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sup 13^C abundance shows effective soil carbon sequestration in Miscanthus and giant reed compared to arable crops under Mediterranean climate
Many studies on soil organic carbon (SOC) sequestration in perennial biomass crops are available for Atlantic and continental environments of North Central Europe, while there is insufficient information for Southern Europe. Therefore, we assessed SOC turnover under Mediterranean climate, after a 9-...
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| Published in: | Biology and fertility of soils 2014-10, Vol.50 (7), p.1121 |
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| container_title | Biology and fertility of soils |
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| creator | Cattaneo, F Barbanti, L Gioacchini, P Ciavatta, C Marzadori, C |
| description | Many studies on soil organic carbon (SOC) sequestration in perennial biomass crops are available for Atlantic and continental environments of North Central Europe, while there is insufficient information for Southern Europe. Therefore, we assessed SOC turnover under Mediterranean climate, after a 9-year-old conversion from two annual crop systems, continuous wheat and maize/wheat rotation, to Miscanthus (Miscanthus sinensis×giganteus) and giant reed (Arundo donax), respectively. The naturally occurring ^sup 13^C signature down to 0.60 m was used to evaluate the total amount of SOC in annual vs perennial species and to determine the portion of SOC derived from perennial species. Soil organic C was significantly higher under perennial (average, 91 Mg C ha^sup -1^) than annual species (average, 56 Mg C ha^sup -1^), with a stronger accumulation in the topsoil (0-0.15 m). This difference was consistent with reduced soil disturbance associated with perennial crop management. After 9 years of Miscanthus plantation, the amount of C^sub 4^-derived C was 18.7 Mg ha^sup -1^, mostly stored at 0-0.15 m, whereas the amount of C^sub 3^-derived C under giant reed was 34.7 Mg ha^sup -1^ and was more evenly distributed through soil depths, probably due to its deeper root apparatus. It is suggested that both Miscanthus and giant reed have a remarkable potential for SOC sequestration also under Mediterranean conditions, while supporting the growing bioenergy sector with biomass supply.[PUBLICATION ABSTRACT] |
| doi_str_mv | 10.1007/s00374-014-0931-x |
| format | article |
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Therefore, we assessed SOC turnover under Mediterranean climate, after a 9-year-old conversion from two annual crop systems, continuous wheat and maize/wheat rotation, to Miscanthus (Miscanthus sinensis×giganteus) and giant reed (Arundo donax), respectively. The naturally occurring ^sup 13^C signature down to 0.60 m was used to evaluate the total amount of SOC in annual vs perennial species and to determine the portion of SOC derived from perennial species. Soil organic C was significantly higher under perennial (average, 91 Mg C ha^sup -1^) than annual species (average, 56 Mg C ha^sup -1^), with a stronger accumulation in the topsoil (0-0.15 m). This difference was consistent with reduced soil disturbance associated with perennial crop management. After 9 years of Miscanthus plantation, the amount of C^sub 4^-derived C was 18.7 Mg ha^sup -1^, mostly stored at 0-0.15 m, whereas the amount of C^sub 3^-derived C under giant reed was 34.7 Mg ha^sup -1^ and was more evenly distributed through soil depths, probably due to its deeper root apparatus. 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| ispartof | Biology and fertility of soils, 2014-10, Vol.50 (7), p.1121 |
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| language | eng |
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| source | Springer Nature |
| subjects | Agricultural practices Biomass energy Carbon sequestration Cereal crops Crop management Crop rotation Energy crops Organic carbon Soil depth Soil sciences Topsoil Wheat |
| title | sup 13^C abundance shows effective soil carbon sequestration in Miscanthus and giant reed compared to arable crops under Mediterranean climate |
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