo floats, unmanned wave gliders, and water quality gauges.
Because warm water holds less dissolved gas compared to cold water, the ocean is holding less Because warm water holds less dissolved gas compared to cold water, the ocean is holding less
dissolved oxygen as a result of global ocean warming.dissolved oxygen as a result of global ocean warming.~~116~~117 Many marine species have undergone Many marine species have undergone
shifts in geographic range and seasonal changes in response to oxygen loss, in addition to other shifts in geographic range and seasonal changes in response to oxygen loss, in addition to other
oceanographic changes, which may affect the aquaculture sector.oceanographic changes, which may affect the aquaculture sector.~~117~~

~~112 USGS, “Why Is the Ocean Salty?” at https://www.usgs.gov/special-topic/water-science-school/science/why-ocean-~~
~~salty?qt-science_center_objects=0.~~
~~113 “Summary for Policymakers,” in IPCC, AR6 Physical Science Basis, p. SPM-6.~~
~~114 EPA, “Indicators: Dissolved Oxygen,” at https://www.epa.gov/national-aquatic-resource-surveys/indicators-~~
~~dissolved-oxygen.~~
~~115 For more information on harmful algal blooms~~118 pH

The ocean's surface is in chemical equilibrium with Earth's atmosphere—as atmospheric CO₂ concentrations increase, surface ocean water absorbs more CO₂. When atmospheric CO2 dissolves into the ocean, it forms carbonic acid. Some of the carbonic acid dissociates in ocean waters, producing hydrogen ions. As the number of hydrogen ions increases, the pH of seawater decreases and the seawater becomes more acidic, a process known as ocean acidification.¹¹⁹ The NOAA Ocean Acidification Program uses two types of floating devices—moored (stationary) buoys and wave gliders—that measure the concentration of dissolved CO₂ every three hours.¹²⁰ Scientists use the data collected by these devices to study the rate of carbon uptake by the ocean.

More acidic waters can physiologically stress some marine invertebrate organisms (e.g., clams, snails, crabs) that use carbonate ions to create their shells, which result in a less robust carbonate shell and might make the organisms more susceptible to predation and death.¹²¹

Footnotes

Activities that may be considered part of the blue economy include living marine resources, coastal and marine construction, marine research and education, marine transportation and warehousing, marine professional and technical services, offshore minerals, coastal utilities, coastal and offshore tourism and recreation, nonrecreational ship and boat building, and national defense and public administration. For more information, see CRS In Focus IF12188, What Is the Blue Economy?, by Caitlin Keating-Bitonti and Eva Lipiec.

Intergovernmental Panel on Climate Change (IPCC), "Summary for Policymakers," in The Ocean and Cryosphere in a Changing Climate: A Special Report of the Intergovernmental Panel on Climate Change, eds. Hans-Otto Pörtner et al., 2019, p. 9. Hereinafter referred to as IPCC, Ocean and Cryosphere.

National Oceanic and Atmospheric Administration (NOAA), "Understanding Our Changing Climates," https://www.fisheries.noaa.gov/insight/understanding-our-changing-climate.

Marine geohazards include earthquakes, volcanic eruptions, landslides, and tsunamis.

European Organisation for the Exploitation of Meteorological Satellites, "Metop Series," https://www.eumetsat.int/our-satellites/metop-series.

6. A multibeam sonar sends out simultaneous sonar beams (sound waves) in a fan-shaped pattern to collect seafloor information surrounding the ship. For more information, see the Seafloor Bathymetry section in Appendix A. 7.

NOAA, "NOAA Line Offices," https://www.corporateservices.noaa.gov/public/lineoffices.html.

NOAA, "Our Mission," https://www.nesdis.noaa.gov/about/our-mission.

NOAA, "Currently Flying," https://www.nesdis.noaa.gov/current-satellite-missions/currently-flying.

10.

NOAA, "Fleet," https://www.omao.noaa.gov/about.

11. The Integrated Coastal and Ocean Observation System Act of 2009 (33 U.S.C. §§3601 et seq.) established the U.S. Integrated Ocean Observing System (IOOS). Prior to the passing of the 2009 act, no coordinated approach to coastal and ocean observing existed. NOAA, "IOOS by the Numbers," https://ioos.noaa.gov/about/ioos-by-the-numbers/. 12. NOAA, "Societal Benefits," https://ioos.noaa.gov/about/societal-benefits/. 13.

