Xinjiang Agricultural Sciences ›› 2023, Vol. 60 ›› Issue (10): 2361-2370.DOI: 10.6048/j.issn.1001-4330.2023.10.003
• Crop Genetics and Breeding·Germplasm Resources·Molecular Genetics • Previous Articles Next Articles
ZHAI Menghua(), ZHOU Zhigang, SUN Minghui, DAI Jianmin, ZHANG Jusong()
Received:
2023-01-11
Online:
2023-10-20
Published:
2023-11-01
Correspondence author:
ZHANG Jusong (1963-), male, Jiangdu, Jiangsu, professor, research direction is high-yield cultivation of cotton physiological ecology, (E-mail)Supported by:
通讯作者:
张巨松(1963-),男,江苏人,教授,博士,硕士生/博士生导师,研究方向为棉花高产栽培与生理生态,(E-mail)作者简介:
翟梦华(1997-),女,硕士研究生,研究方向为棉花高产栽培,(E-mail)2846775389@qq.com
基金资助:
CLC Number:
ZHAI Menghua, ZHOU Zhigang, SUN Minghui, DAI Jianmin, ZHANG Jusong. Effects of planting pattern and DPC on plant type and yield of resown cotton[J]. Xinjiang Agricultural Sciences, 2023, 60(10): 2361-2370.
翟梦华, 周志刚, 孙明辉, 代健敏, 张巨松. 种植模式与缩节胺对重播棉花株型及产量的影响[J]. 新疆农业科学, 2023, 60(10): 2361-2370.
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.xjnykx.com/EN/10.6048/j.issn.1001-4330.2023.10.003
土层深度 Soil depth (cm) | pH | 全氮含量 Total nitrogen (g/kg) | 有机质含量 Organic matter (g/kg) | 速效氮含量 Available nitrogen (mg/kg) | 速效磷含量 Available phosphorus (mg/kg) | 速效钾含量 Available potassium (mg/kg) |
---|---|---|---|---|---|---|
0~20 | 8.25 | 0.3 | 6.21 | 30.8 | 25.7 | 117 |
20~40 | 8.67 | 0.22 | 4.24 | 11.2 | 8 | 68 |
40~60 | 8.26 | 0.19 | 3.44 | 16.8 | 8.8 | 106 |
Tab.1 Original soil-fertility
土层深度 Soil depth (cm) | pH | 全氮含量 Total nitrogen (g/kg) | 有机质含量 Organic matter (g/kg) | 速效氮含量 Available nitrogen (mg/kg) | 速效磷含量 Available phosphorus (mg/kg) | 速效钾含量 Available potassium (mg/kg) |
---|---|---|---|---|---|---|
0~20 | 8.25 | 0.3 | 6.21 | 30.8 | 25.7 | 117 |
20~40 | 8.67 | 0.22 | 4.24 | 11.2 | 8 | 68 |
40~60 | 8.26 | 0.19 | 3.44 | 16.8 | 8.8 | 106 |
缩节胺 剂量 DPC dose | 2片真叶 2 true leaves | 4片真叶 4 true leaves | 盛蕾期 Full bud stage | 盛花期 Full flowering stage | 打顶后7 d 7 days after topping | 总量 Total dose |
---|---|---|---|---|---|---|
B1 | 10.5 | 30 | 45 | 52.5 | 150 | 288 |
B2 | 10.5 | 60 | 75 | 112.5 | 150 | 408 |
B3 | 10.5 | 90 | 105 | 187.5 | 150 | 543 |
Tab.2 spraying period and dosage of DPC(g/hm2)
缩节胺 剂量 DPC dose | 2片真叶 2 true leaves | 4片真叶 4 true leaves | 盛蕾期 Full bud stage | 盛花期 Full flowering stage | 打顶后7 d 7 days after topping | 总量 Total dose |
---|---|---|---|---|---|---|
B1 | 10.5 | 30 | 45 | 52.5 | 150 | 288 |
B2 | 10.5 | 60 | 75 | 112.5 | 150 | 408 |
