Xinjiang Agricultural Sciences ›› 2023, Vol. 60 ›› Issue (7): 1731-1740.DOI: 10.6048/j.issn.1001-4330.2023.07.020
• Facility Agriculture·Plant Protection·Forestry • Previous Articles Next Articles
XIAO Lingan1,2(), MA Yan1,2, SONG Bingwei2, JIAO Ruibin1,2, XING Jianfei1,3
Received:
2022-10-03
Online:
2023-07-20
Published:
2023-07-11
Correspondence author:
XING Jianfei(1994-),Male, education:Master, lecturer, Research direction:Agricultural intelligent machinery equipment research and development,(E-mail)591101353@qq.com
Supported by:
肖林刚1,2(), 马艳1,2, 宋兵伟2, 焦锐斌1,2, 邢剑飞1,3
通讯作者:
邢剑飞(1994-),男,硕士,讲师,研究方向为农业智能机械装备研发,(E-mail)591101353@qq.com
作者简介:
肖林刚(1976-),男,副研究员,硕士,研究方向为温室工程技术与装备,(E-mail)447551316@qq.com
基金资助:
CLC Number:
XIAO Lingan, MA Yan, SONG Bingwei, JIAO Ruibin, XING Jianfei. Research status and progress of micro-jet irrigation technology under plastic film in greenhouses[J]. Xinjiang Agricultural Sciences, 2023, 60(7): 1731-1740.
肖林刚, 马艳, 宋兵伟, 焦锐斌, 邢剑飞. 温室膜下微喷灌溉技术研究进展[J]. 新疆农业科学, 2023, 60(7): 1731-1740.
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.xjnykx.com/EN/10.6048/j.issn.1001-4330.2023.07.020
微灌技术 Micro- irrigation technique | 优点 Merits | 缺点 Demerits |
---|---|---|
滴灌 Drip irrigation | 节水、节肥、抑盐和 易管理特性 | 易产生沉淀物进而 诱发滴头堵塞 |
渗灌 Infiltrationg irrigation | 灌水效率高、压力小、 不占用地表面积 | 投资成本高、施工复杂、 水质要求高、 堵塞不易维修 |
微喷灌 Micro- sprinkler irrigation | 挟沙和抗堵塞能力强, 节水、节肥、洗盐效果好 | 露天应用节水效果不显著 |
Tab.1 Summary of advantages and disadvantages of each irrigation technology
微灌技术 Micro- irrigation technique | 优点 Merits | 缺点 Demerits |
---|---|---|
滴灌 Drip irrigation | 节水、节肥、抑盐和 易管理特性 | 易产生沉淀物进而 诱发滴头堵塞 |
渗灌 Infiltrationg irrigation | 灌水效率高、压力小、 不占用地表面积 | 投资成本高、施工复杂、 水质要求高、 堵塞不易维修 |
微喷灌 Micro- sprinkler irrigation | 挟沙和抗堵塞能力强, 节水、节肥、洗盐效果好 | 露天应用节水效果不显著 |
种植作物 Raise crops | 微喷带性能参数 Performance parameters of micro spray tape | 喷洒均匀度 Spray uniformity |
---|---|---|
冬小麦 Winter wheat | 工作压力28kPa | 最有利[ |
冬小麦 Winter wheat | 长度影响 | 最显著[ |
油菜 Rape | 孔口间距和孔口径 (可靠度为90%) | 显著[ |
大豆 Soybean | 喷孔位置和孔口径 | 关键因素[ |
Tab.2 Performance of microspray uniformity on densely planted crops
种植作物 Raise crops | 微喷带性能参数 Performance parameters of micro spray tape | 喷洒均匀度 Spray uniformity |
---|---|---|
冬小麦 Winter wheat | 工作压力28kPa | 最有利[ |
冬小麦 Winter wheat | 长度影响 | 最显著[ |
油菜 Rape | 孔口间距和孔口径 (可靠度为90%) | 显著[ |
大豆 Soybean | 喷孔位置和孔口径 | 关键因素[ |
处理 Treatments | 产值 Output value | 费用(元/667m2) Cost (yuan/667m2) | 净收益 (元 /667m2) Net profit (yuan /667m2) | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|
穗重 Spike weight (kg/ 667m2) | 单价 Unit- price (元/kg) | 产值 Output value(元/ 667m2) | 水费 Water rate | 人工 Artificial | 地膜 Film | 电费 Electric charge | 种子 Seed | 化肥 Chemical fertilizer | 合计 Total | ||
