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Zheng, Sh. Peng, J. Huang, K. Cui and L. Nie. 2014. Dry direct-seeded rice as an alternative to transplanted-flooded rice in Central China. Agron. Sustain. Dev. 35(1): 285-294. Parameswari, Y. S., A. Srinivas, T. Ram Prakash and G. Narender. 2014. Effect of different crop establishment methods on rice (Oryza sativa L.) growth and yieldA review. Agric. Rev. 35(1): 74-77. Khosravani, A., M. Zabolestani, A. Sharifi, A. Mohsenimanesh, M. Sharbanoo Nejad and A. Hemmat. 2003. Evaluation of the possibility of shallow tillage in irrigated wheat. J. Agric. Eng. Res. 17(4): 29-46. (In Persian with English abstract). Salokhe, V. M. and N. Ramalingam. 2001. Effects of direction of rotation of a rotary tiller on properties of Bangkok clay soil. Soil and Tillage Res. 63: 65-74. Sangeetha, C. and P. Baskar. 2015. Influence of different crop establishment methods on productivity of riceA Review. Agric. Rev. 36(2): 113-124. Singh, S., J. K. Ladhab, R. K. Guptaa, L. Bhushana, and A. N. Raob. 2008. Weed management in aerobic rice systems under varying establishment methods. Crop Protec. 27: 660–671. Singh, Y. 2013. Crop and water productivity as influenced by rice cultivation methods under organic and inorganic sources of nutrient supply. Paddy Water Environ. 11(1-4): 531-542. Sinha, K. P., B. K. Singh, and M. Kumar. 2008. Effect of seed rate, weed management and establishment methods on irrigated rice in Bihar. Los Baños (Philippines): IRRI and Pantnagar (India): Directorate of Experiment Station, G.B. Pant University of Agriculture and Technology. 272 p. Wu, W., L. X. Nie, Y. C. Liao, F. Shah, K. H. Cui, Q. Wang, Y. Lian and J. L. Huang. 2013. Toward yield improvement of early-season rice: other options under doublerice-cropping system in central China. Eur. 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引用次数: 0
摘要
. 柏木,T.和K.石丸。2004。水稻抗倒伏基因座的鉴定与功能分析。植物生理学报,34(2):676-683。汗N. I, A. U. Malik, F. Umer和M. I. Bodla。2010。耕作和农家肥对土壤物理性质的影响。Int。植物学报,1(4):75-82。李晓春,钟庆英,李云霞,李光华,丁云峰,王世华,刘志华,唐树生,丁长青,陈磊。2016。三康醇通过改善水稻生长和抗氧化系统来减少机栽水稻的移栽冲击。前面。植物科学。7:1-10。D噢问oa de D fr om gr ob再保险艾德·乔你na l.i r (0: 2 3 + 04 30 o n T胡rs da y S ep te m r 16 th 2 02 1 (D o我:10。2 92 52 / 2 bj。2。1. 66]“یرشنناریایعارزمولع”،هرامش،مودوتسیبدلج1راهب،1311 66刘,H, s·侯赛因,m .郑黄j . k . Sh。Peng崔和l .聂。2014。旱作直播水稻在华中地区作为移栽水淹水稻的替代选择。阿格龙。维持。发展,35(1):285-294。Parameswari, Y. S., A. Srinivas, T. Ram Prakash和G. Narender. 2014。不同建种方式对水稻生长和产量的影响综述阿格利司。启35(1):74-77。Khosravani, A., M. Zabolestani, A. Sharifi, A. Mohsenimanesh, M. Sharbanoo Nejad and A. Hemmat. 2003。灌溉小麦浅耕可行性评价。j·阿格利司。Eng。Res. 17(4): 29-46。(波斯语,英文摘要)。Salokhe, V. M.和N. Ramalingam. 2001。旋耕机旋转方向对曼谷粘土性状的影响。土壤与耕作,63:65-74。Sangeetha, C.和P. Baskar, 2015。不同栽植方式对水稻产量的影响[j]。阿格利司。启36(2):113-124。辛格,S., J. K. Ladhab, R. K. gupta, L. Bhushana和A. N. Raob. 2008。不同建立方法下旱作水稻系统的杂草管理。作物保护,27:660-671。辛格,2013。有机和无机营养源条件下水稻栽培方式对作物和水分生产力的影响。稻田水环境,11(1):531-542。辛哈,k.p., b.k.辛格和M.库马尔。2008。比哈尔邦灌溉水稻种子率、杂草管理及栽培方法的影响。Los Baños(菲律宾):国际水稻研究所和Pantnagar(印度):G.B.潘特农业科技大学实验站指挥部。272吴伟,聂丽霞,廖永昌,沙方飞,崔坤辉,王琪,连勇,黄金龙。2013。中部地区早季水稻增产之路:双季制下的其他选择。欧元。J。