B3 | 10.5 | 90 | 105 | 187.5 | 150 | 543 |
种植 模式 Planting patterns | 化控剂量 DPC dose | 出苗 Emergency (M/D) | 现蕾 Full Squaringy (M/D) | 初花 Flower Opening (M/D) | 盛花 Full blossom (M/D) | 盛铃 Full boll (M/D) | 吐絮 Boll Opening (M/D) | 生育期 Growth Stage(d) |
---|---|---|---|---|---|---|---|---|
B1 | 5/28 | 6/22 | 7/20 | 8/3 | 8/23 | 10/5 | 130 | |
A1 | B2 | 5/28 | 6/22 | 7/18 | 7/30 | 8/21 | 10/2 | 125 |
B3 | 5/28 | 6/22 | 7/16 | 7/28 | 8/17 | 9/28 | 122 | |
B1 | 5/28 | 6/22 | 7/19 | 8/5 | 8/26 | 10/8 | 132 | |
A2 | B2 | 5/28 | 6/22 | 7/19 | 8/2 | 8/25 | 10/5 | 129 |
B3 | 5/28 | 6/22 | 7/18 | 8/2 | 8/24 | 10/5 | 129 |
Tab.3 Comparison of cotton growth period under different treatments
种植 模式 Planting patterns | 化控剂量 DPC dose | 出苗 Emergency (M/D) | 现蕾 Full Squaringy (M/D) | 初花 Flower Opening (M/D) | 盛花 Full blossom (M/D) | 盛铃 Full boll (M/D) | 吐絮 Boll Opening (M/D) | 生育期 Growth Stage(d) |
---|---|---|---|---|---|---|---|---|
B1 | 5/28 | 6/22 | 7/20 | 8/3 | 8/23 | 10/5 | 130 | |
A1 | B2 | 5/28 | 6/22 | 7/18 | 7/30 | 8/21 | 10/2 | 125 |
B3 | 5/28 | 6/22 | 7/16 | 7/28 | 8/17 | 9/28 | 122 | |
B1 | 5/28 | 6/22 | 7/19 | 8/5 | 8/26 | 10/8 | 132 | |
A2 | B2 | 5/28 | 6/22 | 7/19 | 8/2 | 8/25 | 10/5 | 129 |
B3 | 5/28 | 6/22 | 7/18 | 8/2 | 8/24 | 10/5 | 129 |
种植 模式 Planting patterns | 缩节胺 剂量 DPC dose | 主茎真 叶数 Number leaves (片) | 始果枝 高度 Branch height envoy (cm) | 倒四叶宽 Pour the four blade width (cm) | 果枝长度 Branch length (cm) | 叶柄长度 Petiole lenght (cm) | 主茎节间 长度 Internode length (cm) | 果枝夹角 Branch Angle (°) |
---|---|---|---|---|---|---|---|---|
A1 | B1 | 15.50c | 48.75a | 22.48a | 16.19a | 23.77a | 8.33a | 55.8a |
B2 | 15.50c | 33.75bc | 19.42b | 16.68a | 22.42ab | 7.76b | 54.14a | |
B3 | 16.50bc | 25.50c | 20.83ab | 16.83a | 21.02bc | 7.19c | 49.05c | |
A2 | B1 | 17.50abc | 41.70ab | 21.13ab | 17.26a | 22.83a | 8.29a | 53.43ab |
B2 | 18.00ab | 33.25bc | 20.47ab | 16.92a | 20.82c | 6.98c | 50.04bc | |
B3 | 19.50a | 24.75c | 20.01b | 13.03b | 21.28bc | 6.29d | 48.05c |
Tab.4 Morphological characteristics of cotton plants in each treatmen
种植 模式 Planting patterns | 缩节胺 剂量 DPC dose | 主茎真 叶数 Number leaves (片) | 始果枝 高度 Branch height envoy (cm) | 倒四叶宽 Pour the four blade width (cm) | 果枝长度 Branch length (cm) | 叶柄长度 Petiole lenght (cm) | 主茎节间 长度 Internode length (cm) | 果枝夹角 Branch Angle (°) |
---|---|---|---|---|---|---|---|---|
A1 | B1 | 15.50c | 48.75a | 22.48a | 16.19a | 23.77a | 8.33a | 55.8a |
B2 | 15.50c | 33.75bc | 19.42b | 16.68a | 22.42ab | 7.76b | 54.14a | |
