Blue Carbon Stocks Along the Pacific Coast of North America Are Mainly Driven by Local Rather Than Regional Factors

Christopher N. Janousek; Johannes R. Krause; Judith Z. Drexler; Kevin J. Buffington; Katrina L. Poppe; Erin Peck; Maria Fernanda Adame; Elizabeth B. Watson; James Holmquist; Scott D. Bridgham; Scott F. Jones; Melissa Ward; Cheryl A. Brown; Lisa Beers; Matthew T. Costa; Heida L. Diefenderfer; Amy B. Borde; Lindsey Sheehan; John Rybczyk; Carolyn Prentice; Andrew B. Gray; Alejandro Hinojosa-Corona; Ana Carolina Ruiz-Fernández; Joan Albert Sanchez-Cabeza; Karen E. Kohfeld; Paula Ezcurra; Jonathan Ochoa-Gómez; Karen M. Thorne; Marlow G. Pellatt; Aurora M. Ricart; Amanda M. Nahlik; Laura S. Brophy; Richard F. Ambrose; Mira Lutz; Craig Cornu; Stephen Crooks; Lisamarie Windham-Myers; Margot Hessing-Lewis; Fredrick T. Short; Stephen Chastain; Trevor Williams; Tristan Douglas; Elizabeth Fard; Lauren Brown; Michelle Goman

doi:10.1029/2024GB008239

Blue Carbon Stocks Along the Pacific Coast of North America Are Mainly Driven by Local Rather Than Regional Factors

Christopher N. Janousek, Johannes R. Krause, Judith Z. Drexler, Kevin J. Buffington, Katrina L. Poppe, Erin Peck, Maria Fernanda Adame, Elizabeth B. Watson, James Holmquist, Scott D. Bridgham, Scott F. Jones, Melissa Ward, Cheryl A. Brown, Lisa Beers, Matthew T. Costa, Heida L. Diefenderfer, Amy B. Borde, Lindsey Sheehan, John Rybczyk, Carolyn PrenticeAndrew B. Gray, Alejandro Hinojosa-Corona, Ana Carolina Ruiz-Fernández, Joan Albert Sanchez-Cabeza, Karen E. Kohfeld, Paula Ezcurra, Jonathan Ochoa-Gómez, Karen M. Thorne, Marlow G. Pellatt, Aurora M. Ricart, Amanda M. Nahlik, Laura S. Brophy, Richard F. Ambrose, Mira Lutz, Craig Cornu, Stephen Crooks, Lisamarie Windham-Myers, Margot Hessing-Lewis, Fredrick T. Short, Stephen Chastain, Trevor Williams, Tristan Douglas, Elizabeth Fard, Lauren Brown, Michelle Goman

Research output: Contribution to journal › Article › peer-review

Abstract

Coastal wetlands, including seagrass meadows, emergent marshes, mangroves, and temperate tidal swamps, can efficiently sequester and store large quantities of sediment organic carbon (SOC). However, SOC stocks may vary by ecosystem type and along environmental or climate gradients at different scales. Quantifying such variability is needed to improve blue carbon accounting, conservation effectiveness, and restoration planning. We analyzed SOC stocks in 1,284 sediment cores along >6,500 km of the Pacific coast of North America that included large environmental gradients and multiple ecosystem types. Tidal wetlands with woody vegetation (mangroves and swamps) had the highest mean stocks to 1 m depth (357 and 355 Mg ha⁻¹, respectively), 45% higher than marshes (245 Mg ha⁻¹), and more than 500% higher than seagrass (68 Mg ha⁻¹). Unvegetated tideflats, though not often considered a blue carbon ecosystem, had noteworthy stocks (148 Mg ha⁻¹). Stocks increased with tidal elevation and with fine (<63 μm) sediment content in several ecosystems. Stocks also varied by dominant plant species within individual ecosystem types. At larger scales, marsh stocks were lowest in the Sonoran Desert region of Mexico, and swamp stocks differed among climate zones; otherwise stocks showed little correlation with ecoregion or latitude. More variability in SOC occurred among ecosystem types, and at smaller spatial scales (such as individual estuaries), than across regional climate gradients. These patterns can inform coastal conservation and restoration priorities across scales where preserving stored carbon and enhancing sequestration helps avert greenhouse gas emissions and maintains other vital ecosystem services.

