Changes in land cover and vegetation carbon stocks in Andalusia, Southern Spain (1956-2007).

TitleChanges in land cover and vegetation carbon stocks in Andalusia, Southern Spain (1956-2007).
Publication TypeJournal Article
Year of Publication2011
AuthorsMuñoz-Rojas, M., De la Rosa D., Zavala L. M., JORDÁN A., & Anaya-Romero M.
JournalThe Science of the total environment
Volume409
Pagination2796-2806
Accession Number21531444
KeywordsAgriculture, Agriculture: statistics & numerical data, Carbon, Carbon Sequestration, Carbon: analysis, Carbon: metabolism, Cities, Cities: statistics & numerical data, climate change, Conservation of Natural Resources, CORINE Land Cover, Environment, Environmental Monitoring, Land use planning, Plant Development, Plants, Plants: chemistry, Plants: metabolism, Soil Pollutants, Soil Pollutants: analysis, Soil Pollutants: metabolism, Spain, Sustainable land management
Abstract

Land use has significantly changed during the recent decades at global and local scale, while the importance of ecosystems as sources/sinks of C has been highlighted, emphasizing the global impact of land use changes. Land use changes can increase C loss rates which are extremely difficult to reverse, in the short term, opposite to organic carbon (OC) which accumulates in soil in the long-term. The aim of this research is to improve and test methodologies to assess land cover change (LCC) dynamics and temporal and spatial variability in C stored in vegetation at a wide scale. LCCs between 1956 and 2007 in Andalusia (Southern Spain) were selected for this pilot study, assessed by comparison of spatial data from 1956 to 2007 and were reclassified following land cover flows (LCFs) reported in major areas in Europe. Carbon vegetation densities were related to land cover, and C vegetation stocks for 1956 and 2007 were calculated by multiplying C density for each land cover class with land cover areas. The study area has supported important changes during the studied period with significant consequences for vegetation C stocks, mainly due to afforestation and intensification of agriculture, resulting in a total vegetation C stock of 156.08Tg in 2007, with an increase of 17.24Tg since 1956. This study demonstrates the importance of LCC for C sequestration in vegetation from Mediterranean areas, highlighting possible directions for management policies in order to mitigate climate change as well as promoting land conservation. The methodologies and information generated in this project will be a useful basis for designing land management strategies helpful for decision makers.