B3 | 16.50bc | 25.50c | 20.83ab | 16.83a | 21.02bc | 7.19c | 49.05c | |
A2 | B1 | 17.50abc | 41.70ab | 21.13ab | 17.26a | 22.83a | 8.29a | 53.43ab |
B2 | 18.00ab | 33.25bc | 20.47ab | 16.92a | 20.82c | 6.98c | 50.04bc | |
B3 | 19.50a | 24.75c | 20.01b | 13.03b | 21.28bc | 6.29d | 48.05c |
种植模式 Planting patterns | 缩节胺剂量 DPC dose | 收获株数 Plant Number (104/hm2) | 单株结铃数 Boll number per plant (个) | 单铃重 Boll number per plant (g) | 衣分 Lint percentage (%) | 皮棉产量 Lint cotton yield (kg/hm2) |
---|---|---|---|---|---|---|
A1 | B1 | 14.25a | 5.17bc | 6.10ab | 0.39a | 1 735.65ab |
B2 | 14.30a | 5.53ab | 6.28ab | 0.38a | 1 863.08ab | |
B3 | 14.10a | 6.09a | 6.45a | 0.38a | 2 107.62a | |
A2 | B1 | 13.65a | 4.78c | 5.74ab | 0.38a | 1 438.65b |
B2 | 15.15a | 5.35bc | 6.08ab | 0.38a | 1 887.05a | |
B3 | 14.75a | 4.89bc | 5.78b | 0.38a | 1 588.42ab | |
种植模式 Planting patterns | NS | ** | * | NS | NS | |
缩节胺DPC | NS | * | NS | NS | * | |
种植模式×缩节胺 Planting patterns×DPC | NS | NS | NS | NS | NS |
Tab.5 Effects of different treatments on cotton yield components
种植模式 Planting patterns | 缩节胺剂量 DPC dose | 收获株数 Plant Number (104/hm2) | 单株结铃数 Boll number per plant (个) | 单铃重 Boll number per plant (g) | 衣分 Lint percentage (%) | 皮棉产量 Lint cotton yield (kg/hm2) |
---|---|---|---|---|---|---|
A1 | B1 | 14.25a | 5.17bc | 6.10ab | 0.39a | 1 735.65ab |
B2 | 14.30a | 5.53ab | 6.28ab | 0.38a | 1 863.08ab | |
B3 | 14.10a | 6.09a | 6.45a | 0.38a | 2 107.62a | |
A2 | B1 | 13.65a | 4.78c | 5.74ab | 0.38a | 1 438.65b |
B2 | 15.15a | 5.35bc | 6.08ab | 0.38a | 1 887.05a | |
B3 | 14.75a | 4.89bc | 5.78b | 0.38a | 1 588.42ab | |
种植模式 Planting patterns | NS | ** | * | NS | NS | |
缩节胺DPC | NS | * | NS | NS | * | |
种植模式×缩节胺 Planting patterns×DPC | NS | NS | NS | NS | NS |
性状 Traits | 倒四叶宽 Pour the four blade width | 果枝长度 Branch length | 叶柄长度 Petiole lenght | 主茎节间长度 Internode length | 果枝夹角 Branch Angle | 皮棉产量 Lint cotton yield |
---|---|---|---|---|---|---|
倒四叶宽Pour the four blade width | 1 | |||||
果枝长度Branch length | 0.455 | 1 | ||||
叶柄长度Petiole lenght | -0.369 | -0.671** | 1 | |||
主茎节间长度Petiole lenght | 0.556* | 0.167 | -0.368 | 1 | ||
果枝夹角Branch Angle | 0.349 | 0.205 | -0.612** | 109 | 1 | |
皮棉产量Lint cotton yield | -0.267 | 0.146 | 0.230 | -0.488* | -0.471* | 1 |
Tab.6 Correlation analysis between main plant type traits and ginned cotton yield
性状 Traits | 倒四叶宽 Pour the four blade width | 果枝长度 Branch length | 叶柄长度 Petiole lenght | 主茎节间长度 Internode length | 果枝夹角 Branch Angle | 皮棉产量 Lint cotton yield |