NOAA, "About NOAA Ocean Exploration," https://oceanexplorer.noaa.gov/about/welcome.html.

14.

While the mission equipment onboard Okeanos Explorer is operated by NOAA's Office of Ocean Exploration and Research, the ship is managed by NOAA's Office of Marine and Aviation Operations. NOAA, "About NOAA Ship Okeanos Explorer," https://oceanexplorer.noaa.gov/okeanos/about.html.

15.

NOAA, "Federal Funding Opportunity," https://oceanexplorer.noaa.gov/about/funding-opps/welcome.html.

16.

NOAA, "Data Collection and Management," https://oceanacidification.noaa.gov/WhatWeDo/Data.aspx. For more information on ocean acidification, see CRS Report R47300, Ocean Acidification: Frequently Asked Questions, by Caitlin Keating-Bitonti and Eva Lipiec.

17.

NOAA's Sustained Ocean Observations and Monitoring (SOOM) Program, Project Activity (PPA) is a funding line in NOAA's budget. GOMO is the NOAA program that receives the initial allocation of the SOOM PPA; but SOOM is not GOMO's sole funding source. GOMO may use SOOM funds to support other programs that contribute to the overall priorities set by GOMO. Email correspondence with NOAA, Congressional Affairs Specialist, Office of Legislative and Intergovernmental Affairs, December 13, 2021.

18.

NOAA, "Global Ocean Monitoring and Observing," https://globalocean.noaa.gov/About-Us.

19.

NOAA, "NOAA Updates Sea Surface Temperature Dataset," https://www.ncei.noaa.gov/news/noaa-updates-sea-surface-temperature-dataset.

20.

NOAA, "Argo Program Achieves Milestone with Two Million Ocean Measurements," https://research.noaa.gov/article/ArtMID/587/ArticleID/2398.

21.

National Aeronautics and Space Administration (NASA), "NASA Earth Science Division Mission," October 18, 2021, https://svs.gsfc.nasa.gov/30065.

22. NASA, "Aqua Earth-Observing Satellite Mission," https://aqua.nasa.gov/. 23. NASA, "Quick Facts," https://ocov2.jpl.nasa.gov/mission/quick-facts/. 24.

NASA, "Terra Instruments," https://terra.nasa.gov/about/terra-instruments.

25.

NASA, "Jason-3," https://www.jpl.nasa.gov/missions/jason-3.

26.

NASA, "Sentinel-6 Mission Overview," https://www.nasa.gov/sentinel-6/overview.

27. NASA, "Mission," https://gracefo.jpl.nasa.gov/mission/overview/. 28. Anna Heiney, "ICESat-2 Successfully Launched on Final Flight of Delta II Rocket," NASA ICESat-2 blog, September 15, 2018, https://blogs.nasa.gov/icesat2/. 29. NASA, "Landsat 8 Mission Details," https://landsat.gsfc.nasa.gov/satellites/landsat-8/landsat-8-mission-details/. For more information, see CRS Report R46560, Landsat 9 and the Future of the Sustainable Land Imaging Program, by Anna E. Normand. 30.

NASA, "NPP Mission Overview," https://www.nasa.gov/mission_pages/NPP/mission_overview/index.html. For more information on NOAA's polar-orbiting weather satellites, see CRS Report R44335, Minding the Data Gap: NOAA's Polar-Orbiting Weather Satellites and Strategies for Data Continuity, by Peter Folger.

31. NOAA, "Joint Polar Satellite System (JPSS) Program Office," https://www.jpss.noaa.gov/. 32.

For more background on the USGS, see CRS In Focus IF12097, The U.S. Geological Survey (USGS): Background and FY2023 Appropriations, by Anna E. Normand.

33.

U.S. Geological Survey (USGS), "Sea Floor Mapping Group," https://www.usgs.gov/centers/whcmsc/science/sea-floor-mapping-group.

34.

