Sizing the carbon sink associated with Posidonia oceanica seagrass meadows using very high-resolution seismic reflection imaging.
Monnier, B., Pergent, G., Mateo, M.-Á., Clabaut, P., & Pergent-Martini, C. (2020). Seismic interval velocity in the matte of Posidonia oceanica meadows: towards a non-destructive approach for large-scale assessment of blue carbon stock. Marine Environmental Research, submitted.
Muddy waters: unintentional consequences of blue carbon research obscure our understanding of organic carbon dynamics in seagrass ecosystems.
Frontiers in Marine Science, 4
Sci. Rep. 6, 23193
Millenary changes in the insular Spanish National Parks: perturbations, resilience and trends after the seagrass archives”, 2014-2018 Throughout the world, increasing human population densities along the coast are resulting in high disturbances and impacts to the coastal environment. Paleo-reconstructions can provide valuable insights in to these impacts and on the responses of the respective ecosystems. PALEOARK aims to use paleo-archives as tools for the reconstruction of the dynamics of coastal and terrestrial ecosystems in the Spanish insular National Parks, to highlight interactions with natural and anthropogenic perturbations as well as to assess and price the carbon stocks and fluxes associated to the seagrass sediments. This will help to differentiate between human and natural derived impacts of perturbation in order to predict the evolution of invasive species and quantify the effects of CO2 rise in coastal and terrestrial ecosystems. The objectives will be achieved by the participation of an international consortium of 25 researchers that will study geological, chemical, micro-paleontological, molecular, genetic, palinological, and isotopic proxies, together with archaeological and historical information available about the two Spanish Insular National Parks.
Start date: 01/01/2014
End date: 31/12/2017
Global and climate change > Carbon stocks