膜下微润灌 Subsurface trickle irrigation | 951.3 | 2.20 | 2 092.8 | 64.3 | 170.0 | 30.0 | 6.4 | 49.0 | 152.0 | 471.7 | 1 621.1 |
膜下滴灌 Subsurface drip irrigation | 995.6 | 2.20 | 2 190.3 | 60.1 | 170.0 | 30.0 | 6.0 | 49.0 | 152.0 | 467.1 | 1 723.2 |
膜下微喷 Subsurface microspraying | 986.3 | 2.20 | 2 169.8 | 59.7 | 170.0 | 30.0 | 6.0 | 49.0 | 152.0 | 476.7 | 1 693.1 |
微润灌 Micro irrigation | 941.9 | 2.20 | 2 072.2 | 64.3 | 170.0 | 6.4 | 49.0 | 152.0 | 461.7 | 1 610.5 | |
管灌与微喷 Pipe irrigation and micro spraying | 887.3 | 2.20 | 1 952.1 | 82.2 | 180.0 | 8.2 | 49.0 | 152.0 | 471.4 | 1 480.7 | |
低压管灌 Low pressure pipe irrigation | 972.8 | 2.20 | 2 140.2 | 98.0 | 180.0 | 30.0 | 9.8 | 49.0 | 152.0 | 518.8 | 1 621.4 |
Tab.3 Comparative analysis table of economic benefits of maize under different irrigation technology modes
处理 Treatments | 产值 Output value | 费用(元/667m2) Cost (yuan/667m2) | 净收益 (元 /667m2) Net profit (yuan /667m2) | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|
穗重 Spike weight (kg/ 667m2) | 单价 Unit- price (元/kg) | 产值 Output value(元/ 667m2) | 水费 Water rate | 人工 Artificial | 地膜 Film | 电费 Electric charge | 种子 Seed | 化肥 Chemical fertilizer | 合计 Total | ||
膜下微润灌 Subsurface trickle irrigation | 951.3 | 2.20 | 2 092.8 | 64.3 | 170.0 | 30.0 | 6.4 | 49.0 | 152.0 | 471.7 | 1 621.1 |
膜下滴灌 Subsurface drip irrigation | 995.6 | 2.20 | 2 190.3 | 60.1 | 170.0 | 30.0 | 6.0 | 49.0 | 152.0 | 467.1 | 1 723.2 |
膜下微喷 Subsurface microspraying | 986.3 | 2.20 | 2 169.8 | 59.7 | 170.0 | 30.0 | 6.0 | 49.0 | 152.0 | 476.7 | 1 693.1 |
微润灌 Micro irrigation | 941.9 | 2.20 | 2 072.2 | 64.3 | 170.0 | 6.4 | 49.0 | 152.0 | 461.7 | 1 610.5 | |
管灌与微喷 Pipe irrigation and micro spraying | 887.3 | 2.20 | 1 952.1 | 82.2 | 180.0 | 8.2 | 49.0 | 152.0 | 471.4 | 1 480.7 | |
低压管灌 Low pressure pipe irrigation | 972.8 | 2.20 | 2 140.2 | 98.0 | 180.0 | 30.0 | 9.8 | 49.0 | 152.0 | 518.8 | 1 621.4 |
[1] | 胡立涛. 化肥减量配施有机肥对皖北小麦作用效果研究[D]. 滁州: 安徽科技学院, 2019. |
HU Litao. Research of Chemical Fertilizer Reduction and Organic Fertiuzer on Wheat in Northern[D]. Chuzhou: Anhui Science and Technology University, 2019. | |
[2] |
Michelakis N, Vougioucalou E, Clapaki G. Water use, wetted soil volume, root distribution and yield of avocado under drip irrigation[J]. Agricultural Water Management. 1993, 24(2):119-131.
DOI URL |
[3] |
Zhou L, Feng H, Zhao Y, et al. Drip irrigation lateral spacing and mulching affects the wetting pattern, shoot-root regulation, and yield of maize in a sand-layered soil[J]. Agricultural Water Management. 2017, 184:114-123.
