[1]Chen Z K, Ma H, Xia J, et al. Optimal pre-plant irrigation and fertilization can improve biomass accumulation by maintaining the root and leaf productive capacity of cotton crop [J]. Scientific Reports, 2017, 7(1): 17168. [2]白岩,毛树春,田立文,等.新疆棉花高产简化栽培技术评述与展望[J].中国农业科学, 2017, 50(1): 38-50. BAI Yan, MAO Shuchun, TIAN Liwen, et al. Advances and prospects of high-yielding and simplified cotton cultivation technology in Xinjiang cotton-growing area [J]. Scientia Agricultura Sinica, 2017, 50(1): 38-50. [3] Kusi Appiah M, Feike T, Wiredu A N, et al. Cotton production, land use change and resource competition in the Aksu-Tarim River Basin, Xinjiang, China[J]. Quarterly Journal of International Agriculture, 2014, 53(3): 243-261 [4] http://www.stats.gov.cn/tjsj/zxfb/201812/t20181229_1642170.html [5]苏荟. 新疆农业高效节水灌溉技术选择研究[D].石河子:石河子大学, 2013. SU Hui. Study on the Selection of effective water-saving irritation techniques for Xinjiang agriculture [D] Sheihezi: Shihezi University, 2013. [6]李亮科. 生产要素利用对粮食增产和环境影响研究[D].北京:中国农业大学, 2015. LI Liangke. The research on how utilization factors of agricultural production impact grain production and environment--Taking Fertilizer as an example [D]. Beijing: China Agricultural University, 2015. [7] Stocking C R, Ongun A. The Intracellular Distribution of Some Metallic Elements in Leaves [J]. American Journal of Botany, 1962, 49(3): 284. [8] Evans J R. Photosynthesis and Nitrogen Relationships in Leaves of C Plants[J]. Oecologia, 1989, 78(1): 9-19. [9] Salvagiotti F, Miralles D J. Radiation interception, biomass production and grain yield as affected by the interaction of nitrogen and sulfur fertilization in wheat [J]. European Journal of Agronomy, 2007, 28(3): 282-290. [10]马宗斌,严根土,刘桂珍,等.施氮量对黄河滩区棉花叶片生理特性、干物质积累及产量的影响[J].植物营养与肥料学报, 2013, 19(4): 849-857. MA Zongbin, YAN Gentu, LIU Guizhen, et al. Effects of nitrogen application rates on main physiological characteristics ofleaves,dry matter accumulation and yield of cotton cultivated in the Yellow River bottomlands[J]. Journal of Plant Nutrition and Fertilizer, 2013, 19(4): 849-857. [11] Egelkraut T M, Kissel D E, Cabrera M L, et al. Nitrogen concentration in cottonseed as an indicator of N availability[J]. Nutrient Cycling in Agroecosystems, 2004, 68(3): 235-242. [12] 赵新华,束红梅,王友华,等.施氮量对棉铃干物质和氮累积及分配的影响[J].植物营养与肥料学报, 2011, 17(4): 888-897. ZHAO Xinhua, SHU Hongmei, WANG Youhua, et al. Effects of nitrogen fertilization on accumulation and distribution of dry weight and nitrogen of cotton bolls [J]. Journal of Plant Nutrition and Fertilizer, 2011, 17(4): 888-897. [13] 薛晓萍,王建国,郭文琦,等.氮素水平对初花后棉株生物量、氮素累积特征及氮素利用率动态变化的影响[J].生态学报, 2006,(11): 3631-3640. XUE Xiaoping, WANG Jianguo, GUO Wenqi, et al. Effect of nitrogen applied levels on the dynamics of biomass, nitrogen accumulation and nitrogen fertilization recovery rate of cotton after initial flowering [J]. Acta Ecologica Sinica, 2006,(11): 3631-3640. [14] 王子胜,徐敏,刘瑞显,等.施氮量对不同熟期棉花品种的生物量和氮素累积的影响[J].棉花学报, 2011, 23(6): 537-544. WANG Zisheng, XU Min, LIU Ruixian, et al. Effects of nitrogen rates on biomass and nitrogen accumulation of cotton with different varieties in growth duration [J]. Cotton Science, 2011, 23(6): 537-544. [15] 勾玲,闫洁,韩春丽,等.氮肥对新疆棉花产量形成期叶片光合特性的调节效应[J].