机构地区:[1]西北农林科技大学资源与环境学院,农业部西北植物营养与农业环境重点实验室,杨凌712100 [2]西北农林科技大学农学院,杨凌712100
出 处:《生态学报》2012年第20期6396-6403,共8页Acta Ecologica Sinica
基 金:陕西省自然科学基础研究计划资助项目(2010JQ5001);教育部高等学校博士点基金(20090204120038);国家自然基金(30971695);西北农林科技大学基本科研业务费专项(QN2011153);西北农林科技大学博士启动金(2010BSJJ032)
摘 要:探讨了黄土丘陵区退耕种植10—40a的柠条、沙棘及刺槐林地土壤总有机碳库及其活性组分密度随退耕时间、土层分布及相对比例的变化差异。结果表明:100 cm深土壤碳库在退耕10a时仅柠条林地碳库未比坡耕地显著增加,但退耕20—40a3种林地比退耕10a时都已有显著增加,且增幅均为刺槐>沙棘>柠条,其中总有机碳的最大增幅分别达到90.92、27.87、14.89Mg/hm2,活性有机碳的分别达到30.28、10.51、9.67 Mg/hm2。各还林地碳库增加在退耕10a时主要来自0—40 cm浅层土,而40—100 cm深层土碳库到退耕20a起才开始显著增加。对比退耕10a时,到退耕40a时柠条、沙棘及刺槐林地0—20 cm表层土分别平均累积了35.4%、27.9%、27.1%的总有机碳,20.2%、45.1%、23.1%的活性有机碳,而20—100 cm各土层间对碳库累积比例大小变化无一致规律,平均每20 cm厚土层累积了17.4%的总有机碳和17.6%活性有机碳。并且相比坡耕地,各林地均使100 cm深土壤活性有机碳占总有机碳的比例提高,改良了碳库质量。综上分析,长期退耕下3种林地固碳效应有明显差异,以刺槐林地碳累积效应较强。Quantifying soil carbon sequestration may be an important consideration under large scale afforestation because it has been counted in global carbon budgets according to the Kyoto Protocol.The conversion of cropland to forest as part of a huge ecological afforestation engineering scheme has played a very important role in reversing ecological destruction in the Loess Plateau and strongly affects the carbon cycle.This research was conducted to determine the changes in total soil organic carbon and its labile fraction in soil to 100 cm under three typical forested lands.These typical forest lands are Caragana,Buckthorn,and Robinia,which have been converted from farmland between 10 and 40 years ago in a Loess Hilly Area.The results showed that,compared with sloped farmland,the concentration of total organic carbon and labile organic carbon in soil at 100 cm was not higher in Caragana forest land 10 years after conversion from farmland.The carbon pool was significantly increased in Buckthorn and Robinia after the same period.Compared with 10 years since farmland conversion,the total organic carbon and labile carbon was further increased in all forest lands after 20 to 40 years of conversion from farmland.This increase followed the order Robinia Buckthorn Caragana,and the highest increase in total organic carbon reached 90.92,27.87,and 14.89 Mg/hm2,and for labile organic carbon was 30.28,10.51,and 9.67 Mg/hm2 respectively.The changes in soil organic carbon in different soil layers were also significantly different with time since farmland conversion.The soil organic carbon and its labile fraction was increased mainly in the 0—40 cm soil layer 10 years after farmland conversion in all forest lands.The soil organic carbon pools in the 40—100 cm layer were increased significantly 20 years after farmland conversion.As a result,all soil layers showed a contribution to soil organic carbon increase with long term conversion of cropland to forest.Forty years after farmland conversion 35.4%,27.9%,and 27.1% of the increased
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