DOI URL |
[4] | 赵鹏. 农田节水灌溉工程技术措施探讨[J]. 农业与技术, 2014, 34(6):54. |
ZHAO Peng. Discussion on the technical measures of farmland water-saving irrigation engineering[J]. Agriculture and Technology, 2014, 34 (6):54. | |
[5] | 李萍. 节水灌溉工程的建设与施工管理[J]. 科技创新与应用, 2013,(3):166. |
LI Ping. Construction and construction management of water-saving irrigation projects[J]. Scientific and technological Innovation and application, 2013,(3):166. | |
[6] | 宋克超, 华怀峰, 赵伏伟. 农业管理节水技术及其发展趋势探讨[J]. 中国农业信息, 2013,(23):201. |
SONG Kechao, HUA Huaifeng, ZHAO Fuwei. Discussion on agricultural management water-saving technology and its development trend[J]. China Agricultural Information, 2013,(23):201. | |
[7] | 李建民, 王璞, 周殿玺, 等. 灌溉量和灌溉时期对宽幅精播冬小麦耗水特性及产量的影响[J]. 生态农业研究, 1999, 7(4):25-28. |
LI Jianmin, WANG Pu, ZHOU Dianxi, et al. LI Jianmin, Wang Pu, Zhou Dianxi, et al. Effects of irrigation amount and irrigation period on water consumption characteristics and yield of wide-spread fine sowing winter Wheat[J]. Ecological agriculture research, 1999, 7(4):25-28. | |
[8] | 杨静敬, 路振广, 潘国强, 等. 亏缺灌溉对冬小麦耗水规律及产量的影响[J]. 节水灌溉, 2013(4):8-11. |
YANG Jingjing, LU Zhenguang, PAN Guoqiang, et al. Effects of deficit irrigation on water consumption and yield of winter wheat[J]. Water Saving Irrigation, 2013(4):8-11. | |
[9] | 郑成岩, 于振文, 马兴华, 等. 高产小麦耗水特性及干物质的积累与分配[J]. 作物学报, 2008, 34(8):1450-1458. |
ZHENG Chengyan, YU Zhenwen, MA Xinghua, et al. Water Consumption Characteristic and Dry Matter Accumulation and Distribution in High-Yielding Wheat[J]. Acta agronomica sinica, 2008, 34(8):1450-1458.
DOI URL |
|
[10] |
任灵通, 赵俊威, 吴新春, 等. 灌溉定额分配及水磷耦合对滴灌苜蓿生长规律的影响[J]. 新疆农业科学, 2018, 55(1):164-174.
DOI |
REN Lingtong, ZHAO Junwei, WU Xinchun, et al. Effects of irrigation quota distribution and water-phosphorus coupling on thegrowth regularity of alfalfa under drip irrigation[J]. XinjiangAgricultural Sciences, 2018, 55(1):164- 174. | |
[11] | 李子春, 翟新友, 左勇, 等. 节水灌溉设备适应性浅析─对喷灌、微灌、滴灌、渗灌设备的应用分析[J]. 山东农机, 1998,(5):4-5. |
LI Zichun, ZHAI Xinyou, ZUO Yong, et al. Analysis on the adaptability of water-saving irrigation equipment ─ Application of sprinkler irrigation, micro-irrigation, drip irrigation and seepage irrigation equipment[J]. Shandong Agricultural Machinery, 1998,(5):4-5. | |
[12] | 王留运, 岳兵, 张顺尧, 等. 我国工程节水灌溉器材设备简况与综合评价[J]. 节水灌溉, 2004,(1):40-41. |
WANG Liuyun, YUE Bing, ZHANG Shunyao, et al. Brief condition and comprehensive evaluation of engineering water-saving irrigation equipment in China[J]. Water-saving irrigation, 2004,(1):40-41. | |
[13] |
满建国, 王东, 于振文, 等. 不同带长微喷带灌溉对土壤水分布与冬小麦耗水特性及产量的影响[J]. 应用生态学报, 2013, 24(8):2186-2196.
PMID |
MAN Jianguo, WANG Dong, YU Zhenwen, et al. Effects of irrigation with different length micro-sprinkling hoses on soil water distribution, water consumption characteristics of winter wheat, and its grain yield[J]. Chinese journal of applied ecology, 2013, 24(8):2186-2196.
PMID |
|
[14] |
满建国, 王东, 张永丽, 等. 不同喷射角微喷带灌溉对土壤水分布与冬小麦耗水特性及产量的影响[J]. 中国农业科学, 2013, 46(24):5098-5112.
DOI |
MAN Jianguo, WANG Dong, ZHANG Yongli, et al. Effects of Irrigation with Micro-Sprinkling Hoses of Different Sprinkling Angles on Soil Water Distribution and Water Consumption Characteristics and Grain Yield of Winter Wheat[J]. Scientia agricultura sinica, 2013, 46(24):5098-5112.
DOI |
|
[15] |
Home PG, Panda PK, Kar S. Effect of method and scheduling of irrigation on water and nitrogen use efficiencies of okra (Abelmoschus esculentus). Agricultural Water Management, 2002, 55:159-170.