植物营养与肥料学报, 2004,(5): 488-493. GOU Ling, YAN Jie, HAN Chunli, et al. Effects of nitrogen rates on Photosynthetic characteristics and yield of high-yielding cotton in Xinjiang [J]. Plant Nutrition and Fertilizer Science, 2004,(5): 488-493. [16] Shangguan Z P, Shao M A, Dyckmans J. Nitrogen nutrition and water stress effects on leaf photosynthetic gas exchange and water use efficiency in winter wheat [J]. Environmental and Experimental Botany, 2000, 44(2): 141-149. [17] 刘瑞显,王友华,陈兵林,等.花铃期干旱胁迫下氮素水平对棉花光合作用与叶绿素荧光特性的影响[J].作物学报, 2008,(4): 675-683. LIU Ruixian, WANG Youhua, CHEN Binglin, et al. Effects of nitrogen levels on photosynthesis and chlorophyll fluorescence characteristics under drought stress in cotton flowering and boll-forming stage [J]. Acta Agronomica Sinica, 2008,(4): 675-683. [18] 娄善伟,张巨松,罗新宁,等.施氮水平对棉花农艺性状、倒四叶光合特性及产量的影响[J].新疆农业大学学报, 2009, 32(1): 39-42. LOU Shanwei, ZHANG Jusong, LUO Xinning, et al. Influence of nitrogenous fertilizer level on agronomic characters, fourth leaf from top photosynthetic characteristics and yield of cotton [J]. Journal of Xinjiang Agricultural University, 2009, 32(1): 39-42. [19] 李伶俐,房卫平,谢德意,等.施氮量对杂交棉光合生理特性及产量、品质的影响[J].植物营养与肥料学报, 2010, 16(5): 1183-1189. LI Lingli, FANG Weiping, XIE Deyi, et al. Effects of nitrogen application rates on photosynthetic and physiological characteristics and yield and quality of hybrid cotton [J]. Plant Nutrition and Fertilizer Science, 2010, 16(5): 1183-1189. [20] 刘敬然,赵文青,周治国,等.施氮量与播种期对棉花产量和品质及棉铃对位叶光合产物的影响[J].植物营养与肥料学报, 2015,21(4): 951-961. LIU Jingran, ZHAO Wenqing, ZHOU Zhiguo, et al. Effects of nitrogen rates and planting dates on yield,quality and photosynthate contents in the subtending leaves of cotton boll [J]. Journal of Plant Nutrition and Fertilizer, 2015,21(4): 951-961. [21] 鞠正春,于振文.追施氮肥时期对冬小麦旗叶叶绿素荧光特性的影响[J].应用生态学报, 2006,(3): 3395-3398. JU Zhengchun, YU Zhenwen, et al. Effects of nitrogen topdressing at different growth stage on chlorophyll fluorescence of winter wheat flag leaves [J]. Chinese Journal of Applied Ecology, 2006,(3): 3395-3398. [22] 陈兵,张国蕾,王静,等.机采棉等行距密植模式下棉花脱叶催熟效果研究[J].西北农业学报, 2019, 28(10): 1594-1601. CHEN Bing, ZHANG Guolei, WANG Jing, et al. Effect of different defoliants on machine-harvesting cotton under equal spacing and dense planting model [J]. Acta Agriculturae Boreali-occidentalis Sinica, 2019, 28(10): 1594-1601. [23] 王方永,余渝,刘景德,等.新疆兵团第六师机采棉提质增效关键技术规程[J].中国棉花, 2019, 46(4): 42-43. WANG Fangyong, YU Yu, LIU Jingde, et al. Key technical regulations for improving quality and efficiency of machine-harvested cotton in the sixth division of Xinjiang corps[J]. China Cotton, 2019, 46(4): 42-43. [24] 马锦颖,王方永,韩焕勇.种植模式对棉花农艺及产量和品质的影响[J].中国棉花,2019, 46(6): 28-30. MA Jinying, WANG Fangyong, HAN Huanyong. Effect of planting patterns on cotton agronomy characters, yield and fiber quality [J]. China Cotton, 2019, 46(6): 28-30. [25] 韩焕勇,王方永,余渝,等.新疆早熟机采棉膜下滴灌等行距密植栽培技术[J].中国棉花,2016,43(10):39-40. HAN Huanyong, WANG Fangyong, YU Yu, et al. Cultivation techniques of wide-row spacing with high density under drip irrigation of film for early maturing machine-harvested cotton in Xinjiang [J]. China Cotton 2016, 43(10):39-40. [26] Wang F Y, Han H Y, Lin H, et al. Effects of planting patterns on yield, quality, and defoliation in machine-harvested cotton[J]. Journal of Integrative Agriculture, 2019, 18(9): 2019-2028. [27] 魏廷邦,柴强,王伟民,等.水氮耦合及种植密度对绿洲灌区玉米光合作用和干物质积累特征的调控效应[J].