Modelling biogeochemical processes in sediments from the north-western Adriatic Sea: response to enhanced particulate organic carbon fluxes

Brigolin, Daniele; Bombled, Bruno; Colla, Silvia; Vizzini, Salvatrice; Pastres, Roberto; Pranovi, Fabio

doi:10.5194/bg-15-1347-2018

Cited by 4 publications

(1 citation statement)

References 57 publications

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“…grain size, silt or sand), for example, greatly influences biogeochemical processes (Martinez‐Garcia et al 2015). Recently, Brigolin et al (2017) proposed a biogeochemical model to quantify benthic recycling of organic matter under contrasted forcing linked to mussel farms (i.e. POC deposition fluxes).…”

Section: Predicting the Impacts Of Bivalve Aquaculture On The Benthicmentioning

confidence: 99%

Biodiversity–Ecosystem Functioning (BEF) approach to further understanding aquaculture–environment interactions with application to bivalve culture and benthic ecosystems

Lacoste

McKindsey

Archambault

2020

Reviews in Aquaculture

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Coastal benthic ecosystems may be impacted by numerous human activities, including aquaculture, which continues to expand rapidly. Indeed, today aquaculture worldwide provides more biomass for human consumption than do wild fisheries. This rapid development raises questions about the interactions the practice has with the surrounding environment. In order to design strategies of sustainable ecosystem exploitation and marine spatial planning, a better understanding of coastal ecosystem functioning is needed so that tools to quantify impacts of human activities, including aquaculture, may be developed. To achieve this goal, some possible directions proposed are integrated studies leading to new concepts, model development based on these concepts and comparisons of various ecosystems on a global scale. This review draws on existing literature to (i) briefly summarize the major ecological interactions between off‐bottom shellfish aquaculture and the environment, (ii) introduce research on the influence of benthic diversity on ecosystem functioning (BEF relationships) and (iii) propose a holistic approach to conduct aquaculture–environment studies using a BEF approach, highlighting the need for integrated studies that could offer insights and perspectives to guide future research efforts and improve the environmental management of aquaculture.

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Section: Predicting the Impacts Of Bivalve Aquaculture On The Benthicmentioning

confidence: 99%