DOI URL |
[16] | 张明智. 膜下微喷灌对温室番茄节水增产影响机理的探究[D]. 西安: 西安理工大学, 2021. |
ZHANG Mingzhi. Study on the effect mechanism of micro-sprinkler irrigation under plastic film on water saving and yield increasing of tomato in greenhouse[D]. Xi 'an: Xi 'an University of Technology, 2021. | |
[17] | 周斌, 封俊, 张学军, 等. 微喷带单孔喷水量分布的基本特征研究[J]. 农业工程学报, 2003, 19(4):101-103. |
ZHOU Bin, FENG Jun, ZHANG Xuejun, et al. Characteristics and indexes of water distribution of punched thin-soft tape for spray[J]. Transactions of the Chinese society of agricultural engineering, 2003, 19(4):101-103. | |
[18] | 谢楠. 温室膜下微喷灌溉对芹菜生长及产量的影响[J]. 水利科学与寒区工程, 2019, 2(3):30-32. |
XIE Nan. Effects of micro-spraying irrigation under plastic film on the growth and yield of celery in greenhouse[J]. Hydraulic science and cold region engineering, 2019, 2(3):30-32. | |
[19] |
Li J S, Kawano H. The areal distribution of soil moisture under sprinkler irrigation[J]. Agricultural Water Management. 1996, 32(1):29-36.
DOI URL |
[20] | 赵丽霞. 灌溉方式对温室土壤理化性状的影响[J]. 蔬菜, 2021,(7):32-36. |
ZHAO Lixia. Effects of Irrigation Methods on Physical and Chemical Properties of Soil in Greenhouse[J]. Vegetables, 2021,(7):32-36. | |
[21] | 王启龙, 卢楠, 庞喆. 不同灌水方式对温室番茄土壤理化性状与产量的影响[J]. 灌溉排水学报, 2018, 37(S2):36-39. |
WANG Qilong, LU Nan, PANG Zhe. Effects of Different Irrigation Methods on Soil Physicochemical Property and Growth of Tomato in Newly Increased Cultivated Lands[J]. Journal of irrigation and drainage, 2018, 37(S2):36-39. | |
[22] |
张璇, 胡宝贵. 中国农业节水灌溉技术推广研究进展[J]. 中国农学通报, 2016,(17):181-186.
DOI |
ZHANG Xuan, HU Bao Gui. Research Progress of Popularization and Application of Agricultural Water-saving Irrigation Techniques[J]. Chinese Agricultural Science Bulletin, 2016,(17):181-186.
DOI |
|
[23] | 李久生, 栗岩峰, 王军, 等. 微灌在中国:历史、现状和未来[J]. 水利学报, 2016,(3):372-381. |
LI Jiusheng, LI Yanfeng, WANG Jun, et al. Microirrigation in China:history, current situation and prospects[J]. Journal of Hydraulic Engineering, 2016,(3):372-381. | |
[24] |
Liu H, Yang H, Zheng J, et al. Irrigation scheduling strategies based on soil matric potential on yield and fruit quality of mulched-drip irrigated chili pepper in Northwest China[J]. Agricultural Water Management. 2012, 115:232-241.
DOI URL |
[25] |
Zhang H, Xiong Y, Huang G, et al. Effects of water stress on processing tomatoes yield, quality and water use efficiency with plastic mulched drip irrigation in sandy soil of the Hetao Irrigation District[J]. Agricultural Water Management. 2017, 179:205-214.
DOI URL |
[26] |
Wang J, Niu W, Dyck M, et al. Drip irrigation with film covering improves soil enzymes and muskmelon growth in the greenhouse[J]. Soil Research. 2018, 56(1):59.
DOI URL |
[27] | 李仰斌. 新时期我国节水灌溉发展战略与对策思考[J]. 节水灌溉, 2011,(9):1-3. |
LI Yangbin. Development strategies and Countermeasures of water-saving irrigation in China in the New Era[J]. Water-saving irrigation, 2011,(9):1-3. | |
[28] | 郭珺, 龙海游, 郭振苗. 对今后我国节水灌溉发展对策的思考[J]. 节水灌溉, 2009,(2):47-48. |
GUO Jun, LONG Haiyou, GUO Zhenmiao. Thoughts on the development of water-saving irrigation in China[J]. Water-saving irrigation, 2009,(2):47-48. | |
[29] | 李珠怀, 牛立彬. 膜下微喷在节水灌溉中的应用效果分析[J]. 农村水利, 2012,(8):7-8. |
LI Zhuhuai, NIU Libin. Analysis of the application effect of submembrane microspray in water-saving irrigation[J]. Rural Water Conservancy, 2012,(8):7-8. | |
[30] | 孙先明, 孙锦秀, 王春华. 微灌带的发展研究现状及前景[J]. 农机化研究, 2006,(3):33-34. |
SUN Xianming, SUN Jinxiu, WANG Chunhua. Present Situation of Development and Research on Micro-irrigation Belt[J]. Journal of Agricultural Mechanization Research, 2006,(3):33-34. | |
[31] | 张芳, 张玉顺, 秦海霞. 风对微喷带喷洒均匀度的影响[J]. 节水灌溉, 2010,(11):46-47,50. |
ZHANG Fang, ZHANG Yushun, QIN Haixia. Effects of Wind on Spray Uniformity of Punched Thin-soft Spray Tape[J]. Water Saving Irrigation, 2010,(11):46-47,50. | |
[32] |
王裕智, 靖华, 亢秀丽, 等. 窄行距条播密植作物微喷带高效节本喷灌方法研究[J]. 农学学报, 2018, 8(2):51-54.
