Xinjiang Agricultural Sciences ›› 2023, Vol. 60 ›› Issue (9): 2146-2151.DOI: 10.6048/j.issn.1001-4330.2023.09.008
• Crop Genetics and Breeding·Germplasm Resources·Molecular Genetics·Soil Fertilizer • Previous Articles Next Articles
CHEN Chuanxin1,2(), ZHNAG Yongqiang1,2, NIE Shihui1,2, KONG Depeng3, Sailihan Sai1,2, XU Qijiang1,2, LEI Junjie1,2()
Received:
2022-12-15
Online:
2023-09-20
Published:
2023-09-19
Correspondence author:
LEI Junjie(1973 -), male, researcher,research area: crop yield cultivation, (E-mail) Supported by:
陈传信1,2(), 张永强1,2, 聂石辉1,2, 孔德鹏3, 赛力汗·赛1,2, 徐其江1,2, 雷钧杰1,2()
通讯作者:
雷钧杰(1972-), 男, 甘肃古浪人, 研究员, 博士,研究方向为小麦高产栽培生理(E-mail)作者简介:
陈传信(1988-), 男, 河南商丘人, 助理研究员, 硕士,研究方向为作物高产栽培生理,(E-mail)lixp618@163.com
基金资助:
CLC Number:
CHEN Chuanxin, ZHNAG Yongqiang, NIE Shihui, KONG Depeng, Sailihan Sai, XU Qijiang, LEI Junjie. Effects of biomass charcoal application rate on the growth, development, and yield of winter wheat under drip irrigation[J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2146-2151.
陈传信, 张永强, 聂石辉, 孔德鹏, 赛力汗·赛, 徐其江, 雷钧杰. 生物质炭施用量对滴灌冬小麦生长发育和产量的影响[J]. 新疆农业科学, 2023, 60(9): 2146-2151.
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Fig.1 Effect of biomass charcoal application rate on the changes in leaf area index of winter wheat Note:The letters on the column indicate the differences between different treatments during the same period (P<0.05), the same as below
处理 Treatment | 穗数 Spike number (104/hm2) | 穗粒数 Grains per spike (粒/穗) | 千粒重 1 000- grain weight (g) | 产量 Yield (kg/hm2) |
---|---|---|---|---|
CK | 615.86b | 30.90b | 36.45b | 7 323.10c |
T1 | 640.32ab | 34.67a | 36.49b | 7 833.08b |
T2 | 660.33a | 35.00a | 39.40a | 8 244.40a |
Tab.1 Effect of biomass carbon application rate on winter wheat yield and yield components
处理 Treatment | 穗数 Spike number (104/hm2) | 穗粒数 Grains per spike (粒/穗) | 千粒重 1 000- grain weight (g) | 产量 Yield (kg/hm2) |
---|---|---|---|---|
CK | 615.86b | 30.90b | 36.45b | 7 323.10c |
T1 | 640.32ab | 34.67a | 36.49b | 7 833.08b |
T2 | 660.33a | 35.00a | 39.40a | 8 244.40a |
[1] | 中华人民共和国国家统计局. 中国统计年鉴[J]. 北京: 中国统计出版社, 2017. |
National Bureau of Statistics of the People's Republic of China. China Statistical Yearbook[J] Beijing: China Statistics Press, 2017. | |
[2] |
Caires E F, Haliski A, Bini A R, et al. Surface liming and nitrogen fertilization for crop grain production under no-till management in Brazil[J]. European Journal of Agronomy, 2015, 66: 41-53.
DOI URL |
[3] | 于飞, 施卫明. 近10年中国大陆主要粮食作物氮肥利用率分析[J]. 土壤学报, 2015, 52(6): 1311-1324. |
YU Fei, SHI Weiming. Nitrogen use efficiencies of major grain crops in China in recent 10 years[J]. Acta Pedologica Sinica, 2015, 52(6): 1311-1324. | |
[4] |
Lin Z A, Chang X H, Wang D M, et al. Long-term fertilization effects on processing quality of wheat grain in the North China Plain[J]. Field Crops Research, 2015, 174: 55-60.
DOI URL |
[5] | 曾希柏, 陈同斌, 林忠辉, 等. 中国粮食生产潜力和化肥增产效率的区域分异[J]. 地理学报, 2002, 57(5): 539-546. |
ZENG Xibo, CHEN Tongbin, LIN Zhonghui, et al. Grain productivity and its potential as related to fertilizer consumption among different counties of China[J]. Acta Geographica Sinica, 2002, 57(5): 539-546.
DOI |
|
[6] |
Fang S B, Cammarano D, Zhou G S, et al. Effects of increased day and night temperature with supplemental infrared heating on winter wheat growth in North China[J]. European Journal of Agronomy, 2015, 64: 67-77.
DOI URL |
[7] | 汤明尧, 王飞, 沈重阳, 等. 新疆化肥“零增长”行动的成效与建议[J]. 中国农技推广, 2021, 37(3): 62-65. |
TANG Mingyao, WANG Fei, SHEN Chongyang, et al. The effectiveness and suggestions of the "zero growth" action for Xinjiang fertilizers[J]. China Agricultural Technology Extension, 2021, 37(3): 62-65. | |
[8] | 赖波, 汤明尧, 柴仲平, 等. 新疆农田化肥施用现状调查与评价[J]. 干旱区研究, 2014, 31(6): 1024-1030. |
LAI Bo, TANG Mingyao, CHAI Zhongping, et al. Investigation and evaluation of the chemical fertilizer application situation of farmland in Xinjiang[J]. Arid Zone Research, 2014, 31(6):1024-1030. | |
[9] | 李福夺. 新疆粮食产量主要影响因素分析[J]. 中国农机化学报, 2016, 37(5): 268-274. |
LI Fuduo. Analysis on the main influencing factors of the grain production in Xinjiang[J]. Journal of Chinese Agricultural Mechanization, 2016, 37(5): 268-274. | |
[10] |
王朝辉. 粮食作物养分管理与农业绿色发展[J]. 中国农业科学, 2018, 51(14): 2719-2721.
