Abstract
Morocco, like the rest of the world, is experiencing a climate change that threatens a number of wetlands. Marine ecosystems contribute to the regulation of the Earth’s climate, but their degradation releases large quantities of greenhouse gases (GHGs) such as carbon dioxide (CO2) into the atmosphere. This paper aimed to map and model changes in carbon storage and sequestration for coastal habitats using the INVEST model, using the Sidi Moussa-Oualidia lagoon complex as a case study. To achieve this objective, several data were used, namely, land use and land cover maps between 2003 and 2020, as well as data on the amount of carbon stored in the three basins; biomass, sediment carbon (soil) and dead carbon (litter), and the annual rate of carbon accumulation in biomass and sediment. The results obtained in this work allowed us to compare the two former and current carbon stock and net sequestration scenarios and to evaluate the social cost of carbon in the study area. This study can facilitate the development of a coastal rehabilitation strategy to take advantage of the benefits of these wetlands and, at the same time, to conserve the ecosystem services provided by these environments, including the CBCS.
Highlights
The ecosystem service of carbon sequestration and storage, linked to the provision of an equitable climate, is research subject in full progress
The main drivers of this decline are urban and industrial development, agriculture, aquaculture, tourism, coastal erosion and sea level rise. This ecosystem service in coastal systems is of social and economic importance, it is poorly represented in events and decisions related to global climate change
This study examined how the quantity and value of carbon sequestration service in coastal habitats is changing over time
Summary
The ecosystem service of carbon sequestration and storage, linked to the provision of an equitable climate, is research subject in full progress In this context, the carbon storage potential of coastal habitats plays an important role in regulating local and global climate [1,2]. The main drivers of this decline are urban and industrial development, agriculture, aquaculture, tourism, coastal erosion and sea level rise This ecosystem service in coastal systems is of social and economic importance, it is poorly represented in events and decisions related to global climate change. Studies in this direction remain isolated and limited in some parts of the world. The objective of this study was to assess the monetary value of the coastal blue carbon sequestration service provided by coastal ecosystems by analysing changes in carbon storage and based on changes in LULC over the period between 2003 and 2020
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