USGS, "Ocean Resources," https://www.usgs.gov/centers/whcmsc/science/ocean-resources; USGS, "Celebrate June as Oceans Month," June 2, 2016, https://www.usgs.gov/news/featured-story/celebrate-june-oceans-month.

35.

USGS, "Coastal and Marine Hazards and Resources Program," https://www.usgs.gov/natural-hazards/coastal-marine-hazards-and-resources/science/ocean-resources.

36.

USGS funding for these activities primarily comes from reimbursable partners (typically the Federal Emergency Management Agency, FEMA) as storm events occur. Email correspondence with USGS, Congressional Liaison, Congressional Liaison Office, on January 7, 2022.

37.

USGS, "Science," https://www.usgs.gov/programs/climate-research-and-development-program/science.

38.

USGS, "Paleoclimate Research," https://www.usgs.gov/programs/climate-research-and-development-program/science/paleoclimate-research.

39.

The Outer Continental Shelf Lands Act of 1953 (OCSLA, 43 U.S.C. §§1331-1356b) defines the outer continental shelf (OCS) as all federally controlled submerged lands, subsoil, and seabed. The OCS generally begins 3 nautical miles (international nautical mile = 6,076.1 feet) off the coastline and extends for at least 200 nautical miles to the edge of the exclusive economic zone, or farther if the continental shelf extends beyond 200 nautical miles. For more information, see CRS Report RL33404, Offshore Oil and Gas Development: Legal Framework, by Adam Vann.

40.

Bureau of Ocean Energy Management (BOEM), "Fact Sheet: Geological and Geophysical (G&G) Surveys," https://www.boem.gov/sites/default/files/about-boem/BOEM-Regions/Atlantic-Region/GandG-Overview.pdf.

41.

Ibid.

42.

For more information on the National Science Foundation (NSF), see CRS Report R46753, The National Science Foundation: An Overview, by Laurie A. Harris.

43.

NSF, Merit Review Process: Fiscal Year 2019 Digest, December 2020, pp. 7 and 20.

44.

NSF, "About the Division of Ocean Sciences (OCE)," https://www.nsf.gov/geo/oce/about.jsp.

45.

NSF, "FY 2022 NSF Budget Response to Congress—Geosciences," p. GEO-11, https://www.nsf.gov/about/budget/fy2022/pdf/49_fy2022.pdf.

46.

The U.S. Global Change Research Program (USGCRP) was mandated by Congress in the Global Change Research Act of 1990 (P.L. 101-606) to coordinate federal research and investments across 13 departments and agencies to advance understanding of the changing Earth system.

47.

NSF, National Science Foundation FY2023 Budget Response to Congress, pp. Climate-9 and GEO-1, https://www.nsf.gov/about/budget/fy2023/pdf/fy2023budget.pdf. Hereinafter referred to as "FY2023 NSF Budget Response."

48.

University-National Oceanographic Laboratory System (UNOLS), "UNOLS Charter," https://www.unols.org/sites/default/files/UNOLS_Charter_2019.pdf.

49.

Academic Research Fleet vessels support the needs of all federal oceanographic research stakeholders, particularly NSF, NOAA, and ONR. FY2023 NSF Budget Response, p. Research Infrastructure-54.

50.

The National Academies of Sciences, Engineering, and Medicine, Sea Change: 2015-2025 Decadal Survey of Ocean Sciences (Washington, DC: The National Academies Press, 2015), p. 3.

51.

FY2023 NSF Budget Response, p. Overview-12.

52. Jason Daley, "This 340-Million-Year-Old Ocean Crust Could Date Back to Pangaea," Smithsonian Magazine, August 17, 2016, https://www.smithsonianmag.com/smart-news/oldest-bit-seafloor-discovered-mediterranean-180960153/. 53.

UNOLS "UNOLS Designated Vessels," https://www.unols.org/ships-facilities/unols-vessels/unols-designated-vessels/unols-designated-vessels.

54.

Naval Meteorology and Oceanography Command, "Fleet Survey Team (FST)," https://www.cnmoc.usff.navy.mil/Our-Commands/Naval-Oceanographic-Office/Fleet-Survey-Team/.