DOI |
WANG Zhaohui. Nutrient management of grain crops and green agricultural development[J]. Scientia Agricultura Sinica, 2018, 51(14): 2719-2721. | |
[11] | 张福锁. 科学认识化肥的作用及合理利用[J]. 农机科技推广, 2017,(1): 38-40, 43. |
ZHANG Fusuo. Scientific understanding of the role and rational utilization of fertilizers[J]. Agriculture Machinery Technology Extension, 2017,(1): 38-40, 43. | |
[12] |
OzCimen D, Ersoy-Meril, Dboyu A. Characterization of biochar and bio-oil samples obtained from carbonization of varios biomass materials[J]. Renewable Energy, 2010, 35(6): 1319-1324.
DOI URL |
[13] |
Van Zwieten L, Kimber S, Moris S, et al. Efects of biochar from slow pyrolysis of papermil waste on agronomic performance and soil fertility[J]. Plant and Soil, 2010, 327 (1/2):235-246.
DOI URL |
[14] |
Zhao Y, Shi X, Weindorf D C, et al. Map scale effects on soil oroanic carbon stock estimation in North China[J]. Soil Science Society of America Journal, 2006, 70 (4): 1377-1386.
DOI URL |
[15] | 肖婧, 徐虎, 蔡岸冬, 等. 生物质炭特性及施用管理措施对作物产量影响的整合分析[J]. 中国农业科学, 2017, 50(10): 1830-1840. |
XIAO Jing, XU Hu, CAI Andong, et al. A meta-analysis of effects of biochar properties and management practices on crop yield[J]. Scientia Agricultura Sinica, 2017, 50(10): 1830-1840. | |
[16] | Vegard Martinsen, Jan Mulder, Victor Shitumbanuma, et al. Farmer-led maize biochar trials: Effect on crop yield and soil nutrients under conservation farming[J]. Journal of Plant Nutrition and Soil Science, 2014, 177(5). |
[17] | 李帅霖, 上官周平. 生物质炭对不同水氮条件下小麦产量的影响[J]. 干旱地区农业研究, 2018, 36(2): 8-15. |
LI Shuailin, SHANGGUAN Zhouping. Effects of biochar on wheat yield under different water and nitrogen conditions[J]. Agricultural Research in the Arid Areas, 2018, 36(2): 8-15. | |
[18] |
刘易, 祁通, 孟阿静, 等. 生物质炭输入对盐胁迫下玉米幼苗生长和光合生理特征的影响[J]. 华北农学报, 2017, 32(4): 182-188.
DOI |
LIU Yi, QI Tong, MENG Ajing, et al. Effect studying of biomass carbon input to growth and photosynthetic physiology feature of corn seedling cultivated on saliferous soil[J]. Acta Agriculturae Boreali-Sinica, 2017, 32(4): 182-188. | |
[19] | 李中阳, 齐学斌, 樊向阳, 等. 生物质炭对冬小麦产量、水分利用效率及根系形态的影响[J]. 农业工程学报, 2015, 31(12): 119-124. |
LI Zhongyang, QI Xuebin, FAN Xiangyang, et al. Influences of biochar on growth, yield, water use efficiency and root morphology of winter wheat[J]. Transactions of Chinese Society of Agricultural Engineering, 2015, 31(12): 119-124. | |
[20] |
Baroti S, Alberti G, Vedove G D, et al. The biochar option to improve plant yields: first results from some field and pot experiments in Italy[J]. Italian Journal of Agronomy, 2010, 5(1): 3-11.
DOI URL |
[21] | 刘安凯, 史登林, 王小利, 等. 秸秆和生物炭还田对稻田土壤有机碳矿化和水稻产质量的影响[J]. 山地农业生物学报, 2021, 40(4): 38-45. |
LIU Ankai, SHI Denglin, WANG Xiaoli, et al. Effects of returning straw and biochar to the field on the mineralization of paddy soil organic carbon and rice yield and quality[J]. Journal of Mountain Agriculture and Biology, 2021, 40(4): 38-45. | |
[22] | Sadaf J, Shah G A, Shahzad K, et al. Improvements in wheat productivity and soil quality can accomplish by co-application of biochars and chemical fertilizers[J]. Science of the Total Environment, 2017, 607-608: 715-724. |
[23] | Zhang D X, Pan G X, Wu G, et al. Biochar helps enhance maize productivity and reduce greenhouse gas emissions under balanced fertilization in a rained low fertility inceptisol[J]. Chemosphere, 2016, 42: 106-113. |
[24] | 谢迎新, 刘宇娟, 张伟纳, 等. 潮土长期使用生物炭提高小麦产量及氮素利用率[J]. 农业工程学报, 2018, 34(14): 115-123. |
XIE Yingxin, LIU Yujuan, ZHANG Weina, et al. Long-term application of biochar in fluvio-aquatic soil improving wheat yield and nitrogen utilization[J]. Transactions of Chinese Society of Agricultural Engineering, 2018, 34(14): 115-123. |
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