[1] 姚雄. 试论四川机插水稻发展的难点与对策[A]. 中国农业工程学会.纪念中国农业工程学会成立30周年暨中国农业工程学会2009年学术年会(CSAE 2009)论文集[C]. 北京: 中国农业工程学会, 2009: 5. [2] 陈霖, 孙伟, 张云彪. 四川地区水稻插秧机的现状及对策研究[J]. 农机化研究, 2012, 34(05): 224-227. [3] 胡梦甜, 韩永伟, 尚洪磊, 等. 3种水稻种植模式的减氮效应和经济性评估[J]. 环境科学研究, 2018, 31(03): 577-584. [4] 万瑜. 水稻田地下水污染源解析[D]. 杭州: 浙江工业大学, 2012: 37-53. [5] 陈长海. 水稻插秧机螺旋搅龙式侧深施肥装置的设计与试验研究[D]. 大庆: 黑龙江八一农垦大学, 2016: 7-51. [6] 左兴健, 武广伟, 付卫强, 等. 风送式水稻侧深精准施肥装置的设计与试验[J].农业工程学报, 2016, 32(03): 14-21. [7] 邢春秋, 陈振, 曲景印, 等. 北方寒地水稻锦禾宽窄行侧深施肥机插技术及应用效果[J].北方水稻, 2017, 47(06): 33-34. [8] 杨成林, 王丽妍. 不同侧深施肥方式对寒地水稻生长、产量及肥料利用率的影响[J]. 中国稻米, 2018, 24(02): 96-99. [9] 李子建, 马德仲. 应用侧深施肥技术实现水稻绿色安全生产的调查分析[J]. 江苏农业科学, 2018, 46(11):48-51. [10] Jian Ke, Xiaoming Xing, Ganghua Li a, et al. Effects of different controlled-release nitrogen fertilizers on ammonia volatilization, nitrogen use efficiency and yield of blanket-seedling machine-transplanted rice [J]. Field Crops Research, 2017, 205: 147–156. [11] Shenggang Pan, Xiangcheng Wen, Zaiman Wang, et al. Benefits of mechanized deep placement of nitrogen fertilizer in direct-seeded rice in South China [J]. Field Crops Research, 2017, 203: 139-149. [12] 赵红玉, 徐寿军, 杨成林, 等. 侧深施肥技术对寒地水稻生长及产量形成的影响[J]. 内蒙古民族大学学报(自然科学版), 2017, 32(04): 347-352. [13] 王海月, 李玥, 孙永健, 等. 不同施氮水平下缓释氮肥配施对机插稻氮素利用特征及产量的影响[J]. 中国水稻科学, 2017, 31(01): 50-64. [14] 孙永健, 马均, 孙园园, 等. 施氮量和株距对机插杂交稻结实期养分转运和产量的影响[J]. 核农学报, 2014, 28(08): 1510-1520. [15] Liu T.Q., Fan D.J., Zhang X.X., et al. Deep placement of nitrogen fertilizers reduces ammonia volatilization and increases nitrogen utilization efficiency in no-tillage paddy fields in central China [J]. Field Crops Research, 2015, 184: 80-90. [16] Zhisheng Yao, Xunhua Zheng, Yanan Zhang, at al. Urea deep placement reduces yield-scaled greenhouse gas (CH4 and N2O) and NO emissions from a ground cover rice production system [J]. Scientific Reports, 2017, 7: 11415. [17] Azmul Hud, Yam Kanta Gaihre, M. R. Islam, et al. Floodwater ammonium, nitrogen use efficiency and rice yields with fertilizer deep placement and alternate wetting and drying under triple rice cropping systems [J]. Nutrient Cycling in Agroecosystems, 2016, 104: 53-66. [18] Yuanlin Yao, Min Zhang, Yuhua Tian, et al. Urea deep placement in combination with Azolla for reducing nitrogen loss and improving fertilizer nitrogen recovery in rice field [J]. Field Crops Research, 2018, 218: 141-149. [19] Yam Kanta Gaihre, Upendra Singh, S.M. Mofijul Islam, et al. Impacts of urea deep placement on nitrous oxide and nitric oxide emissions from rice fields in Bangladesh [J]. Geoderma, 2015, 259-260: 370-379. [20] Alimata Bandaogo, Fofana Bidjokazo, Sansan Youl, et al. Effect of fertilizer deep placement with urea supergranule on nitrogen use efficiency of irrigated rice in Sourou Valley (Burkina Faso) [J]. Nutrient Cycling in Agroecosystems, 2015, 102: 79-89. [21] 朱从桦, 陈惠哲, 张玉屏, 等. 机械侧深施肥对机插早稻产量及氮肥利用率的影响[J]. 中国稻米, 2019, 25(01): 40-43. [22] Md. Abdul Mazid Miah, Yam Kanta Gaihre, Grahame Hunter, et al. Fertilizer deep placement increases rice production: evidence from farmers’ fields in southern Bangladesh [J]. Agronomy Journal, 2016, 108: 805-812. [23] Liwei Guo, Tangyuan Ning, Liangpeng Nie, Zengjia Li annd Rattan Lal. Interaction of deep placed controlled-release urea and water retention agent on nitrogen and water use and maize yield [J]. European Journal of Agronomy, 2016, 75: 118-129. [24] 李殿平, 曹海峰, 张俊宝, 等. 全程深施肥对水稻产量形成及稻米品质的影响[J]. 中国水稻科学, 2016, 20(1): 73-78. [25] 马昕, 杨艳明, 刘智蕾, 等. 机械侧深施控释掺混肥提高寒地水稻的产量和效益[J]. 植物营养与肥料学报, 2017, 23(4): 1095–1103.
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