Original language	English
Article number	e2024GB008239
Journal	Global Biogeochemical Cycles
Volume	39
Issue number	3
DOIs	https://doi.org/10.1029/2024GB008239
State	Published - Mar 2025

ASJC Scopus Subject Areas

Global and Planetary Change
Environmental Chemistry
General Environmental Science
Atmospheric Science

Keywords

emergent marsh
mangrove
seagrass
sediment organic carbon
tidal swamp
tideflat

Access to Document

10.1029/2024GB008239

Cite this

Janousek, C. N., Krause, J. R., Drexler, J. Z., Buffington, K. J., Poppe, K. L., Peck, E., Adame, M. F., Watson, E. B., Holmquist, J., Bridgham, S. D., Jones, S. F., Ward, M., Brown, C. A., Beers, L., Costa, M. T., Diefenderfer, H. L., Borde, A. B., Sheehan, L., Rybczyk, J., ... Goman, M. (2025). Blue Carbon Stocks Along the Pacific Coast of North America Are Mainly Driven by Local Rather Than Regional Factors. Global Biogeochemical Cycles, 39(3), Article e2024GB008239. https://doi.org/10.1029/2024GB008239

Janousek, CN, Krause, JR, Drexler, JZ, Buffington, KJ, Poppe, KL, Peck, E, Adame, MF, Watson, EB, Holmquist, J, Bridgham, SD, Jones, SF, Ward, M, Brown, CA, Beers, L, Costa, MT, Diefenderfer, HL, Borde, AB, Sheehan, L, Rybczyk, J, Prentice, C, Gray, AB, Hinojosa-Corona, A, Ruiz-Fernández, AC, Sanchez-Cabeza, JA, Kohfeld, KE, Ezcurra, P, Ochoa-Gómez, J, Thorne, KM, Pellatt, MG, Ricart, AM, Nahlik, AM, Brophy, LS, Ambrose, RF, Lutz, M, Cornu, C, Crooks, S, Windham-Myers, L, Hessing-Lewis, M, Short, FT, Chastain, S, Williams, T, Douglas, T, Fard, E, Brown, L & Goman, M 2025, 'Blue Carbon Stocks Along the Pacific Coast of North America Are Mainly Driven by Local Rather Than Regional Factors', Global Biogeochemical Cycles, vol. 39, no. 3, e2024GB008239. https://doi.org/10.1029/2024GB008239

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title = "Blue Carbon Stocks Along the Pacific Coast of North America Are Mainly Driven by Local Rather Than Regional Factors",

abstract = "Coastal wetlands, including seagrass meadows, emergent marshes, mangroves, and temperate tidal swamps, can efficiently sequester and store large quantities of sediment organic carbon (SOC). However, SOC stocks may vary by ecosystem type and along environmental or climate gradients at different scales. Quantifying such variability is needed to improve blue carbon accounting, conservation effectiveness, and restoration planning. We analyzed SOC stocks in 1,284 sediment cores along >6,500 km of the Pacific coast of North America that included large environmental gradients and multiple ecosystem types. Tidal wetlands with woody vegetation (mangroves and swamps) had the highest mean stocks to 1 m depth (357 and 355 Mg ha−1, respectively), 45% higher than marshes (245 Mg ha−1), and more than 500% higher than seagrass (68 Mg ha−1). Unvegetated tideflats, though not often considered a blue carbon ecosystem, had noteworthy stocks (148 Mg ha−1). Stocks increased with tidal elevation and with fine (<63 μm) sediment content in several ecosystems. Stocks also varied by dominant plant species within individual ecosystem types. At larger scales, marsh stocks were lowest in the Sonoran Desert region of Mexico, and swamp stocks differed among climate zones; otherwise stocks showed little correlation with ecoregion or latitude. More variability in SOC occurred among ecosystem types, and at smaller spatial scales (such as individual estuaries), than across regional climate gradients. These patterns can inform coastal conservation and restoration priorities across scales where preserving stored carbon and enhancing sequestration helps avert greenhouse gas emissions and maintains other vital ecosystem services.",