55. For information on the effects of human-associated discharge on coastal ocean waters, see CRS Report R46921, , see CRS Report R46921, Marine Harmful Algal Blooms (HABs):
Background, Statutory Authorities, and Issues for Congress, by Eva Lipiec., by Eva Lipiec.
~~116 T.L. Frölicher et al., “Contrasting Upper and Deep Ocean Oxygen Responses to Protracted Global Warming,”~~
Global Biogeochemical Cycles, vol. 34 (August 2020), p. 1.
~~117 “Summary for Policymakers,” in IPCC, Ocean and Cryosphere, p. SPM-12.~~
~~Congressional Research Service~~

25

~~Federal Involvement in Ocean-Based Research and Development~~

pH
~~The ocean’s surface is in chemical equilibrium with Earth’s atmosphere—as atmospheric CO2~~
~~concentrations increase, surface ocean water absorbs more CO2. When atmospheric CO2 dissolves~~
~~into the ocean, it forms carbonic acid. Some of the carbonic acid dissociates in ocean waters,~~
~~producing hydrogen ions. As the number of hydrogen ions increases, the pH of seawater~~
~~decreases and the seawater becomes more acidic, a process known as ocean acidification.118 The~~
~~NOAA Ocean Acidification Program uses two types of floating devices—moored (stationary)~~
~~buoys and wave gliders—that measure the concentration of dissolved CO2 every three hours.119~~
~~Scientists use the data collected by these devices to study the rate of carbon uptake by the ocean.~~
~~More acidic waters can physiologically stress some marine invertebrate organisms (e.g., clams,~~
~~snails, crabs) that use carbonate ions to create their shells, which result in a less robust carbonate~~
~~shell and might make the organisms more susceptible to predation and death.120~~

~~Author Information~~

~~Caitlin Keating-Bitonti~~

~~Analyst in Natural Resources Policy~~

~~Disclaimer~~
~~This document was prepared by the Congressional Research Service (CRS). CRS serves as nonpartisan~~
~~shared staff to congressional committees and Members of Congress. It operates solely at the behest of and~~
~~under the direction of Congress. Information in a CRS Report should not be relied upon for purposes other~~
~~than public understanding of information that has been provided by CRS to Members of Congress in~~
~~connection with CRS’s institutional role. CRS Reports, as a work of the United States Government, are not~~
~~subject to copyright protection in the United States. Any CRS Report may be reproduced and distributed in~~
~~its entirety without permission from CRS. However, as a CRS Report may include copyrighted images or~~
~~material from a third party, you may need to obtain the permission of the copyright holder if you wish to~~
~~copy or otherwise use copyrighted material.~~

~~118~~ 56. "Summary for Policymakers," in IPCC, Ocean and Cryosphere, p. 11. NOAA, "Global Warming and Hurricanes," April 11, 2023, https://www.gfdl.noaa.gov/global-warming-and-hurricanes/. 57.

T. J. Ballinger et al., "Surface Air Temperature," in NOAA, 2022 Arctic Report Card, December 2020, p. 2.

58.

IPCC, "Summary for Policymakers," in Changing Climate 2021: The Physical Science Basis, eds. V. Masson-Delmotte et al., 2021, pp. SMP-29–SMP-30. Hereinafter referred to as IPCC, AR6 Physical Science Basis.

59.

Because water expands as it warms (thermal expansion), warming ocean water will cause sea level rise.

60.

"Summary for Policymakers," in IPCC, AR6 Physical Science Basis, p. SMP-14.

61.

Ibid, p. SMP-6.

62.

Ibid.

63. For more information on the effects of anthropogenic CO₂ emissions on seawater pH, see CRS Report R47300, Ocean Acidification: Frequently Asked Questions, by Caitlin Keating-Bitonti and Eva Lipiec. NOAA, "Ocean Acidification," https://www.noaa.gov/education/resource-collections/ocean-coasts/ocean-acidification; Environmental Protection Agency (EPA), "Understanding the Science of Ocean and Coastal Acidification," https://www.epa.gov/ocean-acidification/understanding-science-ocean-and-coastal-acidification. 64.

The global ocean absorbs CO₂ emissions from human activities (i.e., the combustion of fossil fuels), helping to offset the buildup of anthropogenic CO₂ in the atmosphere.

