Effect of cactus pear cultivation after Mediterranean maquis on soil carbon stock, 未¹³C spatial distribution and root turnover

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• 作者：Agata Novara^a ; ^{agatanovara@libero.it" class="auth_mail} ; ^{agata.novara@unipa.it" class="auth_mail} ; Paulo Pereira^b ; Antonino Santoro^a ; Yakov Kuzyakov^c ; ^d ; Tommaso La Mantia^a
• 关键词：未13C natural abundance ; Soil organic matter ; Spatial and depth distribution ; Root turnover ; Land use change ; Carbon sequestration
• 刊名：Catena
• 出版年：July, 2014
• 年：2014
• 卷：118
• 期：Complete
• 页码：84-90
• 全文大小：1122 K

文摘

Mediterranean ecosystems are characterized by nearly complete replacement of natural vegetation by intensive croplands and orchards leading to strong soil degradation. Organic carbon is usually accumulated in soils under maquis leading to partial regeneration of fertility for future agricultural use. The aim of this work was to investigate the effect of land use change from maquis to agriculture on soil organic carbon (SOC) stock and its spatial distribution in a Mediterranean system. Three Mediterranean land use systems (seminatural vegetation, cactus pear crop and olive grove) were selected in Sicily and analysed for soil C stocks and their 未¹³C. Total SOC and 未¹³C were measured up to 75 cm soil depth within and between the rows of cactus pear and olive grove and along a similar transect in maquis, in order to evaluate the distribution of new and old C derived from roots. The land use change from Mediterranean maquis (C₃ plant) to cactus pear (CAM plant) lead to a SOC decrease of 65% after 28 years of cultivation, and a further decrease for 14% after 7 years after the change from cactus pear to olive grove (C₃ plant). Considering these SOC losses as well as the periods after the land use changes we calculated the mean residence time (MRT) of soil organic matter. The MRT of C under Mediterranean maquis was about 142 years, but was just 10 years under cactus pear. Root biomass of cactus pear was used for a new approach to estimate root turnover. The root turnover rate of cactus decreased along the soil profile from 7.1% per year in 0-15 cm to 3.7% in 60-75 cm soil depth. Along the transect, the average of root turnover values was highest in the middle of the intra-row. Root turnover and C input were correlated with SOC stocks to evaluate C sequestration potential of soils depending on land use and managements. We conclude that the SOC under maquis is higher and has longer residence time compared to permanent agricultural crops like cactus pear and olives.