|本期目录/Table of Contents|

[1]代富强.水土保持技术的适宜性评价[J].江苏农业科学,2014,42(12):8-12.
 Dai Fuqiang.Evaluation on suitability of soil and water conservation technology[J].Jiangsu Agricultural Sciences,2014,42(12):8-12.
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水土保持技术的适宜性评价(PDF)
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《江苏农业科学》[ISSN:1002-1302/CN:32-1214/S]

卷:
第42卷
期数:
2014年12期
页码:
8-12
栏目:
专论
出版日期:
2014-12-25

文章信息/Info

Title:
Evaluation on suitability of soil and water conservation technology
作者:
代富强
重庆工商大学旅游与国土资源学院,重庆 400067
Author(s):
Dai Fuqiang
关键词:
水土流失水土保持技术适宜性评价研究进展
Keywords:
-
分类号:
S157.2
DOI:
-
文献标志码:
A
摘要:
水土保持技术适宜性评价是对水土保持基础理论研究的深化,也是制定水土保持规划的重要依据。在理清水土保持技术适宜性相关概念的基础上,结合文献发现,除了针对特定技术的土壤适宜性以及单个因素的适宜性分析外,主要还是从技术的采用、世界水土保持方法与技术纵览项目、保存率、效益评价和优化配置5个方面间接探讨技术的适宜性问题。关于水土保持技术适宜性评价,从理论体系到评价指标体系与评价方法、空间评价、空间优化配置都缺乏系统研究。因此,初步提出水土保持技术适宜性评价指标体系以及指标评价标准与权重的确定方法和评价模型,以及今后的研究重点。
Abstract:
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参考文献/References:

[1]de Graaff J,Kessler A,Olsen P. Farm-level adoption of soil and water conservation measures and policy implications in Europe[J]. Land Use Policy,2010,27(1):1-3.
[2]王礼先,朱金兆,王冬梅. 水土保持学[M]. 2版.北京:中国林业出版社,2005:9-10.
[3]代富强,刘刚才. 紫色土丘陵区典型水土保持措施的适宜性评价[J]. 中国水土保持科学,2011,9(4):23-30.
[4]刘宝元,刘瑛娜,张科利,等. 中国水土保持措施分类[J]. 水土保持学报,2013,27(2):80-84.
[5]Wauters E,Bielders C,Poesen J,et al. Adoption of soil conservation practices in Belgium:an examination of the theory of planned behaviour in the agri-environmental domain[J]. Land Use Policy,2010,27(1):86-94.
[6]de Graaff J,Amsalu A,Bodnar F,et al. Factors influencing adoption and continued use of long-term soil and water conservation measures in five developing countries[J]. Applied Geography,2008,28(4):271-280.
[7]李秋艳,蔡强国,方海燕,等. 长江上游紫色土地区不同坡度坡耕地水保措施的适宜性分析[J]. 资源科学,2009,31(12):2157-2163.
[8]Jara-Rojas R,Bravo-Ureta B E,Engler A A. An analysis of the joint adoption of water conservation and soil conservation in central Chile[J]. Land Use Policy,2013,32:292-301.
[9]Morris N L,Miller P,Orson J H,et al. The adoption of non-inversion tillage systems in the United Kingdom and the agronomic impact on soil,crops and the environment[J]. Soil & Tillage Research,2010,108(1/2):1-15.
[10]DEmden F H,Llewellyn R S,Burton M P.Adoption of conservation tillage in Australian cropping regions:an application of duration analysis[J]. Technological Forecasting and Social Change,2006,73(6):630-647.
[11]Oostendorp R H,Zaal F. Land acquisition and the adoption of soil and water conservation techniques:a duration analysis for Kenya and the Philippines[J]. World Development,2012,40(6):1240-1254.
[12]Bewket W. Soil and water conservation intervention with conventional technologies in northwestern highlands of Ethiopia:acceptance and adoption by farmers[J]. Land Use Policy,2007,24(2):404-416.
[13]Wang J,Huang J,Zhang L,et al. Why is Chinas blue revolution so “Blue”? The determinants of conservation tillage in China[J]. Journal of Soil and Water Conservation,2010,65(2):113-129.
[14]Udayakumara E,Shrestha R P,Samarakoon L. Mitigating soil erosion through farm-level adoption of soil and water conservation measures in Samanalawewa Watershed,Sri Lanka[J]. Acta Agriculturae Scandinavica Section B-Soil and Plant Science,2012,62(3):273-285.
[15]Liniger H,Schwilch G. Enhanced decision—making based on local knowledge—the WOCAT method of sustainable soil and water management[J]. Mountain Research and Development,2002,22(1):14-18.
[16]Schwilch G,Bachmann F,Liniger H P. Appraising and selecting conservation measures to mitigate desertification and land degradation based on stakeholder participation and global best practices[J]. Land Degradation & Development,2009,20(3):308-326.
[17]杨学震,聂碧娟. WOCAT项目简介及我国开展项目建设的建议[J]. 水土保持研究,2000,7(3):181-183.
[18]Reed M S,Buenemann M,Atlhopheng J,et al. Cross-scale monitoring and assessment of land degradation and sustainable land management:a methodological framework for knowledge management[J]. Land Degradation & Development,2011,22(2):261-271.
[19]Schwilch G,Bestelmeyer B,Bunning S,et al. Experiences in monitoring and assessment of sustainable land management[J]. Land Degradation & Development,2011,22(2):214-225.
[20]刘勇,冉大川,吴永红. 黄河中游水保措施保存面积的核实初探[J]. 水土保持通报,1994,14(4):39-42,58.
[21]喻权刚. 黄河流域四大水土保持重点治理区治理措施保存率的分析评价[J]. 水土保持通报,1995,15(1):1-7.
[22]赵有恩. 黄河中游水土保持措施保存率分析及措施状况评述——以黄河河龙区间南片为例[J]. 干旱区资源与环境,1996,10(2):46-52.
[23]陈浩,方海燕,蔡强国,等. 黄河中游的侵蚀环境与植被恢复前景[J]. 地理研究,2007,26(4):735-744,图版2.
[24]王斌,张绒君,闵德安,等. 黄土高塬沟壑区主要造林树种生长适应性研究[J]. 人民黄河,2010,32(2):87-88.
[25]刘刚才,张建辉,杜树汉,等. 关于水土保持措施适宜性的评价方法[J]. 中国水土保持科学,2009,7(1):108-111.
[26]Nyamangara J,Masvaya E N,Tirivavi R,et al. Effect of hand-hoe based conservation agriculture on soil fertility and maize yield in selected smallholder areas in Zimbabwe[J]. Soil & Tillage Research,2013,126:19-25.
[27]Guo W,Li Z W,Shen W P,et al. Effects of soil and water conservation and its interactions with soil properties on soil productivity[J]. Journal of Central South University,2012,19(8):2279-2285.
[28]王兵,张光辉,刘国彬,等. 黄土高原丘陵区水土流失综合治理生态环境效应评价[J]. 农业工程学报,2012,28(20):150-161.
[29]张霞,刘晓清,王亚萍,等. 秦岭生态功能区水土保持治理效益评价[J]. 水土保持研究,2012,19(2):86-90.
[30]桂凌,张征,闫国振,等. 基于遗传神经网络的鄂尔多斯沙棘水土保持功能评价[J]. 干旱区资源与环境,2012,26(7):136-140.
[31]张传珂. 多目标决策灰色投影法在水土保持综合效益评价中的应用[J]. 中国农学通报,2013,29(11):164-167.
[32]魏永霞,宋族鑫,严昌荣,等. 基于熵权的模糊物元模型在坡耕地水土保持耕作技术模式评价中的应用[J]. 水土保持研究,2008,15(6):194-196.
[33]Monar C,Saavedra A K,Escudero L,et al. Positive impacts in soil and water conservation in an Andean region of south America:Case scenarios from a US agency for international development multidisciplinary cooperative project[J]. Journal of Soil and Water Conservation,2013,68(1):25A-30A.
[34]邬岳阳,严力蛟,樊吉,等. 植物篱对红壤坡耕地的水土保持效应及其机理研究[J]. 生态与农村环境学报,2012,28(6):609-615.
[35]Xu X Z,Li M J,Liu B,et al. Quantifying the effects of conservation practices on soil,water,and nutrients in the loess Mesa ravine region of the loess plateau,China[J]. Environmental Management,2012,49(5):1092-1101.
[36]鲁子瑜,邹厚远,马志仁. 摘牛沟小流域林草配置模式试验研究[J]. 水土保持通报,1991,11(2):51-54.
[37]蒋定生,江忠善,侯喜禄,等. 黄土高原丘陵区水土流失规律与水土保持措施优化配置研究[J]. 水土保持学报,1992,6(3):14-17.
[38]朱金兆,魏天兴,张学培.基于水分平衡的黄土区小流域防护林体系高效空间配置[J]. 北京林业大学学报,2002,24(5):5-13.
[39]姚文艺,茹玉英,康玲玲. 水土保持措施不同配置体系的滞洪减沙效应[J]. 水土保持学报,2004,18(2):28-31.
[40]王学强,蔡强国,和继军. 红壤丘陵区水保措施在不同坡度坡耕地上优化配置的探讨[J]. 资源科学,2007,29(6):68-74.
[41]李子君. 潮河流域不同水土保持措施配置方案对年径流量的影响[J]. 水土保持通报,2010,30(1):108-112.
[42]李成杰,许靖华,焦宝明. 试论水保措施优化配置及方法[J]. 水土保持科技情报,2004(6):11-12.
[43]卢玉东,张树恒,宋光煜,等. 低山丘陵区土壤侵蚀生态工程治理模式及优化配置——以四川省宣汉县拱桥河流域为例[J]. 地球科学与环境学报,2007,29(3):304-307,315.
[44]郑海峰,陈利顶,于洪波. 黄土丘陵沟壑区乔灌草植物空间优化配置——以甘肃省定西地区为例[J]. 地理研究,2007,26(1):101-109,图版3.
[45]何长高,董增川,陈卫宾,等. 基于水资源合理配置的流域水土保持结构优化模型研究[J]. 岩土工程学报,2008,33(11):1738-1742.
[46]陈卫宾,刘生云,董增川. 基于径流调控的水土保持措施优化配置[J]. 人民黄河,2010(3):81-82,85.

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备注/Memo

备注/Memo:
收稿日期:2014-03-07
基金项目:国家自然科学基金(编号:41301351);重庆市教育委员会科技项目(编号:KJ130724);重庆工商大学科研启动项目(编号:2013-56-05)。
作者简介:代富强(1980—),男,四川都江堰人,博士,副教授,从事生态评价、土壤侵蚀与水土保持研究。E-mail:daifq@ctbu.edu.cn。
更新日期/Last Update: 2014-12-25