65.

The 117^th Congress provided funding to NOAA to advance ocean and climate research. P.L. 117-169, a budget reconciliation measure commonly referred to as the Inflation Reduction Act of 2022 (IRA), appropriated $150 million in FY2022 (available through FY2026) to NOAA, with the goal of accelerating advances and improvements in research of atmospheric and ocean processes that relate to climate and weather, among others. In addition, Section 40004 of the IRA appropriated $50 million in FY2022 (available through FY2026) to NOAA for climate research competitive grants relating to ocean and other processes and associated impacts to marine species and coastal habitat.

66.

For example, Dean Roemmich et al., "On the Future of Argo: A Global, Full-Depth, Multi-Disciplinary Array," Frontiers in Marine Science, vol. 6 (August 2019), p. 2.

67.

Successful prototype float deployments of Deep Argo floats took place in 2013-2015. These prototypes were able to reach approximately 6,000 meters below sea level. Testing of Biogeochemical Argo floats equipped with sensors for dissolved oxygen, nitrate, pH, chlorophyll fluorescence, and particulate backscatter began in 2012. Scripps Institution of Oceanography Argo Program Office, "Frequently Asked Questions," https://argo.ucsd.edu/faq/#who; NOAA Research News, "NOAA Invests in New Tools to Measure the Ocean," https://research.noaa.gov/article/ArtMID/587/ArticleID/2561.

68.

Scripps Institution of Oceanography Argo Program Office, U.S. Argo National Report to Argo Steering Team-22, March 2021, https://argo.ucsd.edu/wp-content/uploads/sites/361/2021/03/USA_national_report_AST22v1.pdf.

69.

H.Rept. 117-97 referenced by the explanatory statement accompanying the FY2022 Consolidated Appropriations Act (P.L. 117-103).

70.

NOAA, "Progress Report: Unmapped U.S. Waters," https://iocm.noaa.gov/documents/mapping-progress-report2023.pdf.

71.

Modern bathymetric data are data collected post 1960. NOAA, "U.S. Bathymetric Coverage and Gap Analysis," https://iocm.noaa.gov/seabed-2030-bathymetry.html.

72.

P.L. 111-11, Title XII, Part II, Subtitle B.

73.

Ocean Science and Technology Subcommittee of the Ocean Policy Committee, National Strategy for Mapping, Exploring, and Characterizing the United States Exclusive Economic Zone, June 9, 2020. Hereinafter referred to as NOMEC Strategy, 2020, pp. 1-20.

74.

Email correspondence with NOAA, Congressional Affairs Specialist, Office of Legislative and Intergovernmental Affairs, January 14, 2022.

75.

Ibid.

76.

NOMEC Strategy, 2020, pp. 17-19.

77.

For example, NOAA, "Notice of Matching Fund Opportunity for Ocean and Coastal Mapping and Request for Partnership Proposals," 87 Federal Register 35509, June 10, 2022.

78.

P.L. 117-263, Division J, Title CIII, Sec. 12206.

79.

Email correspondence with NOAA, Congressional Affairs Specialist, Office of Legislative and Intergovernmental Affairs, April 14, 2023.

80.

USGS, "Marine Geohazards," May 6, 2022, https://www.usgs.gov/media/slideshows/marine-geohazards.

81.

NOAA, "JetStream Max: Cascadia Subduction Zone," https://www.noaa.gov/jetstream/jetstream-max-cascadia-subduction-zone#.

82.

National Weather Service (NWS), "NOAA/NWS Tsunami Activities Grants – Allowable Grant Activities," https://nws.weather.gov/nthmp/grants/Allowable.pdf.

83.

For example, see FEMA, "Shoalwater Bay Tribe Builds Evacuation Tower to Provide Tsunami Safety for Community," June 30, 2021, https://www.fema.gov/blog/shoalwater-bay-tribe-builds-evacuation-tower-provide-tsunami-safety-community.

84.

NWS, "Detection, Warning, and Forecasting," https://www.weather.gov/jetstream/tsu_detect.

85.

