Key biogeochemical factors affecting soil carbon storage in Posidonia meadows

Authors

Oscar Serrano, Edith Cowan UniversityFollow
Aurora M. Ricart, Universitat de Barcelona
Paul S. Lavery, Edith Cowan UniversityFollow
Miguel-Angel Mateo, Edith Cowan UniversityFollow
Ariane Arias-Ortiz, Institut de Ciencia i Tecnologia Ambientals (ICTA)-UAB
Pere Masque, Edith Cowan UniversityFollow
Mohammad Rozaimi, Universiti Kebangsaan Malaysia
Andy D. L. Steven, Commonwealth Scientific and Industrial Research Organization, Melbourne
Carlos Duarte, King Abdullah University of Science and Technology

Document Type

Journal Article

Publisher

Copernicus GmbH

Place of Publication

Germany

School

School of Science

RAS ID

22545

Funders

Edith Cowan University Faculty Research Grant Scheme, the ECU Early Career Research Grant
Scheme

CSIRO Flagship Marine & Coastal Carbon Bio-geochemical Cluster (Coastal Carbon Cluster) with

CSIRO Flagship Collaboration Fund and the Generalitat de Catalunya (MERS, 2014 SGR–1356)

Gledden Visiting Fellowship

Institute of Advanced Studies at the University of Western Australia

PhD grant of Obra Social “la Caixa”

Comments

Serrano, O., Ricart, A. M., Lavery, P. S., Mateo, M. A., Arias-Ortiz, A., Masque, P., ... Duarte, C. M. (2016). Key biogeochemical factors affecting soil carbon storage in Posidonia meadows. Biogeosciences, 13(15), 4581-4594.

https://doi.org/10.5194/bg-13-4581-2016

Abstract

Biotic and abiotic factors influence the accumulation of organic carbon (C_org) in seagrass ecosystems.We surveyed Posidonia sinuosa meadows growing in different water depths to assess the variability in the sources, stocks and accumulation rates of C_org. We show that over the last 500 years, P. sinuosa meadows closer to the upper limit of distribution (at 2-4m depth) accumulated 3- to 4-fold higher C_org stocks (averaging 6.3 kgC_org m^-2) at 3- to 4-fold higher rates (12.8 gC_org m^-2 yr^-1/ compared to meadows closer to the deep limits of distribution (at 6-8m depth; 1.8 kg C_org m^-2 and 3.6 g C_org m^-2 yr^-1/. In shallower meadows, C_org stocks were mostly derived from seagrass detritus (88% in average) compared to meadows closer to the deep limit of distribution (45% on average). In addition, soil accumulation rates and fine-grained sediment content (< 0.125 mm) in shallower meadows (2.0mmyr^-1 and 9 %, respectively) were approximately 2-fold higher than in deeper meadows (1.2mmyr^-1 and 5 %, respectively). The C_org stocks and accumulation rates accumulated over the last 500 years in bare sediments (0.6 kgC_org m^-2 and 1.2 g C_org m^-2 yr^-1/ were 3- to 11-fold lower than in P. sinuosa meadows, while fine-grained sediment content (1 %) and seagrass detritus contribution to the C_org pool (20 %) were 8- and 3-fold lower than in Posidonia meadows, respectively. The patterns found support the hypothesis that C_org storage in seagrass soils is influenced by interactions of biological (e.g., meadow productivity, cover and density), chemical (e.g., recalcitrance of C_org stocks) and physical (e.g., hydrodynamic energy and soil accumulation rates) factors within the meadow. We conclude that there is a need to improve global estimates of seagrass carbon storage accounting for biogeochemical factors driving variability within habitats.

DOI

10.5194/bg-13-4581-2016

Related Datasets

Serrano, O., Ricart, A. M., Lavery, P. S., Mateo, M., Arias-Ortiz, A., Masque, P., Steven, A., & Duarte, C. M. (2016). Key Biogeochemical Factors Affecting Soil Carbon Storage In Posidonia Meadows [dataset]. Edith Cowan University. http://dx.doi.org/10.4225/75/56b2fd48b92d5

Creative Commons License

This work is licensed under a Creative Commons Attribution 3.0 License.