DOI |
WANG Yuzhi, JING Hua, KANG Xiuli, et al. A High Efficient and Cost Saving Micro-sprinkling Irrigation Method for Crop with Narrow Row Spacing and Close Planting[J]. Journal of agricultural sciences, 2018, 8(2):51-54. | |
[33] | 焦艳平, 王福田, 武剑, 等. 滴灌和微喷带灌溉对冬小麦生长及产量的影响[J]. 河北农业科学, 2017, 21(6):17-22. |
JIAO Yanping, WANG Futian, WU Jian, et al. Effects of Drip Irrigation and Micro-sprinkler Irrigation of Hoses on Growth and Yield of Winter Wheat[J]. Hebei agricultural sciences, 2017, 21(6):17-22. | |
[34] | 杨坤, 刘林, 张仰猛, 等. 小麦中后期田间微喷灌土壤水分运移模拟分析[J]. 农业工程, 2020, 10(12):70-77. |
YANG Kun, LIU Lin, ZHANG Yangmeng, et al. Simulation Analysis of Moisture Movement in Wheat Field[J]. Agricultural engineering, 2020, 10(12):70-77. | |
[35] | 王文娟, 徐茹, 王文娥, 等. 水肥一体微喷带施肥均匀性试验研究[J]. 水资源与水工程学报, 2020, 31(4):124-130. |
WANG Wenjuan, XU Ru, WANG Wene, et al. Study on the fertilization uniformity of water-fertilizerintegrated micro-sprinkler belt[J]. Journal of water resources and water engineering, 2020, 31(4):124-130. | |
[36] | 张伟. 微喷带灌水均匀度试验研究[D]. 长春: 吉林农业大学, 2016. |
ZHANG Wei. Experimental Study on Irrigation Uniformity of Punched Thin-Soft Spray[D]. Changchun: Jilin Agricultural University, 2016. | |
[37] | 王琪, 张伟. 微喷带灌水均匀度影响因素试验研究[J]. 农业与技术, 2016, 36(7):66-67. |
WANG Qi, ZHANG Wei. Experimental study on the influencing factors of irrigation uniformity in micro-spray zone[J]. Agriculture and Technology, 2016, 36 (7):66-67. | |
[38] | 吴政文, 张学军. 微喷带沿程水头损失的试验研究[J]. 节水灌溉, 2011,(8):40-42. |
WU Zhengwen, ZHANG Xuejun. Experimental Study on Frictional Head Loss of Micro-sprinkling Hose[J]. Water Saving Irrigation, 2011,(8):40-42. | |
[39] | 陈永, 李贤宇, 周洁琼, 等. 膜下微喷对甘蔗产量性状、工艺品质及经济效益的影响[J]. 广东农业科学, 2014, 41(20):15-18,23. |
CHEN Yong, LI Xianyu, ZHOU Jieqiong, et al. Effects of micro-spray under plastic film on yield characters, process quality and economic benefit of sugarcane[J]. Guangdong agricultural sciences, 2014, 41(20):15-18,23. | |
[40] | 陈永. 甘蔗膜下微喷效应研究[D]. 南宁: 广西大学, 2014. |
CHEN Yong. The Research on Sugarcane Micro Jet Effects under Plastic Film[D]. Nanning: Guangxi University, 2014. | |
[41] | 李珠怀, 牛立彬. 膜下微喷在节水灌溉中的应用效果分析[J]. 山西水利, 2012, 28(8):7-8. |
LI Zhuhuai, NIU Libin. Analysis of the application effect of submembrane microspray in water-saving irrigation[J]. Shanxi Water Conservancy, 2012, 28 (8):7-8. | |
[42] | 于国丰, 赵凤伟. 辽西北玉米地面灌溉技术模式对比试验研究[A].中国水利学会.中国水利学会2013学术年会论文集—S3防汛抗旱减灾[C].中国水利学会:中国水利学会,2013:4. |
YU Guofeng, ZHAO Fengwei. Comparative experiment of maize surface irrigation technology in northwest Liaoning [A]. The Chinese Society of Water Conservancy. Proceedings of 2013 Annual Conference of Chinese Water Conservancy Society —S3 Flood Control, Drought Relief and Disaster Reduction [C]. China Water Conservancy Society:Chinese Water Conservancy Society, 2013:4. | |
[43] | 石文学, 王军, 张志国, 等. 灌溉方式对春大棚黄瓜产量、经济效益和灌溉水分生产效率的影响[J]. 北方园艺, 2016,(5):56-59. |
SHI Wenxue, WANG Jun, ZHANG Zhiguo, et al. Effects of irrigation methods on plastic greenhouse cucumber yield, economic benefits and water use efficiency[J]. Northern Horticulture, 2016,(5):56-59. | |
[44] | 赵铁伦, 贾生. 灌溉方式对温室不结球白菜矿质元素吸收及品质的影响[J]. 蔬菜, 2021,(8):19-22. |
ZHAO Tielun, JIA Sheng. Effects of Irrigation Methods on Quality and Absorption of Mineral Elements of Chinese Cabagge in Greenhouse[J]. Vegetables, 2021,(8):19-22. | |
[45] |
夏秀波, 于贤昌, 高俊杰. 水分对有机基质栽培番茄生理特性、品质及产量的影响[J]. 应用生态学报, 2007, 18(12):2710-2714.