Brian R.C. Kennedy et al., "The Unknown and the Unexplored: Insights into the Pacific Deep-Sea Following NOAA CAPSTONE Expeditions," in Frontiers in Marine Sciences, vol. 6 (August 2019), p. 2.

86.

NOAA's Office of Marine and Aviation Operations operates oceanographic research vessels (e.g., Okeanos Explorer) that help achieve the Administration's scientific missions. NOAA's Office of Oceanic and Atmospheric Research Deep-Sea, which houses the Office of Ocean Exploration and Research, owns the mission equipment onboard the Okeanos Explorer and coordinates the ship's exploration mission. NOAA, "About NOAA Ship Okeanos Explorer," https://oceanexplorer.noaa.gov/okeanos/about.html.

87.

USGS, "Global Marine Mineral Resources," https://www.usgs.gov/centers/pcmsc/science/global-marine-mineral-resources?qt-science_center_objects=0.

88.

For more information on the occurrence of seabed minerals, see CRS Report R47324, Seabed Mining in Areas Beyond National Jurisdiction: Issues for Congress, by Caitlin Keating-Bitonti.

89.

NOAA implements the Deep Seabed Hard Mineral Resources Act (P.L. 96-283; 30 U.S.C. §§1401-1473), enacted in 1980, which governs seabed mining activities in areas beyond national jurisdiction.

90.

The Global Marine Mineral Resources Project, based out of the USGS Pacific Coastal and Marine Science Center, "provide[s] stakeholders with the best available science regarding potential resources and environmental impacts associated with accessing [marine mineral deposits]." USGS, "Global Marine Mineral Resources," https://www.usgs.gov/centers/pcmsc/science/global-marine-mineral-resources?qt-science_center_objects=0.

91.

OCSLA authorizes the Department of the Interior (DOI) to manage the submerged lands of the OCS (43 U.S.C. §§1331-1356c). DOI delegated the mineral leasing authorities to BOEM. BOEM scientists use the results of environmental studies to characterize the effects of proposed mineral extraction from the OCS and design mitigation measure to minimize or avoid adverse effects. BOEM, "Research and Studies," https://www.boem.gov/marine-minerals/research-and-studies.

92.

In the 117^th Congress, H.R. 3764.

93. Sea surface temperatures (SSTs) are considered as depths up to 5 meters below the surface ocean. NOAA, "Argo Center," https://www.aoml.noaa.gov/phod/argo/. 94.

EPA, "Climate Change Indicators: Sea Surface Temperature," https://www.epa.gov/climate-indicators/climate-change-indicators-sea-surface-temperature.

95.

NASA, "Sea Surface Temperature & Water Vapor," https://earthobservatory.nasa.gov/global-maps/MYD28M/MYDAL2_M_SKY_WV.

96.

"Chapter 5. Changing Ocean, Marine Ecosystems, and Dependent Communities," in IPCC, Ocean and Cryosphere.

97.

Because water expands as it warms (thermal expansion), warming ocean water causes sea level rise.

98.

Initiated by the Department of Defense in the mid-1960s, the Defense Meteorological Satellite Program is composed of low, Earth-orbiting satellites that provide the military with environmental information. These satellites provide global coverage twice per day. Meteorologists interpret the data (e.g., cloud type, land and water temperatures, water currents) for U.S. military operations worldwide.

99. NASA, "GRACE, GRACE-FO Satellite Data Track Ice Loss at the Poles," March 18, 2020, https://climate.nasa.gov/news/2959/grace-grace-fo-satellite-data-track-ice-loss-at-the-poles/. 100. NASA, "Sea Level 101: What Determines the Level of the Sea?," June 3, 2020, https://climate.nasa.gov/ask-nasa-climate/2990/sea-level-101-what-determines-the-level-of-the-sea/. 101.

NOAA, "Taking a Measure of Sea Level Rise: Ocean Altimetry," https://earthobservatory.nasa.gov/images/ 147435/taking-a-measure-of-sea level-rise-ocean-altimetry.

102. Linda Herridge, "Sentinel-6 Michael Freilich Satellite in Earth Orbit, Mission Begins to Map Sea Levels," NASA Blogs, November 21, 2020, https://blogs.nasa.gov/sentinel-6/. 103. NASA, "Sea Level," https://gracefo.jpl.nasa.gov/science/sea-level/. 104.

