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The quantity of water available for irrigation is getting scarce in many countries and it assumes great importance for assured crop production, especially in view of the erratic behavior of the monsoon. Thus, there is a pressing need to improve the water efficiency of irrigation systems. One-way of improving the efficiency of the irrigation system is reusing the return flow from the irrigation system. This task requires quantification of return flow, which still remains as a grey area in irrigation water management. The estimation of return flow from the irrigation system is usually obtained using thumb rules depending upon the site-specific conditions like command area conditions and soil properties. In this paper, a hierarchical modeling technique, namely, regression tree is developed for return flow estimation. Regression tree is built through binary recursive partitioning. The effective rainfall, inflow, consumptive water demand, and percolation loss are taken as predictor variables and return flow is treated as the target variable. The applicability of the hierarchical model is demonstrated through a case study of Periyar-Vaigai Irrigation System in Tamil Nadu, India. The model performance shows a good match between the simulated and the field measured return flow values. Results of statistical analysis indicated that the correlation coefficients are high for both single as well as double crop seasons. 相似文献
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N2O是一种重要的温室气体, 具有很强的温室效应。当前全球变化条件下, 人类活动和农业生产行为产生的N2O排放增加是当前倍受关注的问题。本研究于2008年11月-2009年10月, 利用静态箱 气相色谱技术对亚热带地区紫穗槐(Amorpha fruticosa L.)绿篱枝叶还田条件下冬小麦 夏玉米轮作田土壤N2O排放通量进行原位监测, 观测紫穗槐枝叶移出(AR)、翻施(AI)、表施(AC)及作物单作(CK)4种处理下整个生长季土壤N2O的排放量, 对等高绿篱 坡地农业复合生态系统土壤N2O排放通量变化及其影响机制进行研究。结果表明, 整个冬小麦 夏玉米轮作期, 4个处理土壤N2O排放通量呈现出相似的季节变化特征, AR、AI、AC、CK处理全生长季的排放总量为127.62 mg·m-2、209.66 mg·m-2、208.73 mg·m-2、77.52 mg·m-2。作物不同生育阶段N2O日均排放通量在冬小麦季表现为: 开花-成熟期>拔节-开花期>出苗-拔节期; 在夏玉米季表现为: 拔节-抽雄期>播种-拔节期>抽雄-成熟期。本试验综合评估了等高绿篱 坡地农业复合生态系统土壤N2O排放通量变化及其影响机制。研究显示, 土壤N2O排放通量在冬小麦季与土壤温度相关性显著, 在夏玉米季与土壤水分相关性显著。在复合生态系统中紫穗槐复合种植及枝叶还田显著促进土壤N2O排放, 翻施处理产生的N2O量大于表施处理。 相似文献
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利用盆栽试验和田间试验研究了榨菜叶还田对土壤养分肥力的影响,结果表明,榨菜叶还田处理土壤碱解氮、速效磷、速效钾含量在水稻整个生长期变化较小,水稻生长后期土壤速效N、P、K含量都高于化肥处理;而化肥处理氮磷钾含量变化较大,说明榨菜叶养分供应能够与作物的吸收相互协调,养分供应持续稳定,能满足水稻生长后期对NPK养分的需要,是一种天然的缓释肥料。在水稻生长期,榨菜叶还田能明显的提高土壤肥力,与对照相比,水稻收获后不同处理土壤有机质含量、土壤氮、磷、钾含量,均有所上升,以榨菜叶及其配施化肥处理上升的幅度较大,培肥效果较好。 相似文献
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基于逆向物流的产品退货管理研究 总被引:1,自引:0,他引:1
阐述了逆向物流产生的原因和概念,分析了逆向物流与退货管理的关系,从再制造、再利用、修理、再生、回收、再销售六方面对逆向物流的价值进行分析。对退货逆向物流形成的原因进行了分析,并对退货逆向物流管理策略进行了研究。 相似文献
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This article discusses the determinants of profitability expressed as return on capital among Japanese pulp and paper companies. Return on capital is measured as income before tax related to stockholders’ equity. Return on capital has been divided into profit margin and asset utilization rate. The hypothesis is that return on capital can be explained by mill size, productivity, product line, financial situation, and use of wood resources. The dataset consists of 13 larger Japanese pulp and paper companies listed in Pulp &; Paper Statistics. Data on financial performance, production, and use of wood fibers were collected for the period 1991–2001. The average return on equity for the studied companies is 4.2%. Labor productivity has increased quite significantly, from about 600 to 1,000 kg/employee and year. An econometric analysis indicates that the best model fit is found when the asset utilization rate is used as the dependent variable. Significant variables are, among others, asset utilization rate lagged one time period (?), labor productivity (+), capital productivity (?), paper production as a share of total paper and board production (?), total value of assets on the books (?) and solidity (+). This may indicate that the total value of assets on the books is large in relation to the total production of paper, paperboard and pulp. 相似文献
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金沙江干热河谷生态问题与退耕还林技术模式的研究 总被引:5,自引:0,他引:5
通过对金沙江干热河谷生态环境和经营条件分析,提出适合金沙江流域不同海拔和立地条件的退耕还林的技术模式,论述了经济林模式、生态林模式、用材林模式和林草混交立体模式的适用立地条件、造林树种、经营技术及经济效益。 相似文献
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