Please use this identifier to cite or link to this item: https://apo.ansto.gov.au/dspace/handle/10238/10795
Title: Geochemical analyses reveal the importance of environmental history for blue carbon sequestration
Authors: Kelleway, JJ
Saintilan, N
Macreadie, PI
Baldock, JA
Heijnis, H
Zawadzki, A
Gadd, PS
Jacobsen, GE
Ralph, PJ
Keywords: Carbon
Salinity
Marshes
Mangroves
Wetlands
Environmental impacts
Issue Date: 7-Jul-2017
Publisher: American Geophysical Union (AGU)
Citation: Kelleway, J. J., Saintilan, N., Macreadie, P. I., Baldock, J. A., Heijnis, H., Zawadzki, A., Gadd, P., Jacobsen, G. & Ralph, P. J. (2017). Geochemical analyses reveal the importance of environmental history for blue carbon sequestration. Journal of Geophysical Research: Biogeosciences, 122(7), 1789-1805. doi:10.1002/2017JG003775
Abstract: Coastal habitats including saltmarshes and mangrove forests can accumulate and store significant blue carbon stocks, which may persist for millennia. Despite this implied stability, the distribution and structure of intertidal-supratidal wetlands are known to respond to changes imposed by geomorphic evolution, climatic, sea level, and anthropogenic influences. In this study, we reconstruct environmental histories and biogeochemical conditions in four wetlands of similar contemporary vegetation in SE Australia. The objective is to assess the importance of historic factors to contemporary organic carbon (C) stocks and accumulation rates. Results from the four cores—two collected from marine-influenced saltmarshes (Wapengo marine site (WAP-M) and Port Stephens marine site (POR-M)) and two from fluvial influenced saltmarshes (Wapengo fluvial site (WAP-F) and Port Stephens fluvial site (POR-F))—highlight different environmental histories and preservation conditions. High C stocks are associated with the presence of a mangrove phase below the contemporary saltmarsh sediments in the POR-M and POR-F cores. 13C nuclear magnetic resonance analyses show this historic mangrove root C to be remarkably stable in its molecular composition despite its age, consistent with its position in deep sediments. WAP-M and WAP-F cores did not contain mangrove root C; however, significant preservation of char C (up to 46% of C in some depths) in WAP-F reveals the importance of historic catchment processes to this site. Together, these results highlight the importance of integrating historic ecosystem and catchment factors into attempts to upscale C accounting to broader spatial scales. ©2017 American Geophysical Union - Open Access
URI: https://doi.org/10.1002/2017JG003775
https://apo.ansto.gov.au/dspace/handle/10238/10795
ISSN: 2169-8961
Appears in Collections:Journal Articles

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