PMID |
XIA Xiubo, YU Xianchang, GAO Junjie. Effects of moisture content in organic substrate on the physiological characters, fruit quality and yield of tomato plant[J]. Chinese journal of applied ecology, 2007, 18(12):2710-2714.
PMID |
|
[46] | 邢英英, 张富仓, 吴立峰, 等. 基于番茄产量品质水肥利用效率确定适宜滴灌灌水施肥量[J]. 农业工程学报, 2015, 31(增刊1):110-121. |
XING Yingying, ZHANG Fucang, WU Lifeng, et al. Determination of optimal amount of irrigation and fertilizer under drip fertigated system based on tomato yield, quality, water and fertilizer use efficiency[J]. Transactions of the Chinese society of agricultural engineering, 2015, 31(s1):110-121. | |
[47] | 李晨, 曾烨, 郭月萍, 等. 膜下微喷条件下不同灌水量对小型西瓜长势及产量的影响[J]. 中国瓜菜, 2020, 33(5):45-48. |
LI Chen, ZENG Ye, GAO Yueping, et al. Influence of the different irrigation on the growth and yield of mini watermelon under the condition of the micro-spraying on mulch[J]. China melons and vegetables, 2020, 33(5):45-48. | |
[48] | 孙莉莉. 微喷灌溉条件下氮肥量级对小果型西瓜产量品质的影响[J]. 北京农业, 2016,(1):47-49. |
SUN Lili. Effect of nitrogen fertilizer level on small fruit watermelon yield quality under microspray irrigation[J]. Beijing Agriculture, 2016,(1):47-49. | |
[49] |
张明智, 路振广, 尹卿芳, 等. 微喷带不同结构参数的出流特性研究[J]. 中国农学通报, 2021, 37(17):112-119.
DOI |
ZHANG Mingzhi, LU Zhen guang, YIN Qingfang, et al. Study on the Flow Characteristics of Micro-sprinkler Hose with Different Structural Parameters[J]. Chinese Agricultural Science Bulletin, 201, 37(17):112-119. | |
[50] | 田凌, 宽鹏德, 左佳妮, 等. 滴灌-微喷水肥药一体化系统在设施农业灌溉中的应用[J]. 现代农业科技, 2019,(1):153,158. |
TIAN Ling, KUAN Pengde, ZUO Jiani, et al. The application of drip irrigation micro spray water fertilizer integrated system in facility agricultural irrigation[J]. Modern Agricultural Technology, 2019,(1):153,158. | |
[51] | 孙海伟, 张虹, 高红, 等. 北方茶园专用水肥喷、滴灌一体化技术[J]. 山东林业科技, 2017, 47(5):79-81. |
SUN Haiwei, ZHANG Hong, GAO Hong, et al. The integration of water and fertilizer technology in north China tea garden[J]. Shandong forestry science and technology, 2017, 47(5):79-81. | |
[52] | 张川, 张亨年, 闫浩芳, 等. 微喷灌结合滴灌对温室高温环境和作物生长生理特性的影响[J]. 农业工程学报, 2018, 34(20):83-89. |
ZHANG Chuan, ZHANG Hengnian, YAN Haofang, et al. Effects of micro-sprinkler irrigation combined with drip irrigation on greenhouse high temperature environment and crop growth physiological characteristics[J]. Transactions of the csae, 2018, 34(20):83-89. | |
[53] | 魏榕, 王文娥, 胡笑涛, 等. 微喷带抗堵塞性能影响因素试验研究[J]. 节水灌溉, 2021,(3):64-68. |
WEI Rong, WANG Wene, HU Xiaotao, et al. Experimental study on the influence factor of anti-clogging performance of micro-sprinkling hose[J]. Water Saving Irrigation, 2021,(3):64-68. | |
[54] | 吴泽广, 张子卓, 张珂萌, 等. 泥沙粒径与含沙量对迷宫流道滴头堵塞的影响[J]. 农业工程学报, 2014, 30(7):99-108. |
WU Zeguang, ZHANG Zizhuo, ZHANG Kemeng, et al. Influence of particle size and concentration of sediment on clogging of labyrinth channels emitters[J]. Transactions of the CSAE, 2014, 30(7):99-108. | |
[55] | 王新端, 白丹, 宋立勋, 等. 不同结构滴灌双向流道灌水器抗堵性能对比试验[J]. 农业工程学报, 2018, 34(14):78-85. |
