Scientia Agricultura Sinica ›› 2019, Vol. 52 ›› Issue (21): 3748-3750.doi: 10.3864/j.issn.0578-1752.2019.21.003
• SPECIAL FOCUS: MAIZE AND SOYBEAN RESPONSE TO LIGHT AND WATER IN STRIP INTERCROPPING • Previous Articles Next Articles
YANG WenYu,YANG Feng
| [1] | WILLEYR.Intercropping: its importance and research needs. Part I. Competition and yield advantages. Field Crop Abstract, 1979,32: 1-10. |
| [2] | FRANCIS C. Biological efficiencies in multiple-cropping systems. Advances in Agronomy, 1989,42: 1-42. |
| [3] | SZUMIGALSKI AR ,VAN A R CR.Nitrogen yield and land use efficiency in annual sole crops and intercrops. Agronomy Journal, 2006,98(4):1030-1040. |
| [4] | WILLEYR W. Resource use in intercropping systems. Agricultural Water Management 1990,17(3):215-231. |
| [5] | 杨文钰, 雍太文, 任万军, 樊高琼, 牟锦毅, 卢学兰. 发展套作大豆, 振兴大豆产业. 大豆科学, 2008, 27(1):1-7. |
| YANG WY, YONG T W, REN W J, FAN G Q, MOU J Y, LU X L . Develop relay-planting soybean,revitalize soybean industry. Soybean Science , 2008,27(1):1-7. (in Chinese) | |
| [6] | GAOY, DUAN A W, QIU X Q, LIU Z G, SUN J S, ZHANG J P,WANG H Z.Distribution of roots and root length density in a maize/soybean strip intercropping system. Agricultural Water Management 2010,98(1):199-212. |
| [7] | 王潮生 . 农业文明寻迹. 北京: 中国农业出版社, 2011: 33-35. |
| WANG C S. The Tracing of Agricultural Civilization. Beijing: China Agriculture Press, 2011: 33-35. (in Chinese) | |
| [8] | 鲁耀, 郑毅, 赵平, . 间作条件下作物对铁的吸收利用和病害控制. 云南农业大学学报, 2008, 23(1):91-95. |
| LUY, ZHENGY,ZHAO P .Iron absorption and utilization by crops and diseases control in intercropping. Journal of Yunnan Agricultural University , 2008,23(1):91-95. (in Chinese) | |
| [9] | 李隆 . 间套作体系豆科作物固氮生态学原理与应用. 北京: 中国农业大学出版社, 2013: 11-12. |
| LI L. The Ecological Principles and Applications of Biological N2 Fixation in Legumes-Based Intercropping Systems. Beijing: China Agricultural University Press, 2013: 11-12. (in Chinese) | |
| [10] | KNRZERH, GRAEFF H S, GUO B,WANG P, CLAUPEIN W. The rediscovery of intercropping in China: A traditional cropping system for future Chinese agriculture-a review. Climate Change, Intercropping,Pest Control and Beneficial Microorganisms , 2009,2(1):13-44. |
| [11] | LIUX, TANZEELURR, SONGC, YANGF, SU BY, CUIL, BU WZ, YANG W Y. Relationships among light distribution radiation use efficiency and land equivalent ratio in maize-soybean strip intercropping. Field Crops Research, 2018,224: 91-101. |
| [12] | YANGF, LIAO DP, WU XL, GAO RC, FAN YF, MUHAMMAD AR, WANG XC, YONG TW, LIU WG, LIUJ, DU JB, SHUK ,YANG W Y. Effect of aboveground and belowground interactions on the intercrop yields in maize-soybean relay intercropping systems. Field Crops Research, 2017,203: 16-23. |
| [13] | LIUX, TANZEELURRAHMAN, SONGC, SU BY, YANGF, YONG TW, WU YS, ZHANG CY, YANG W Y. Changes in light environment, morphology,growth and yield of soybean in maize- soybean intercropping systems. Field Crops Research, 2017,200: 38-46. |
| [14] | YANGF, LIAO DP, WU XL, GAO RC, FAN YF, MUHAMMAD AR, WANG XC, YONG TW, LIU WG, LIUJ, DU JB, SHUK, YANG W Y.Effect of aboveground and belowground interactions on the intercrop yields in maize-soybean relay intercropping systems. Field Crops Research, 2017,203: 16-23. |
| [15] | YANGF, HUANGS, GAO RC, LIU WG, YONG TW, WANG XC, WU XL ,YANG W Y. Growth of soybean seedlings in relay strip intercropping systems in relation to light quantity and red far-red ratio. Field Crops Research, 2014,155: 245-253. |
