Overview of Water Utilization Efficiency of Intercropping Crops

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Chinese Agricultural Science Bulletin ›› 2017, Vol. 33 ›› Issue (20) : 23-28. DOI: 10.11924/j.issn.1000-6850.casb16100118

Overview of Water Utilization Efficiency of Intercropping Crops

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Abstract

Intercropping is an important measure for the sustainable development of agriculture, especially in arid and semiarid region and under the condition of limited water resources. To improve water use efficiency and yield by means of the competition and complementary between intercropping crops is a difficult point of water use in intercropping. By literature reviews, the authors systematically analyzed the research achievements of water use efficiency of intercropping crops and its evaluation, and then explored the research difficulties and research priorities. The results could be applied to improving agricultural water use efficiency, and providing a theoretical basis for the sustainable development of agriculture.

Key words

intercropping;Swater use efficiency; yield; water use assessment

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Overview of Water Utilization Efficiency of Intercropping Crops. Chinese Agricultural Science Bulletin. 2017, 33(20): 23-28 https://doi.org/10.11924/j.issn.1000-6850.casb16100118

References

[1]许 迪,龚时宏,李益农,等.作物水分生产率改善途径与方法研究综述[J].水利学报,2010,41(6):631-639.
[2] 候慧芝,张绪成,汤瑛芳,等. 半干旱区全膜覆盖垄沟种植马铃薯/蚕豆间作的产量和水分效应[J].草业学报,2016,25(6):72-79
[3] 张凤云,吴普特,赵西宁,等. 间套作提高农田水分利用效率的节水机理[J]. 应用生态学报,2012,23(5): 1400-1406.
[4] Tournebize R , Sinoquet H , Francois B . Modelling evapotranspiration partitioning in a shrub /grass alley crop [J]. Agricultural and Forest Meteorology, 1996, 81: 255- 272.
[5] 邓小燕,王小春,杨文钰,等. 玉米/大豆和玉米/甘薯模式下玉米碳素吸收特征及种间相互作用[J]. 作物学报,2013,39(10):1891-1898
[6] 佟屏亚. 试论耕作栽培学科的发展趋势和研究重点[J].耕作与栽培,1994,64(4): 1-7
[7] 刘巽浩. 90 年代我国耕作制度发展展望[D]. 北京农业大学,1992.
[8] 张凤云,吴普特,赵西宁,等.间套作提高农田水分利用效率的节水机理. 应用生态学报,2012,23(5):1400-1406
[9] 叶优良,李隆,孙建好.小麦/玉米间作和氮肥对水分利用的影响[J].干旱地区农业研究,2005,25 (4):176-182.
[10] Willey R W, Rao M R. A competitive ratio for quantifying competition between intercrops. Experimental Agriculture, 1980, 16: 117-125
[11] Willey R W, Reddy M S. A field technique for separating above and below-ground interactions in intercropping: an experiment with pearl millet/groundnut[J]. Experimental Agriculture, 1981, 17: 257-264
[12] Keating B, Carberry P. Resource capture and use in intercropping: solar radiation[J]. Field Crops Research, 1993, 34 :273-301
[13] 王自奎,吴普特,赵西宁,等.作物间套作群体光能截获和利用机理研究进展[J].自然资源学报,2015,30(6):1057-1066
[14] 孙志梅,薛世川,彭正萍,等. 影响土壤NO3-N淋失的因素及预防措施[J].河北农业大学学报,2001(3):95-99
[15] 陈秀玲,张磊,王凯荣,等. 不同铁营养状况下间作小麦对花生吸收Cd的影响[J].水土保持学报,2014,28(1):257-265
[16] Tournebize R , Sinoquet H , Francois B . Modelling evapotranspiration partitioning in a shrub /grass alley crop [J]. Agricultural and Forest M eteorology, 1996, 81: 255- 272.