---|---|---|---|---|---|---|
倒四叶宽Pour the four blade width | 1 | |||||
果枝长度Branch length | 0.455 | 1 | ||||
叶柄长度Petiole lenght | -0.369 | -0.671** | 1 | |||
主茎节间长度Petiole lenght | 0.556* | 0.167 | -0.368 | 1 | ||
果枝夹角Branch Angle | 0.349 | 0.205 | -0.612** | 109 | 1 | |
皮棉产量Lint cotton yield | -0.267 | 0.146 | 0.230 | -0.488* | -0.471* | 1 |
种植模式 Planting pattern | 缩节胺剂量 DPC dose | 纤维长度 Fiber length (mm) | 纤维整齐度 Fiber uniformity (%) | 断裂比强度 Specific strength at break (cN/tex) | 伸长率 Fiber elongation (%) | 马克隆值 Micronaire | 纺织参数 Textile parameters |
---|---|---|---|---|---|---|---|
A1 | B1 | 33.3a | 86.9a | 29.8a | 13.0a | 3.9a | 160.0a |
B2 | 32.4a | 88.0a | 31.4a | 11.8a | 4.0a | 166.7a | |
B3 | 33.1a | 87.9a | 31.4a | 12.3a | 3.8a | 168.7a | |
A2 | B1 | 32.5a | 86.3a | 30.6a | 12.2a | 3.7a | 160.0a |
B2 | 32.5a | 87.2a | 30.7a | 12.2a | 3.9a | 162.0a | |
B3 | 32.5a | 86.1a | 29.8a | 12.7a | 3.7a | 156.7a |
Tab.7 Effects of planting patterns and ketamine on fiber quality of replanted cotton
种植模式 Planting pattern | 缩节胺剂量 DPC dose | 纤维长度 Fiber length (mm) | 纤维整齐度 Fiber uniformity (%) | 断裂比强度 Specific strength at break (cN/tex) | 伸长率 Fiber elongation (%) | 马克隆值 Micronaire | 纺织参数 Textile parameters |
---|---|---|---|---|---|---|---|
A1 | B1 | 33.3a | 86.9a | 29.8a | 13.0a | 3.9a | 160.0a |
B2 | 32.4a | 88.0a | 31.4a | 11.8a | 4.0a | 166.7a | |
B3 | 33.1a | 87.9a | 31.4a | 12.3a | 3.8a | 168.7a | |
A2 | B1 | 32.5a | 86.3a | 30.6a | 12.2a | 3.7a | 160.0a |
B2 | 32.5a | 87.2a | 30.7a | 12.2a | 3.9a | 162.0a | |
B3 | 32.5a | 86.1a | 29.8a | 12.7a | 3.7a | 156.7a |
[1] | 马俊凯. 全程机械化是棉花生产的根本出路[J]. 中国纤检, 2014,(1): 28-30. |
MA Junkai. The whole process mechanization is the fundamental outlet of cotton production[J]. China Fiber Inspection, 2014,(1): 28-30. | |
[2] | 喻树迅, 张雷, 冯文娟. 快乐植棉—中国棉花生产的发展方向[J]. 棉花学报, 2015, 27(3): 283-290. |
YU Shuxun, ZHANG Lei, FENG Wenjuan. Happy cotton planting — The development direction of Cotton production in China[J]. China Cotton, 2015, 27(3): 283-290. | |
[3] | 齐海坤, 严根土, 王宁, 等. 株型育种在机采棉应用中的研究进展[J]. 中国农业信息, 2016,(2): 75-77. |
QI Haikun, YAN Gentu, WANG Ning, et al. Research progress of plant type breeding in mechanized cotton picking[J]. China Agricultural Informatics, 2016, (2): 75-77. | |
[4] | 辛明华, 王占彪, 韩迎春, 等. 新疆机采棉发展回顾、现状分析及措施建议[J]. 中国农业科技导报, 2021, 23(7): 11-20. |