Effect of tillage and planting methods on soil physical properties, grain yield
and milling recovery of rice (Oryza sativa L. cv. Hashemi)
. Kashiwagi, T. and K. Ishimaru. 2004. Identification and functional analysis of a locus for improvement of lodging resistance in rice. Plant Physiol. 134(2): 676-683. Khan N. I., A. U. Malik, F. Umer and M. I. Bodla. 2010. Effect of tillage and farmyard manure on physical properties of soil. Int. Res. J. Plant Sci.1(4): 75-82. Li, X.C., Q.Y. Zhong, Y.X. Li, G.H. Li, Y.F. Ding, S.H. Wang, Z.H. Liu, S. Tang, C.Q. Ding and L. Chen. 2016. Triacontanol reduces transplanting shock in machine-transplanted rice by improving the growth and antioxidant systems. Front. Plant Sci. 7: 1-10. D ow nl oa de d fr om a gr ob re ed jo ur na l.i r at 0 :2 3 + 04 30 o n T hu rs da y S ep te m be r 16 th 2 02 1 [ D O I: 10 .2 92 52 /a bj .2 2. 1. 66 ] " یرشن ناریا یعارز مولع " ، هرامش ،مود و تسیب دلج 1 راهب ، 1311 66 Liu, H., S. Hussain, M. Zheng, Sh. Peng, J. Huang, K. Cui and L. Nie. 2014. Dry direct-seeded rice as an alternative to transplanted-flooded rice in Central China. Agron. Sustain. Dev. 35(1): 285-294. Parameswari, Y. S., A. Srinivas, T. Ram Prakash and G. Narender. 2014. Effect of different crop establishment methods on rice (Oryza sativa L.) growth and yieldA review. Agric. Rev. 35(1): 74-77. Khosravani, A., M. Zabolestani, A. Sharifi, A. Mohsenimanesh, M. Sharbanoo Nejad and A. Hemmat. 2003. Evaluation of the possibility of shallow tillage in irrigated wheat. J. Agric. Eng. Res. 17(4): 29-46. (In Persian with English abstract). Salokhe, V. M. and N. Ramalingam. 2001. Effects of direction of rotation of a rotary tiller on properties of Bangkok clay soil. Soil and Tillage Res. 63: 65-74. Sangeetha, C. and P. Baskar. 2015. Influence of different crop establishment methods on productivity of riceA Review. Agric. Rev. 36(2): 113-124. Singh, S., J. K. Ladhab, R. K. Guptaa, L. Bhushana, and A. N. Raob. 2008. Weed management in aerobic rice systems under varying establishment methods. Crop Protec. 27: 660–671. Singh, Y. 2013. Crop and water productivity as influenced by rice cultivation methods under organic and inorganic sources of nutrient supply. Paddy Water Environ. 11(1-4): 531-542. Sinha, K. P., B. K. Singh, and M. Kumar. 2008. Effect of seed rate, weed management and establishment methods on irrigated rice in Bihar. Los Baños (Philippines): IRRI and Pantnagar (India): Directorate of Experiment Station, G.B. Pant University of Agriculture and Technology. 272 p. Wu, W., L. X. Nie, Y. C. Liao, F. Shah, K. H. Cui, Q. Wang, Y. Lian and J. L. Huang. 2013. Toward yield improvement of early-season rice: other options under doublerice-cropping system in central China. Eur. J.
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