[17] 张立祯, 曹卫星, 张思平, 等. 基于生理发育时间的棉花生育期模拟模型[J].棉花学报, 2003,15(2): 97-103
[18] 董宛麟,张立祯,于洋,等. 农林间作生态系统的资源利用研究进展[J].中国农学通报, 2011,27(28): 1-8
[19] 李隆, 杨思存, 孙建好, 等. 小麦/大豆间作中作物种间的竞争作用和促进作用[J].应用生态学报, 1999, 10(2):197-200
[20]Walker S,Ogindo HO. The water budget of rainfed maize and bean intercrop[J].Physics and Chemistry of the Earth,2003,28: 919-926
[21]Ripoche A,Celette F,Cinna JP,et al. Design of intercrop management plans to fulfill production and environ-mental objectives in vineyards[J]. European Journal of Ag-ronomy,2010,32: 30-39
[22]Morris R. Water use by monocropped and intercropped cowpea and sorghum grown after rice[J]. Agronomy Journal, 1990, 82: 664-668
[23]赵强基;D.P.Garrity; 王增远. 菲律宾以稻为基础的种植制度能量平衡状况[J]. 江苏农业学报,1993,9(3):1—7
[24]Olasantan. The effects on soil temperature and moisture content and crop growth and yield of intercropping maize with melon[J]. Experimental Agriculture, 1988, 24(24): 67-74
[25]Snaydon RW,Harris PM. Interactions below ground the use of nutrients and water[ J] .In: ICRISAT(ed). Proceeding of international workshop on intercropping[ C] .10~13 January 1979, Hyderabad, India: ICRISAT, 1981, 188-201.
[26]Willey RW,Reddy MS. A field technique for separating above- and below-ground interactions in intercropping:An experiment with pearl millet/groundnut[J].Experimen-tal Agriculture,1981,17: 257-264
[27]叶优良. 间作对氮素和水分利用的影响. 博士学位论文, 北京: 中国农业大学, 2003
[28]王仰仁, 王丽霞. 作物组合种植的需水量研究. 灌溉排水, 2000, 19(4): 64-67
[29]唐立松;张建龙;李彦;等.植物对土壤水分变化的响应与控制性分根交替灌溉.干旱区研究,2005-01
[30]李隆, 金绍龄, 张丽慧, 等. 小麦/玉米带田中光捕获、利用及干物质积累特点. 西北农业大学学报, 1996, 24(5): 42-48
[31]王照霞;郭贤仕;马一凡;等. 青贮玉米豌豆间作对产量和水分利用效率的影响.甘肃农业大学学报,2005,8(4):492-497
[32]孙建好. 不同施氮水平对小麦/玉米间作养分和水分吸收利用研究. 硕士学位论文, 北京: 中国农业大学, 2007
[33]黄瑞冬, 马鸿图, 李永奎, 等. 玉米高粱及其间作小麦的土壤水分动态和产量[J] . 辽宁农业科学, 1998(4):20-44
[34]R Tournebize, H Sinoquet, F Bussiere. Modelling evapotranspiration partitioning in a shrub/grass alley crop. Agricultural Forest Meteorology, 1996, 81(3-4):255-272
[35]高阳,段爱旺,刘浩,等. 间作条件下水分在作物间的分配与利用研究进展. 农业工程学报,2007(7):281-284
[36]Zhang L Z, Van der Werf W, Zhang S P, et al. Growth, yield and quality of wheat and cotton in relay strip intercropping systems[J].FieldCropsResearch,2007,103:178-188.
[37]张正斌. 作物水分利用效率和蒸发蒸腾估算模型的研究进展. 干旱地区农业研究,1997(1):74-78
[38]朱首军,丁艳芳,薛泰谦,等. 土壤-植物-大气系统和农林复合系统水分运动研究综述.2000(3):50-53
[39]曹宏鑫,赵锁劳,葛道阔,等. 作物模型发展探讨. 中国农业科学,2011,44(17):3520-3528
[40]LiL, SunJH, ZhangFS, etal..Wheat/maize or wheat/soy-beanstrip intercropping I.Yield advantage and interspecific interaction sonnutrients .Field Crops Research, 2001, 71:123-127.
[41]曹宏鑫,金之庆,石春林,等. 中国作物模型系列的研究与应用. 2006-05
[42] Steiner JL, William JR, Jones OR. 1987. Evaluation of the EPIC simulation model using dry land wheat-sorghum-fallow crop rotation. Agron J, 79:223-232
[43] 寿文凯,胡飞龙,阿拉木萨,等. 基于SPAC系统干旱区水分循环和水分来源研究方法综述. 2013,32(8):2194-2202
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