WANG Xinduan, BAI Dan, SONG Lixun, et al. Contrast experiment on anti-clogging performance of bidirectional flow channel emitters with different structures in drip irrigation[J]. Transactions of the CSAE, 2018, 34(14):78-85. | |
[56] | 冶金明. 干旱半干旱地区灌溉条件下的土壤水盐运移研究进展[J]. 安徽农业科学, 2012, 40(29):14246-14248,14258. |
YE Jinming. Review on Water and Salt Transport in Irrigated Soil of Arid and Semi-arid Areas[J]. Journal of anhui agricultural sciences, 2012, 40(29):14246-14248,14258. | |
[57] | 曹振玺, 李勇, 申孝军, 等. 不同灌水技术参数对农田水盐运移的影响[J]. 灌溉排水学报, 2020, 39(3):57-62,71. |
CAO Zhenxi, LI Yong, SHEN Xiaojun, et al. Effects of Drip Irrigation Schedule on Water and Salt Movement in Soil[J]. Journal of irrigation and drainage, 2020, 39(3):57-62,71. | |
[58] | 黄真真, 刘广明, 李金彪, 等. 滴灌带布设方式与灌水定额对土壤性状及棉花产量影响[J]. 土壤通报, 2020, 51(2):325-331. |
HUANG Zhenzhen, LIU Guangming, LI Jinbiao, et al. Effect of Layout of Drip Irrigation Belt and Irrigation Quota on Soil Properties and Cotton Yield[J]. Chinese Journal of Soil Science, 2020, 51 (2):325-331. | |
[59] | 汪昌树, 杨鹏年, 于宴民, 等. 膜下滴灌布置方式对土壤水盐运移和产量的影响[J]. 干旱地区农业研究, 2016, 34(4):38-45. |
WANG Changshu, YANG Pengnian, YU Yanmin, et al. Effect of different pipe arrangements on soil water-salt transport andyield of cotton under mulched drip-irrigation[J]. Agricultural Research in the Arid Areas, 2016, 34(4):38-45. | |
[60] | 王卫华, 王全九, 刘建军, 等. 膜下滴灌湿润体交汇区土壤水盐运移特征田间实验研究[J]. 干旱区地理, 2011, 34(4):558-564. |
WANG Weihua, WANG Quanjiu, LIU Jianjun, et al. Field Experiment Study on soil water and salt transport characteristics in wetting body intersection area of drip irrigation under mulch[J]. Arid Land Geography, 2011, 34(4):558-564. | |
[61] | 曹振玺, 李勇, 申孝军, 等. 不同灌水技术参数对农田水盐运移的影响[J]. 灌溉排水学报, 2020, 39(3):57-62, 71. |
CAO Zhenxi, LI Yong, SHEN Xiaojun, et al. Effects of Drip Irrigation Schedule on Water and Salt Movement in Soil[J]. Journal of Irrigation and Drainage, 2020, 39(3):57-62. |
[1] | WANG Dandan, LI Yan, ZHANG Qingyin, Li Shidong, PANG Yongchao, MA Kunzhi, MA Long, NIU Ruisheng, ZHONG Zengming, QI Lianfen, SHI Jianhua. Effects of different microbial treatments on tomato soil microbial diversity [J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2248-2257. |
[2] | PU Min, RUAN Xiangyang, XIAO Lele, SUO Changkai, CHEN Guoyong, YE Jun, GAO Bo. Effect of citric acid soluble calcium magnesium fertilizer on calcium and magnesium absorption and quality of processing tomato [J]. Xinjiang Agricultural Sciences, 2023, 60(8): 1987-1995. |
[3] | LIU Jiangna, ZHANG Xiying, LI Rongxia, ZHANG Xiaowei, BAI Yunfeng, ZHANG Aiping. Molecular characteristics and promoter analysis of SlLCY-B2 gene in tomato [J]. Xinjiang Agricultural Sciences, 2023, 60(6): 1460-1465. |
[4] | DU Hongyan, PANG Shengqun, MA Haixiang, JI Xuehua. Correlation and path analysis of agronomic traits of processing tomato early maturity mutants [J]. Xinjiang Agricultural Sciences, 2023, 60(4): 943-950. |