中国农业科学, 2019, 52(3): 428-444. WEI Tingbang, CHAI Qiang, WANG Weimin, et al. Effects of coupling of irrigation and nitrogen application as well as planting density on photosynthesis and dry matter accumulation characteristics of maize in oasis irrigated areas[J]. Scientia Agricultura Sinica, 2019, 52(3): 428-444. [28] 罗宏海,张宏芝,陶先萍,等.水氮运筹对膜下滴灌棉花光合特性及产量形成的影响[J].应用生态学报, 2013, 24(2): 407-415. LUO Honghai, ZHANG Hongzhi, TAO Xianping, et al. Effects of water and nitrogen management modes on the leaf photosynthetic characters and yield formation of cotton with under-mulch drip irrigation. [J]. Chinese Journal of Applied Ecology, 2013, 24(2): 407-415. [29] 孙红春,冯丽肖,谢志霞,等.不同氮素水平对棉花不同部位—铃叶系统生理特性及铃重空间分布的影响[J].中国农业科学, 2007,(8): 1638-1645. SUN Hongchun, FENG Lixiao, XIE Zhixia, et al. Physiological characteristics of boll-leaf system and boll weight space distributing of cotton under different nitrogen levels [J]. Scientia Agricultura Sinica, 2007,(8): 1638-1645. [30] Reddy K R, Koti S, Davidonis G H, et al. Interactive effects of carbon dioxide and nitrogen nutrition on cotton growth, development, yield, and fiber quality[J]. Agronomy Journal, 2004, 96(4): 1148-1157. [31] Fernáandez C J, Mcinnes K J, Cothren JT. Water Status and Leaf Area Production in Water‐ and Nitrogen‐Stressed Cotton [J]. Crop Science, 1996, 36(5): 1224-1233. [32] Zheng M, Wang Y H, Liu K, et al. Protein expression changes during cotton fiber elongation in response to low temperature stress [J]. Journal of Plant Physiology, 2012, 169(4): 399-409. [33] 罗宏海,张宏芝,杜明伟,等.膜下滴灌下土壤深层水分对棉花根系生理及叶片光合特性的调节效应[J].应用生态学报, 2009, 20(6): 1337-1345. LUO Honghai, ZHANG Hongzhi, DU Mingwei, et al. Regulation effect of water storage in deeper soil layers on root physiological characteristics and leaf photosynthetic traits of cotton with drip irrigation under mulch [J]. Chinese Journal of Applied Ecology, 2009, 20(6): 1337-1345. [34] 郭盛磊,阎秀峰,白冰,等.供氮水平对落叶松幼苗光合作用的影响[J].生态学报, 2005,(6): 1291-1298. GUO Shenglei, YAN Xiufeng, BAI Bing, et al. Effects of nitrogen supply on photosynthesis in larch seedlings [J]. Acta Ecologica Sinica, 2005,(6): 1291-1298. [35] 郭天财,冯伟,赵会杰,等.2种穗型冬小麦品种旗叶光合特性及氮素调控效应[J].作物学报, 2004,(2): 115-121. GUO Tiancai, FENG Wei, ZHAO Huijie, et al. Photosynthetic characteristics of flag leaves and nitrogen effects in two w inter w heat cultivars with different spike type [J]. Acta Agronomica Sinica, 2004,(2): 115-121. [36] 张旺锋,勾玲,王振林,等.氮肥对新疆高产棉花叶片叶绿素荧光动力学参数的影响[J].中国农业科学, 2003,(8): 893-898. ZHANG Wangfeng, GOU Ling, WANG Zhenlin, et al. Effect of nitrogen on chlorophyll fluorescence of leaves of high-yielding cotton in Xinjiang[J]. Scientia Agricultura Sinica, 2003,(8): 893-898. [37] 宋兴虎,Tufail Ahmed Wagan, Biangkham Souliyanonh,等.氮肥用量及其后效对棉花产量和生物质累积动态的影响[J].棉花学报,2018,30(2):145-154. SONG Xinghu, Tufail Ahmed Wagan, Biangkham Souliyanonh, et al. Nitrogen fertilizer and its residual effect on cotton yield and biomass accumulation [J]. Cotton Science, 2018, 30(2):145-154. [38] 李鹏程,董合林,刘爱忠,等.施氮量对棉花功能叶片生理特性、氮素利用效率及产量的影响[J].植物营养与肥料学报, 2015, 21(1): 81-91. LI Pengcheng, DONG Helin, LIU Aizhong, et al. Effects of nitrogen application rates on physiological characteristics of functional leaves nitrogen use efficiency and yield of cotton [J]. Journal of Plant Nutrition and Fertilizer, 2015, 21(1): 81-91. [39] 张杰锟. 棉花氮代谢对一次施肥时间的响应特性[D].武汉:华中农业大学, 2014. ZHANG Jiekun. Response of cotton nitrogen metabolism to once fertilization time [D]. Wuhan: Huazhong Agricultural University, 2014. |