XIN Minghua, WANG Zhanbiao, HAN Yingchun, et al. Review of development, analysis of present situation and suggestions of mechanical cotton picking in Xinjiang[J]. Journal of Agricultural Science and Technology, 2021, 23(7): 11-20. | |
[5] | 魏鑫, 徐建辉, 张巨松. 种植模式对机采棉干物质积累及品质的影响[J]. 新疆农业科学, 2017, 54(7): 1177-1184. |
WEI Xin, XU Jianhui, ZHANG Jusong. Effects of planting patterns on dry matter accumulation and quality of machine-picked cotton[J]. Xinjiang Agricultural Sciences, 2017, 54(7): 1177-1184. | |
[6] | 史加亮, 赵文超, 董灵艳, 等. 不同种植模式对棉花产量及品质的影响[J]. 山东农业科学, 2020, 52(5): 42-46. |
SHI Jialiang, ZHAO Wenchao, DONG Lingyan, et al. Effects of different planting patterns on cotton yield and quality[J]. Shandong Agricultural Sciences, 2020, 52(5): 42-46. | |
[7] | 李建峰, 梁福斌, 陈厚川, 等. 棉花机采模式下株行距配置对农艺性状及产量的影响[J]. 新疆农业科学, 2016, 53(8): 1390-1396. |
LI Jianfeng, LIANG Fubin, CHEN Houchuan, et al. Effects of plant and row spacing on agronomic traits and yield of cotton under mechanical harvesting mode[J]. Xinjiang Agricultural Sciences, 2016, 53(8): 1390-1396. | |
[8] | Osman C, Ufuk D, Mehmet K. Effects of several Plant Growth Regulators on the Yield and Fiber Quality of Cotton (Gossypium hirsutum L.)[J]. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 2010, 38(3): 104-110. |
[9] | 刘帅, 董合林, 李亚兵. 艾氟迪和缩节胺不同处理对黄河流域棉花产量的影响[J]. 中国棉花, 2018, 45(2): 19-23. |
LIU Shuai, DONG Helin, LI Yabing. Effects of Different Applying Methods of AFD and DPC on Cotton Yield in the Yellow River Cotton Planting Region[J]. China Cotton, 2018, 45(2): 19-23. | |
[10] | ZHAO Wenqing, YAN Qiang, YANG Hongkun, et al. Effects of mepiquat chloride on yield and main properties of cottonseed under different plant densities[J]. Journal of Cotton Research, 2019, 2(2): 77-86. |
[11] | 夏冰, 任晓明, 杜明伟, 等. 黄河流域棉区秸秆还田下机采棉的氮肥用量和利用率研究[J]. 棉花学报, 2016, 28(4): 315-323. |
XIA Bing, REN Xiaoming, DU Mingwei, et al. Study on nitrogen fertilizer dosage and utilization rate of straw returning cotton in cotton area of Yellow River Basin[J]. Cotton Science, 2016, 28(4): 315-323. | |
[12] | Mao L, Zhang L, Sun X, et al. Use of the beta growth function to quantitatively characterize the effects of plant density and a growth regulator on growth and biomass partitioning in cotton[J]. Field Crops Research, 2018, 224. |
[13] | 石治鹏, 李敏, 林忠旭, 等. 缩节胺对棉花生长发育的调控效应研究进展[J]. 河南农业科学, 2017, 46(7): 1-8. |
SHI Zhipeng, LI Min, LIN Zhongxu, et al. Review on the regulation effect of DPC on cotton growth and development[J]. Journal of Henan Agricultural Sciences, 2017, 46(7): 1-8. | |