Geostationary Operational Environmental Satellites (GOES) track the same position on Earth's surface as the planet rotates, thereby providing constant surveillance over the specified area. These satellites can provide information on weather conditions (e.g., tornados, floods, hurricanes). NASA, "GOES Satellite Network," https://www.nasa.gov/content/goes; and NOAA, "What Is a Tide Gauge?" https://oceanservice.noaa.gov/facts/tide-gauge.html. For more information, see CRS Report R44632, Sea-Level Rise and U.S. Coasts: Science and Policy Considerations, by Peter Folger and Nicole T. Carter.

105.

"Summary for Policymakers," in IPCC, AR6 Physical Science Basis, p. SPM-14.

106.

Ibid, p. SPM-33.

107.

NASA, "Chlorophyll Concentration (1 Month—Aqua/Modis)," https://neo.gsfc.nasa.gov/view.php?datasetId=MY1DMM_CHLORA.

108.

The Nippon Foundation-GEBCO Seabed 2030 Project, "Mapping Progress," https://seabed2030.org/mapping-progress.

109.

A single-beam sonar uses only one sonar beam aimed directly beneath the ship to collect bathymetric data.

110.

NOAA, "Sea Floor Mapping," https://oceanexplorer.noaa.gov/explorations/lewis_clark01/background/seafloormapping/seafloormapping.html.

111. USGS, "Satellite-Derived Bathymetry," https://www.usgs.gov/special-topics/coastal-national-elevation-database-%28coned%29-applications-project/science/satellite; NASA, "Landsat 8 Mission Details," https://landsat.gsfc.nasa.gov/satellites/landsat-8/landsat-8-mission-details/. For more information, see CRS Report R46560, Landsat 9 and the Future of the Sustainable Land Imaging Program, by Anna E. Normand. 112.

NASA, "Sounding the Seafloor with Light," https://earthobservatory.nasa.gov/images/148246/sounding-the-seafloor-with-light.

113.

USGS, "Why Is the Ocean Salty?" https://www.usgs.gov/special-topic/water-science-school/science/why-ocean-salty?qt-science_center_objects=0.

114.

"Summary for Policymakers," in IPCC, AR6 Physical Science Basis, p. SPM-6.

115.

EPA, "Indicators: Dissolved Oxygen," https://www.epa.gov/national-aquatic-resource-surveys/indicators-dissolved-oxygen.

116.

For more information on harmful algal blooms, see CRS Report R46921, Marine Harmful Algal Blooms (HABs): Background, Statutory Authorities, and Issues for Congress, by Eva Lipiec.

117.

T.L. Frölicher et al., "Contrasting Upper and Deep Ocean Oxygen Responses to Protracted Global Warming," Global Biogeochemical Cycles, vol. 34 (August 2020), p. 1.

118.

"Summary for Policymakers," in IPCC, Ocean and Cryosphere, p. SPM-12.

119. For more information on ocean acidification, see CRS Report R47300, For more information on ocean acidification, see CRS Report R47300, Ocean Acidification: Frequently Asked
Questions, by Caitlin Keating-Bitonti and Eva Lipiec., by Caitlin Keating-Bitonti and Eva Lipiec.
~~119 NOAA, “Monitoring,” at~~ 120. NOAA, "Monitoring," https://oceanacidification.noaa.gov/WhatWeDo/Monitoring.aspxhttps://oceanacidification.noaa.gov/WhatWeDo/Monitoring.aspx.
~~120~~. 121. Smithsonian, Smithsonian, “"Ocean Acidification,Ocean Acidification,~~” at~~ " https://ocean.si.edu/ocean-life/invertebrates/ocean-acidificationhttps://ocean.si.edu/ocean-life/invertebrates/ocean-acidification.
~~Congressional Research Service~~
~~R47021 · VERSION 8 · UPDATED~~
26
.

Federal Involvement in Ocean-Based Research and Development

Changes from May 1, 2023 to May 6, 2026

Contents

Figures

Tables

Appendixes

Summary

Introduction

Footnotes