keywords = "emergent marsh, mangrove, seagrass, sediment organic carbon, tidal swamp, tideflat",

author = "Janousek, {Christopher N.} and Krause, {Johannes R.} and Drexler, {Judith Z.} and Buffington, {Kevin J.} and Poppe, {Katrina L.} and Erin Peck and Adame, {Maria Fernanda} and Watson, {Elizabeth B.} and James Holmquist and Bridgham, {Scott D.} and Jones, {Scott F.} and Melissa Ward and Brown, {Cheryl A.} and Lisa Beers and Costa, {Matthew T.} and Diefenderfer, {Heida L.} and Borde, {Amy B.} and Lindsey Sheehan and John Rybczyk and Carolyn Prentice and Gray, {Andrew B.} and Alejandro Hinojosa-Corona and Ruiz-Fern{\'a}ndez, {Ana Carolina} and Sanchez-Cabeza, {Joan Albert} and Kohfeld, {Karen E.} and Paula Ezcurra and Jonathan Ochoa-G{\'o}mez and Thorne, {Karen M.} and Pellatt, {Marlow G.} and Ricart, {Aurora M.} and Nahlik, {Amanda M.} and Brophy, {Laura S.} and Ambrose, {Richard F.} and Mira Lutz and Craig Cornu and Stephen Crooks and Lisamarie Windham-Myers and Margot Hessing-Lewis and Short, {Fredrick T.} and Stephen Chastain and Trevor Williams and Tristan Douglas and Elizabeth Fard and Lauren Brown and Michelle Goman",

note = "Publisher Copyright: {\textcopyright} 2025. His Majesty the King in Right of Canada. Battelle Memorial Institute. Smithsonian Institution and The Author(s). Reproduced with the permission of the Minister of Environment Canada and Climate Change. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.",

year = "2025",

month = mar,

doi = "10.1029/2024GB008239",

language = "English",

volume = "39",

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T1 - Blue Carbon Stocks Along the Pacific Coast of North America Are Mainly Driven by Local Rather Than Regional Factors

AU - Janousek, Christopher N.

AU - Krause, Johannes R.

AU - Drexler, Judith Z.

AU - Buffington, Kevin J.

AU - Poppe, Katrina L.

AU - Peck, Erin

AU - Adame, Maria Fernanda

AU - Watson, Elizabeth B.

AU - Holmquist, James

AU - Bridgham, Scott D.

AU - Jones, Scott F.

AU - Ward, Melissa

AU - Brown, Cheryl A.

AU - Beers, Lisa

AU - Costa, Matthew T.

AU - Diefenderfer, Heida L.

AU - Borde, Amy B.

AU - Sheehan, Lindsey

AU - Rybczyk, John

AU - Prentice, Carolyn

AU - Gray, Andrew B.

AU - Hinojosa-Corona, Alejandro

AU - Ruiz-Fernández, Ana Carolina

AU - Sanchez-Cabeza, Joan Albert

AU - Kohfeld, Karen E.

AU - Ezcurra, Paula

AU - Ochoa-Gómez, Jonathan

AU - Thorne, Karen M.

AU - Pellatt, Marlow G.

AU - Ricart, Aurora M.

AU - Nahlik, Amanda M.

AU - Brophy, Laura S.

AU - Ambrose, Richard F.

AU - Lutz, Mira

AU - Cornu, Craig

AU - Crooks, Stephen

AU - Windham-Myers, Lisamarie

AU - Hessing-Lewis, Margot

AU - Short, Fredrick T.