[14] | 严建昌. 阿克苏地区冰雹灾害对棉花生产的影响[J]. 南方农业, 2016, 10(21): 218-220. |
YAN Jianchang. Influence of hail disaster on cotton production in Aksu area[J]. Southern Agriculture, 2016, 10(21): 218-220. | |
[15] | 郝宏蕾, 童忠, 张琴. 晚春风灾对新疆棉花生产的危害及防御对策[J]. 中国棉花, 2019, 46(1): 43-46. |
HAO Honglei, TONG Zhong, ZHANG Qin. Harm of late spring wind disaster to Cotton production in Xinjiang and prevention countermeasures[J]. China Cotton, 2019, 46(1): 43-46. | |
[16] | 曹护林, 陈建华, 邓军, 等. 棉花苗期低温灾后重播对棉花产量和品质的影响[J]. 中国棉花, 2005,(12): 13. |
CAO Hulin, CHEN Jianhua, DENG Jun, et al. Effects of reseeding at seedling stage after low temperature disaster on cotton yield and quality[J]. China Cotton, 2005,(12): 13. | |
[17] |
牛玉萍, 陈宗奎, 杨林川, 等. 干旱区滴灌模式和种植密度对棉花生长和产量性能的影响[J]. 作物学报, 2016, 42(10): 1506-1515.
DOI |
NIU Yuping, CHEN Zongkui, YANG Linchuan, et al. Effect of Drip Irrigation Pattern and Planting Density on Growth and Yield Performance of Cotton in Arid Area[J]. Acta Agronomica Sinica, 2016, 42(10): 1506-1515.
DOI |
|
[18] | 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. Effects of planting patterns on agronomy yield and quality of cotton[J]. China Cotton, 2019, 46(6): 28-30. | |
[19] |
Shahbaz, Atta, Tung, et al. Mepiquat chloride effects on potassium acquisition and functional leaf physiology as well as lint yield in highly dense late-sown cotton[J]. Industrial Crops and Products, 2019, 129:142-155.
DOI |
[20] | 刘铨义, 周晶, 王文博, 等. 缩节胺对棉花品种生理生育特性影响研究[J]. 新疆农业科学, 2015, 52(7): 1280-1284. |
LIU Quanyi, ZHOU Jing, WANG Wenbo, et al. Effects of DPC on physiological growth characteristics of Cotton varieties[J]. Xinjiang Agricultural Sciences, 2015, 52(7): 1280-1284. | |
[21] | 邢晋, 张思平, 赵新华, 等. 种植密度和缩节胺互作对棉花株型及产量的调控效应[J]. 棉花学报, 2018, 30(1): 53-61. |
XING Jin, ZHANG Siping, ZHAO Xinhua, et al. Interaction of planting density and DPC on cotton plant type and yield[J]. Cotton Science, 2018, 30(1): 53-61. | |
[22] |
蔡晓虎, 史亚辉, 林萍, 等. 氟节胺与缩节胺联合使用对棉花生长发育调控的影响[J]. 新疆农业科学, 2019, 56(11): 1997-2005.
DOI |
CAI Xiaohu, SHI Yahui, LIN Ping, et al. Effects of flutamide and DPC combined on cotton growth and development regulation[J]. Xinjiang Agricultural Sciences, 2019, 56(11): 1997-2005.
DOI |
|
[23] | 李林. 缩节胺调控方式对棉花农艺性状及产量影响研究[D]. 阿拉尔: 塔里木大学, 2016. |
LI Lin. Effects of DPC regulation on agronomic traits and yield of cotton[D]. Aral: Tarim University, 2016. | |
[24] |
刘丽英, 戴茂华, 吴振良. 缩节胺对黄河流域机采棉农艺性状、产量和品质的影响及化控技术研究[J]. 中国农学通报, 2018, 34(33): 38-42.
