Blue Carbon in Marine Protected Areas
Coastal and marine ecosystems play a significant role in the global carbon cycle, sequestering
and
storing carbon over long timescales. These "blue carbon" ecosystems help mitigate climate change
and
its impacts by facilitating the uptake of atmospheric carbon dioxide (CO2) into the ocean and
transporting carbon into sediments or deep waters, where it can remain indefinitely if
undisturbed.
Inclusion of these coastal and ocean processes as part of the solution to global climate change
is
essential to achieving global carbon mitigation and emission reduction goals; however, blue
carbon
is often overlooked in climate mitigation policies. Further, resource managers of the largest
network of U.S. marine protected areas (MPAs), the Office of National Marine Sanctuaries (ONMS),
have not incorporated assessments of blue carbon extent and functionality into their management
plans, policies, or decisions, which can result in unintentional carbon emissions and lost
opportunities to further protect and enhance carbon sequestration in MPAs.
Though blue carbon is a rapidly growing area of research, guidance for how to apply blue carbon
information in MPA management is lacking, and for some sequestration processes, completely
absent.
Led by Greater Farallones National Marine Sanctuary, with support from the Greater Farallones
Association, this series informs and guides MPA managers in the assessment, protection, and
management of blue carbon habitats and processes.
Blue Carbon in Marine Protected Areas: Part 1: serves as an informational,
guiding document to aid
ONMS and MPA managers worldwide in considering and including blue carbon processes within
management
decision-making. This includes a review of blue carbon potential in MPAs, the role MPAs play in
protecting and restoring blue carbon, potential future funding mechanisms to support blue carbon
management, guiding principles for advancing blue carbon inclusion in MPA management, and a path
forward for national marine sanctuaries. Guiding principles include:
- Ecosystem-based management is blue carbon management.
- With small initial investments, MPA managers can vastly increase their knowledge of blue
carbon at
their site.
- Blue carbon should be incorporated into marine spatial planning and considered in MPA
designation
and management.
- Managers should understand how to leverage blue carbon to finance MPAs.
- Certain management actions produce greater sequestration gains.
- Blue carbon management is not just coastal.
- Climate policies must include blue carbon.
Download Part 1
Blue Carbon in Marine Protected Areas: Part 2 is a case study assessment of
select blue carbon
habitats (eelgrass and saltmarsh-associated sediments) and processes (kelp export and whale
falls)
for Greater Farallones National Marine Sanctuary, and serves as a model for other sites in the
National Marine Sanctuary System. The habitats and processes assessed in the report together
accumulate 4,950 megagrams of carbon each year.
Download Part 2
Blue Carbon in Marine Protected Areas: Part 3 demonstrates the carbon storage
value of offshore
marine protected areas and identifies seafloor carbon “hotspots” based on a novel relationship
between sediment grain size and organic carbon content. This report provides an estimate of
carbon
storage in the sanctuaries’ surficial sediments, and discusses various sources of disturbance to
the
seabed and the importance of seabed protection.
Download Part 3
This report series serves as a preliminary step in ensuring that national marine sanctuaries
protect
and enhance the critical climate mitigation services of its coastal and ocean resources.
Key Words
carbon, carbon storage, carbon sequestration, carbon export, marine protected area, climate
change, mitigation, seagrass, salt marsh, mangrove, phytoplankton, kelp, fish, whale, seafloor,
substrate