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Si us plau utilitzeu sempre aquest identificador per citar o enllaçar aquest document: https://hdl.handle.net/2445/224435
Spatial and temporal variability in blue carbon accumulation in the largest salt marsh in British Columbia, Canada
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Preserving blue carbon ecosystems, such as salt marshes, for climate change mitigation requires quantifying their carbon (C) dynamics. Boundary Bay (BB) marsh is a 222-ha salt marsh in southern British Columbia, Canada, where construction began in 2023 to enhance the marsh as a natural defense against coastal flooding. This study provides a baseline understanding of C storage and sequestration in Boundary Bay marsh prior to foreshore enhancement. We collected 18 sediment cores and vegetation surveys across the middle (BBM), eastern (BBE), and Mud Bay (MB) areas of the marsh, along with 128 depth profiles (i.e., field measurements of marsh thickness to refusal) from BBM. We combined C measurements with 210Pb chronologies, in addition to existing data from western Boundary Bay (BBW), to estimate C stocks (g C m-2) and accumulation rates (g C m-2 yr-1) for the entire marsh. Total C stocks averaged 71 ± 37 Mg C ha-1 for high marsh and 41 ± 36 Mg C ha-1 for low marsh, with higher values in western Boundary Bay (BBW, BBM) compared to the east (BBE, MB). Total C storage (Mg C) at Boundary Bay was 17,360 ± 4,960 Mg C, with the western marsh (BBW, BBM) comprising 84% of the total. The C accumulation rates (CAR) for Boundary Bay marsh averaged 80 ± 45 g C m-2 yr-1, comparable to regional averages on the Pacific coast of North America. However, large spatial variability exists, with significantly lower average CARs in the east (35 ± 11 g C m-2 yr-1). Historical aerial photographs indicate that the eastern marsh area (BBE, MB) decreased by ~35% while BBW expanded by ~20% since 1930. These contrasting trends suggest dynamism in marsh development, likely driven by environmental factors and human influence. This work highlights the high spatial and temporal dynamics of blue C ecosystems, especially in urban settings, and how decadal changes induced by human activities could influence their short-term (years to decades) C storage capacity, with potential consequences for long-term (centuries to millennial) C sequestration.
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KOHFELD, Karen e., BASNAYAKE, Hasini, PELLATT, Marlow g., OLID GARCIA, Carolina. Spatial and temporal variability in blue carbon accumulation in the largest salt marsh in British Columbia, Canada. _Frontiers In Marine Science_. 2025. Vol. 12. [consulta: 24 de gener de 2026]. ISSN: 2296-7745. [Disponible a: https://hdl.handle.net/2445/224435]