DOI |
LIU Liying, DAI Maohua, WU Zhenliang. Effects of DPC on agronomic traits yield and quality of machine-picked cotton and chemical control technology in Yellow River Basin[J]. Chinese Agricultural Science Bulletin, 2018, 34(33): 38-42. | |
[25] |
杨培, 陈振, 阿不都卡地尔·库尔班, 等. 对等密度条件下机采棉不同种植模式的综合评价[J]. 新疆农业科学, 2019, 56(4): 599-609.
DOI |
YANG Pei, CHEN Zhen, Abdel Katir Kuerban, et al. Comprehensive evaluation of different planting patterns of machine-picked cotton under the condition of equal density[J]. Xinjiang Agricultural Sciences, 2019, 56(4): 599-609.
DOI |
|
[26] | 程林, 郑新疆, 朱晓平, 等. 一膜三行等行距栽培模式对棉花生长及产量的影响[J]. 安徽农业科学, 2017, 45(1): 44-45. |
CHENG Lin, ZHENG Xinjiang, ZHU Xiaoping, et al. Effects of cultivation pattern with one film and three equal row spacing on cotton growth and yield[J]. Journal of Anhui Agricultural Sciences, 2017, 45 (1): 44-45. | |
[27] | 李健伟, 吴鹏昊, 石洪亮, 等. 不同机采棉种植模式对棉花主要植株形态影响效应分析[J]. 干旱地区农业研究, 2018, 36(5): 82-87. |
LI Jianwei, WU Penghao, SHI Hongliang, et al. Analysis on the effect of different cotton harvesting planting patterns on cotton main plant morphology[J]. Agricultural Research in the Arid Areas, 2018, 36(5): 82-87. | |
[28] | Poorter H, Ülo Niinemets, Poorter L, et al. Causes and consequences of variation in leaf mass per area (LMA): a meta-analysis[J]. New Phytologist, 2009, 182(3). |
[29] | 许东恒, 石玉海, 孙宁, 等. 氮肥运筹对玉米叶片光合速率、比叶重和SPAD值的影响[J]. 玉米科学, 2010, 18(6): 102-106. |
XU Dongheng, SHI Yuhai, SUN Ning, et al. Effects of Nitrogen Application on Photosynthetic Rate, Specific Leaf Weight and SPAD Value in Leaf of Maize[J]. Journal of Maize Sciences, 2010, 18(6) : 102-106. | |
[30] | 林贤青, 朱德峰, 周伟军, 等. 超级杂交稻穗分化期叶片比叶重与光合速率的关系[J]. 中国水稻科学, 2003(3): 92-94. |
LIN Xianqing, ZHU Defeng, ZHOU Weijun, et al. Relationship between specific leaf weight and photosynthetic rate of super hybrid rice at panicle differentiation stage[J]. Chinese Journal of Rice Science, 2003, (3): 92-94. | |
[31] | 何庆雨, 代建敏, 窦巧巧, 等. 化学调控对干旱后棉花冠层时空分布及产量的影响[J]. 西北农业学报, 2021, 30(6): 860-869. |
HE Qingyu, DAI Jianmin, DOU Qiaoqiao, et al. Effects of chemical regulation on spatial and temporal distribution and yield of cotton canopy after drought[J]. Acta Agriculturae Boreali-occidentalis Sinica, 2021, 30(6): 860-869. |
[1] | ZHOU Xiaoyun, LEI Bin, ZHANG Jungao, LIANG Jing, GONG Jingyun, ZHOU Guangwei, ZHANG Shaomin, LI Jin. Comparative analysis of physiological and biochemical characteristics of cold tolerance of cotton seedlings coated with 7.2% carboxin and 40% amicarthiazol [J]. Xinjiang Agricultural Sciences, 2024, 61(1): 176-183. |
[2] | ZHAO Kang, REN Dan, LIANG Weiwei, PANG Bo, MA Shangjie, ZHANG Mengyuan, GAO Wenwei. Relationship between main agronomic traits and yield per plant of upland cotton reciprocal cross F2∶3 families [J]. Xinjiang Agricultural Sciences, 2024, 61(1): 19-25. |
[3] | LUO Linyi, CHEN Ruijie, RUAN Xiangyang, REN Xiaohui, QU Ao, SU Haiting, YE Jun. Effects of microbial agents on soil nutrients,cotton yield and quality in drip irrigation cotton fields [J]. Xinjiang Agricultural Sciences, 2024, 61(1): 26-33. |