| [16] | 刘婷, , 刘卫国, 任梦露, 杜勇利, 邓榆川, 邹俊林, 方萍, 杨文钰. 遮荫程度对不同耐荫性大豆品种光合及抗倒程度的影响. 中国农业科学, 2016,49(8):1466-1475. |
| LIUT, LIU W G,REN M L, DU Y L, DENG Y C, ZOU J L, FANG P,YANG W Y. Effect of shade degrees on photosynthesis and lodging resistance degree of different shade tolerance soybean. Scientia Agricultura Sinica 2016,49(8):1466-1475. (in Chinese) | |
| [17] | 任梦露, 刘卫国, 刘婷, 杜勇利, 邓榆川, 邹俊林, 袁晋, 杨文钰. 荫蔽胁迫下大豆茎秆形态建成的转录组分析. 作物学报, 2016,42(9):1319-1331. |
| REN ML, LIU WG, LIU T, DU Y L, DENG Y C, ZOU J L, YUAN J,YANG W Y . Transcriptome analysis of stem morphogenesis under shade stress in soybean. Acta Agronomica Sinica , 2016,42(9):1319-1331. (in Chinese) | |
| [18] | LIU WG, DENG, YC, SAJADH, ZOU JL, YUANJ, LUOL, YANG CY, YUAN XQ ,YANG W Y. Relationship between cellulose accumulation and lodging resistance in the stem of relay intercropped soybean [Glycine max(L.) Merr.]. Field Crops Research, 2016,196: 261-267. |
| [19] | ZHOUT, DU YL, SHOAIBA, LIUT, REN ML, LIU WG ,YANG W Y .Genotypic differences in phosphorus efficiency and the performance of physiological characteristics in response to low phosphorus stress of soybean in southwest of China. Frontiers in Plant Science, 2017,7: 1776. |
| [20] | WANG XC, DENG XY, PUT, SONGC, YONG TW, YANGF, SUNX, LIU WG, YAN YH, DU JB, LIUJ, SHUK ,YANG W Y . Contribution of interspecific interactions and phosphorus application to increasing soil phosphorus availability in relay intercropping systems. Field Crops Research, 2017,204: 12-22. |
| [21] | 杨峰, 娄莹, 刘沁林, 范元芳, 刘卫国, 雍太文, 王小春, 杨文钰 . 玉米行距配置对套作大豆生物量、根系伤流及养分的影响. 中国农业科学, 2016,49(20):4056-5064. |
| YANGF LOU Y, LIU Q L, FAN Y F, LIU W G, YONG T W, WANG X C, YANG W Y . Effect of maize row spacing on biomass,root bleeding sap and nutrient of soybean in relay strip intercropping systems. Scientia Agricultura Sinica , 2016,49(20):4056-5064. (in Chinese) | |
| [22] | YANGF, WANG X C, LIAO D P, LU F Z, GAO R C, LIU W G, YONG T W, WU X L, DU J B, LIU J,YANG W Y .Yield response to different planting geometries in maize-soybean relay strip intercropping systems.Agronomy Journal , 2015,107(1):296-304. |
| [23] | TANZEELURR ,LIUX, SAJAD H, SHOAIB A, CHEN G P, YANG F, CHEN L L, DU J B, LIU W G,YANG W Y. Water use efficiency and evapotranspiration in maize-soybean relay strip intercrop systems as affected by planting geometries.PLoS ONE , 2017,12(6): e0178332. |
| [24] | WU YS, YANG F, GONG W Z, AHMED S, FAN Y F, WU X L, YONG T W, LIU W G, SHU K, LIU J, DU J B,YANG W Y. Shade adaptive response and yield analysis of different soybean genotypes in relay intercropping systems. Journal of Integrative Agriculture, 2017,16(6):1331-1340. |
| [25] | 雍太文, 刘小明, 刘文钰, 周丽, 宋春, 杨峰, 蒋利, 王小春, 杨文钰. 减量施氮对玉米-大豆套作系统下作物氮素吸收和利用效率的影响. 生态学报, 2015,35(13):4473-4482. |
| YONG TW, LIU X M, LIU W Y, ZHOU L, SONG C, YANG F, JIANG L, WANG X C,YANG W Y .Effects of reduced nitrogen application on nitrogen uptake and utilization efficiency in maize- soybean relay strip intercropping system. Acta Ecologica Sinica 2015,35(13):4473-4482. (in Chinese) | |
| [26] | CHENP, SONGC, LIU XM, ZHOUL, YANGH, ZHANG XN, ZHOUY, DUQ, PANGT, FU ZD, WANG XC, LIU WG, YANGF, SHUK, DU JB, LIUJ, YANG WY, YONG T W . Yield advantage and nitrogen fate in an additive maize-soybean relay intercropping system.Science of the Total Environment, 2019,657: 987-999. |
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