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草地管理利用方式转变对生态系统蒸散耗水的影响 被引量:2
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作者 李愈哲 樊江文 +3 位作者 胡中民 张良侠 于海玲 张海燕 《资源科学》 CSSCI CSCD 北大核心 2015年第2期342-350,共9页
为了解草地管理利用方式对生态系统与大气间水汽交换量的影响程度和影响机制,本研究在内蒙古典型温性草原区域选取相互毗邻的三块不同管理利用方式(放牧,围封禁牧和开垦)草地,利用连有同化箱的便携式红外气体分析仪(LI-6 400),对生态系... 为了解草地管理利用方式对生态系统与大气间水汽交换量的影响程度和影响机制,本研究在内蒙古典型温性草原区域选取相互毗邻的三块不同管理利用方式(放牧,围封禁牧和开垦)草地,利用连有同化箱的便携式红外气体分析仪(LI-6 400),对生态系统蒸散过程进行了全天测定。结果显示,草地围封禁牧和开垦均显著改变了植被群落特征,相比放牧样地,围封禁牧样地蒸散增加了28.01%(P<0.01),而生长C4作物的开垦样地的蒸散量则下降18.62%(P<0.05)。各利用管理方式草地的气温,空气湿度和饱和水汽压差在日间的动态变化均能较好解释蒸散速率的动态变化,其中气温对生态系统蒸散速率的影响具有昼夜差异性,夜间蒸散速率对气温变化的响应敏感性显著低于白天。研究表明,草原区域人类管理利用方式差异造成的生态系统结构、功能变化可能会显著影响区域地表与大气间的水汽交换。 展开更多
关键词 草地 管理利用方式 蒸散 放牧 围封禁牧 草地开垦 内蒙古
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不同土地管理和利用方式喀斯特坡地养分和碳库管理指数的差异 被引量:9
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作者 张亚杰 钱慧慧 +1 位作者 李伏生 苏以荣 《中国岩溶》 CAS CSCD 北大核心 2016年第1期27-35,共9页
文章选择环江喀斯特农业生态试验站坡地,设计封育、种植玉米、种植牧草、火烧、刈割和刈割除根6种处理方式,测定了不同处理下坡地土壤养分含量、有机碳、易氧化碳含量和碳库管理指数。结果表明,不同处理下土壤养分含量、有机碳含量和碳... 文章选择环江喀斯特农业生态试验站坡地,设计封育、种植玉米、种植牧草、火烧、刈割和刈割除根6种处理方式,测定了不同处理下坡地土壤养分含量、有机碳、易氧化碳含量和碳库管理指数。结果表明,不同处理下土壤养分含量、有机碳含量和碳库管理指数均存在明显差异。土壤全氮、全磷、碱解氮、速效钾、有机碳和易氧化碳含量随土壤人为干扰的增大而减小,种植玉米、种植牧草和刈割除根处理由于人为干扰较大,上述指标显著低于封育和火烧处理。土壤全钾和速效磷含量均以种植玉米处理最高,而刈割处理最低。土壤缓效钾含量以封育最高,种植玉米和种植牧草处理次之,而刈割处理最低。与封育相比,各处理土壤碳库管理指数均显著降低,其中种植玉米和火烧处理最低,并显著低于其他各处理。此外,土壤全氮、全磷、全钾、碱解氮和有机碳含量随坡位的升高而降低。在喀斯特生态脆弱地区,自然封育有利于土壤养分和碳库管理指数的保持和提高。随着土壤人为干扰的增大,土壤养分含量和碳库管理指数下降。 展开更多
关键词 喀斯特地区 土地管理利用方式 养分 碳库管理指数
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Effects of Tillage Practices and Land Use Management on Soil Aggregates and Soil Organic Carbon in the North Appalachian Region,USA 被引量:11
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作者 Arun Jyoti NATH Rattan LAL 《Pedosphere》 SCIE CAS CSCD 2017年第1期172-176,共5页
Promoting soil carbon sequestration in agricultural land is one of the viable strategies to decelerate the observed climate changes. However, soil physical disturbances have aggravated the soil degradation process by ... Promoting soil carbon sequestration in agricultural land is one of the viable strategies to decelerate the observed climate changes. However, soil physical disturbances have aggravated the soil degradation process by accelerating erosion. Thus, reducing the magnitude and intensity of soil physical disturbance through appropriate farming/agricultural systems is essential to management of soil carbon sink capacity of agricultural lands. Four sites of different land use types/tillage practices, i) no-till (NT) corn (Zea mays L.) (NTC), ii) conventional till (CT) corn (CTC), iii) pastureland (PL), and iv) native forest (NF), were selected at the North Appalachian Experimental Watershed Station, Ohio, USA to assess the impact of NT farming on soil aggregate indices including water-stable aggregation, mean weight diameter (MWD) and geometric mean diameter (GMD), and soil organic carbon and total nitrogen contents. The NTC plots received cow manure additions (about 15 t ha-1) every other year. The CTC plots involved disking and chisel ploughing and liquid fertilizer application (110 L ha-l). The results showed that both water-stable aggregation and MWD were greater in soil for NTC than for CTC. In the 0-10 cm soil layer, the 〉 4.75-mm size fraction dominated NTC and was 46% more than that for CTC, whereas the 〈 0.25-mm size fraction was 380% more for CTC than for NTC. The values of both MWD and GMD in soil for NTC (2.17 mm and 1.19 mm, respectively) were higher than those for CTC (1.47 and 0.72 mm, respectively) in the 0-10 cm soil layer. Macroaggregates contained 6%-42% and 13%-43% higher organic carbon and total nitrogen contents, respectively, than microaggregates in soil for all sites. Macroaggregates in soil for NTC contained 40% more organic carbon and total nitrogen over microaggregates in soil for CTC. Therefore, a higher proportion of microaggregates with lower organic carbon contents created a carbon-depleted environment for CTC. In contrast, soil for NTC had more aggregation and contained higher organic carbon content within water-stable aggregates. The soil organic carbon and total nitrogen stocks (Mg ha-1) among the different sites followed the trend of NF 〉 PL 〉 NTC 〉 CTC, being 35%-46% more for NTC over CTC. The NT practice enhanced soil organic carbon content over the CT practice and thus was an important strategy of carbon sequestration in cropland soils. 展开更多
关键词 aggregate stability MACROAGGREGATES MICROAGGREGATES NO-TILL water-stable aggregation
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