[5] | ZHU Pusheng, LIU Huiying, CAO Ze, LIU Kaige, LI Xuezhen. Effects of Exogenous GSNO on Growth and Photosynthetic Characteristics of Tomato Seedlings under NaCl Stress [J]. Xinjiang Agricultural Sciences, 2023, 60(2): 351-358. |
[6] | ZENG Jun, WU Lei, GAO Yan, ZHANG Zhuo, LIN Qing, LIU Jianwei, YANG Hongmei, HUO Xiangdong, SHI Yingwu. Effects of photosynthetic bacterial foliar fertilizer on yield and quality of organic tomato in greenhouse [J]. Xinjiang Agricultural Sciences, 2023, 60(12): 3018-3024. |
[7] | LU Dawei, Halihashi Yibat, LI Qingjun. Effects of the Amount of Phosphate Fertilizer on Processing Tomato Yield and P Use Efficiency by Drip Irrigation [J]. Xinjiang Agricultural Sciences, 2023, 60(1): 185-191. |
[8] | LI Yueyan, LI Yushan, WANG Fan, GUO Yawen, WANG Feiyan, GAO Jie, SONG Yu. Genetic Diversity and Cluster Analysis of Tomato Fruit Characters in Different Varieties [J]. Xinjiang Agricultural Sciences, 2022, 59(9): 2147-2157. |
[9] | LI Chunyu, TAN Zhanming, CHENG Yunxia, SHU Sheng, HE Tao, JIN Yujie, MA Xinchao, DU Jiageng, ZHANG Jing. The Influence of Water and Fertilizer Coupling on the Growth-development and Quality of Sand Culture Tomato [J]. Xinjiang Agricultural Sciences, 2022, 59(9): 2158-2169. |
[10] | GU Ningning, ZHANG Pu, XIE Yanru, TANG Dan, ZHAO Zhixin, DONG Ruifang, CUI Yongmin, QIN Yong. Effects of Different Fertilizer Rates on the Growth of Tomato Seedlings [J]. Xinjiang Agricultural Sciences, 2022, 59(8): 1929-1934. |
[11] | XU Junfeng, YANG Rong, ZHAN Faqiang, HOU Min, BAO Huifang, WANG Ning, LONG Xuanqi, ZHANG Zhidong, CUI Weidong. Screening of Functional Bacteria of Organic-Inorganic Liquid Compound Fertilizers and Its Effect on the Quality and Physiological Activity of Greenhouse Tomato [J]. Xinjiang Agricultural Sciences, 2022, 59(7): 1758-1766. |
[12] | WANG Qiang, LIU Huifang, HAN Hongwei, ZHUANG Hongmei, WANG Baike, WANG Juan, YANG Tao, WANG Hao, QIN Yong. Screening Differentially Expressed Proteins in Response to Salt Stress of Tomato Leaves Based on TMT and PRM Techniques [J]. Xinjiang Agricultural Sciences, 2022, 59(6): 1418-1428. |
[13] | LIN Qing, SHI Yingwu, WANG Na, HUA Lanlan, YANG Hongmei, CHU Min, ZENG Jun, GAO Yan, HUO Xiangdong. Screening and Identification of Systemic Resistant Inducing Growth-Promoting Bacteria and Their Effects on Growth and Disease Prevention of Processing Tomatoes [J]. Xinjiang Agricultural Sciences, 2022, 59(6): 1466-1474. |
[14] | MA Yue, LI Yushan, ZHAO Lianjia, GUO Yawen, SONG Yu, XU Hongjun. Comprehensive Evaluation of the Adaptability of 15 Tomato Germplasm Resources in Xinjiang [J]. Xinjiang Agricultural Sciences, 2022, 59(5): 1099-1109. |
[15] | TAN Yixi, FU Kaiyun, JIA Zunzun, LI Aimei, DING Xinhua, Tursun Ahemat, FENG Hongzu, GUO Wenchao. Evaluation of Trap Colour, Hanging Height and Position on the Effectiveness of Trapping Tuta absoluta(meyrick) [J]. Xinjiang Agricultural Sciences, 2022, 59(5): 1144-1155. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||