【摘 要】
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Carbon sequestration potential of agroforestry systems has attracted worldwide attention following the recognition of agroforestry as greenhouse gas mitigation strategy.However, little is known about
【机 构】
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Linze Inland River Basin Research Station/Heihe Key Laboratory of Ecohydrology and Integrated River
【出 处】
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第十七届中国农业生态与生态农业研讨会
论文部分内容阅读
Carbon sequestration potential of agroforestry systems has attracted worldwide attention following the recognition of agroforestry as greenhouse gas mitigation strategy.However, little is known about carbon stock in poplar-maize intercropping systems in arid region of China.This study was conducted in the temperate desert region of Northwest China, a region with large area poplar-maize intercropping systems.The objective of this study is to assess biomass production and carbon stock in the three poplar-maize intercropping systems (configuration A: 177 trees ha-1;configuration B: 231 trees ha-1;configuration C: 269 trees ha-1).A significant difference in carbon stock of poplar trees was observed among the three configurations, with the highest value of 36.46 t ha-2 in configuration C.The highest carbon stock of maize was achieved in configuration B, and significant difference with configuration A;the grain yield was highest in configuration A and no significant difference with other two configurations.In the soil system, the total carbon stock (0-100cm) were significant highest in configuration C (77.37t ha-1) among the three configurations.Overall, the total carbon stock in the poplar-maize intercropping system was affected by configurations and configuration C had the largest total carbon stock.The results show that configuration C is a relative optimum agroforestry system both for economical benefits and carbon sequestration.
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