AU - Chastain, Stephen

AU - Williams, Trevor

AU - Douglas, Tristan

AU - Fard, Elizabeth

AU - Brown, Lauren

AU - Goman, Michelle

N1 - Publisher Copyright: © 2025. His Majesty the King in Right of Canada. Battelle Memorial Institute. Smithsonian Institution and The Author(s). Reproduced with the permission of the Minister of Environment Canada and Climate Change. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.

PY - 2025/3

Y1 - 2025/3

N2 - Coastal wetlands, including seagrass meadows, emergent marshes, mangroves, and temperate tidal swamps, can efficiently sequester and store large quantities of sediment organic carbon (SOC). However, SOC stocks may vary by ecosystem type and along environmental or climate gradients at different scales. Quantifying such variability is needed to improve blue carbon accounting, conservation effectiveness, and restoration planning. We analyzed SOC stocks in 1,284 sediment cores along >6,500 km of the Pacific coast of North America that included large environmental gradients and multiple ecosystem types. Tidal wetlands with woody vegetation (mangroves and swamps) had the highest mean stocks to 1 m depth (357 and 355 Mg ha−1, respectively), 45% higher than marshes (245 Mg ha−1), and more than 500% higher than seagrass (68 Mg ha−1). Unvegetated tideflats, though not often considered a blue carbon ecosystem, had noteworthy stocks (148 Mg ha−1). Stocks increased with tidal elevation and with fine (<63 μm) sediment content in several ecosystems. Stocks also varied by dominant plant species within individual ecosystem types. At larger scales, marsh stocks were lowest in the Sonoran Desert region of Mexico, and swamp stocks differed among climate zones; otherwise stocks showed little correlation with ecoregion or latitude. More variability in SOC occurred among ecosystem types, and at smaller spatial scales (such as individual estuaries), than across regional climate gradients. These patterns can inform coastal conservation and restoration priorities across scales where preserving stored carbon and enhancing sequestration helps avert greenhouse gas emissions and maintains other vital ecosystem services.

AB - Coastal wetlands, including seagrass meadows, emergent marshes, mangroves, and temperate tidal swamps, can efficiently sequester and store large quantities of sediment organic carbon (SOC). However, SOC stocks may vary by ecosystem type and along environmental or climate gradients at different scales. Quantifying such variability is needed to improve blue carbon accounting, conservation effectiveness, and restoration planning. We analyzed SOC stocks in 1,284 sediment cores along >6,500 km of the Pacific coast of North America that included large environmental gradients and multiple ecosystem types. Tidal wetlands with woody vegetation (mangroves and swamps) had the highest mean stocks to 1 m depth (357 and 355 Mg ha−1, respectively), 45% higher than marshes (245 Mg ha−1), and more than 500% higher than seagrass (68 Mg ha−1). Unvegetated tideflats, though not often considered a blue carbon ecosystem, had noteworthy stocks (148 Mg ha−1). Stocks increased with tidal elevation and with fine (<63 μm) sediment content in several ecosystems. Stocks also varied by dominant plant species within individual ecosystem types. At larger scales, marsh stocks were lowest in the Sonoran Desert region of Mexico, and swamp stocks differed among climate zones; otherwise stocks showed little correlation with ecoregion or latitude. More variability in SOC occurred among ecosystem types, and at smaller spatial scales (such as individual estuaries), than across regional climate gradients. These patterns can inform coastal conservation and restoration priorities across scales where preserving stored carbon and enhancing sequestration helps avert greenhouse gas emissions and maintains other vital ecosystem services.

KW - emergent marsh

KW - mangrove

KW - seagrass

KW - sediment organic carbon

KW - tidal swamp

KW - tideflat

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Blue Carbon Stocks Along the Pacific Coast of North America Are Mainly Driven by Local Rather Than Regional Factors

Abstract

ASJC Scopus Subject Areas

Keywords

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