[4] | CHENG Zhihui, LI Hongmei, ZHAO Hongmei, TU Yongfeng, SONG Haiying, SHENG Jiandong. Analysis of nutrient use efficiency in cotton fields with 15N isotope labeled nitrogen fertilizer [J]. Xinjiang Agricultural Sciences, 2024, 61(1): 34-41. |
[5] | OUYANG Danhua, ZHAO Kang, SONG Dongbo, LIU Ziqing, GUO Wangzhen, LIU Yan, GU Aixing, Azhatiguli Maimaitituer, Alikaerjiang Amaier. Identification and comprehensive analysis of Verticillium wilt resistance in 35 cotton strains [J]. Xinjiang Agricultural Sciences, 2024, 61(1): 9-18. |
[6] | LIU Haijun, ZHANG Hao, WANG Yifan, CHEN Maoguang, WU Fengquan, LIN Tao, TANG Qiuxiang. Effects of different mulching materials and irrigation on yield formation and effective accumulated temperature production efficiency of machine-picked cotton [J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2091-2100. |
[7] | CHEN Maoguang, LIN Tao, ZHANG Hao, LIU Haijun, WANG Yifan, TANG Qiuxiang. Effects of mulch film types on cotton growth and analysis of self-degradation recycling characteristics [J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2101-2108. |
[8] | WANG Hui, GUO Jincheng, SONG Jia, ZHANG Tingjun, He Liangrong. Physiological and biochemical analysis of transgenic offspring of upland cotton GhCIPK6 under high temperature Stress [J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2109-2119. |
[9] | YANG Chuan, ZHANG Kai, CHEN Bing, ZHANG Hui, LIU Ping, CHANG Song, SHENG Jiandong. Responses of morphological characteristics of cotton to different water conditions [J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2120-2127. |
[10] | ZHU Yujie, LIN Ling, TANG Guangmu, ZHANG Yunshu, XU Wanli. Effect of modified cotton straw charcoal on ammonia volatilization characteristics of nitrogen fertilizer in grey desert soils of Xinjiang [J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2128-2137. |
[11] | YANG Guojiang, CHEN Yun, LIN Xiangqun, HE Jiangyong, LIU Shenglin, QU Yongqing. Effects of organic fertilizer replacement on the yield and nutrient absorption of cotton and nitrate nitrogen under chemical fertilizer reduction [J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2138-2145. |
[12] | WANG Xin, LIN Tao, CUI Jianping, WU Fengquan, TANG Zhixuan, CUI Laiyuan, GUO Rensong, WANG Liang, ZHENG Zipiao. Effects of planting mode and irrigation quota on yield and fiber quality of machine-picked long-staple cotton [J]. Xinjiang Agricultural Sciences, 2023, 60(8): 1821-1829. |
[13] | LI Xueling, GUO Junxian, CHEN Li, SONG Heling, ZHANG Zhong. Effects of Different Film Mulching Width on Cotton Farmland Environment [J]. Xinjiang Agricultural Sciences, 2023, 60(8): 1840-1847. |
[14] | YANG Ni, Mayila Yusuyin, YANG Yanlong, LI Chunping, ZHANG Dawei, XU Haijiang, LAI Chengxia. Comparative analysis of plant volatiles from the Verticillium-Infected withered spot and etiolated leaves in cotton [J]. Xinjiang Agricultural Sciences, 2023, 60(8): 1975-1986. |
[15] | Mierzhati Mutalifu, SHI Xiunan, BO Junbing, Zubaidai Abudukerimu, Wulejialehasi Azhati, SHI Shubing. Effects of different delinting modes on seed vigor and seedling characteristics of cotton under PEG stress [J]. Xinjiang Agricultural Sciences, 2023, 60(7): 1561-1568. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||