[1] Feng J, Huang X, Zhai G, et al. Research and application on the movable subsurface drip irrigation system[C]. World Automation Congress. 2012:1-4. [2] Narayanamoorthy A, Devika N, Bhattarai M. More Crop and Profit per Drop of Water: Drip Irrigation for Empowering Distressed Small Farmers[J]. Iim Kozhikode Society Management Review, 2016,5(1):83-90. [3] Felsot A S, Evans R G, Ruppert J R. Field Studies of Imidacloprid Distribution Following Application to Soil through a Drip Irrigation System[C]. Meeting of the American-Chemical-Society. 2003:189-205. [4] Albaji M, Golabi M, Nasab S B, et al. Investigation of surface, sprinkler and drip irrigation methods based on the parametric evaluation approach in Jaizan Plain[J]. Journal of the Saudi Society of Agricultural Sciences, 2015, 14(1):1-10. [5] 王玉明. 滴灌、喷灌及管灌对马铃薯产量与水分生产效益的影响[J]. 华北农学报,2007,(S3):83-84. [6] Rao S S, Tanwar S P S, Regar P L. Effect of deficit irrigation, phosphorous inoculation and cycocel spray on root growth, seed cotton yield and water productivity of drip irrigated cotton in arid environment[J]. Agricultural Water Management, 2016, 169:14-25. [7] Hong M, Zhao J, Ma Y, et al. Experiment on fruit-crop intercropping soybean water consume rule in drip irrigation[C]. International Symposium on Water Resource and Environmental Protection. IEEE, 2011:956-958. [8] Robles J M, Botía P, Pérez-Pérez J G. Subsurface drip irrigation affects trunk diameter fluctuations in lemon trees, in comparison with surface drip irrigation[J]. Agricultural Water Management, 2016, 165:11-21. [9] Pascualseva N, Bautista A S, Lópezgalarza S, et al. Response of drip-irrigated chufa (Cyperus esculentus L. var. sativus Boeck.) to different planting configurations: Yield and irrigation water-use efficiency[J]. Agricultural Water Management, 2016, 170:140-147. [10] Leib B G, Jarrett A R, Orzolek M D, et al. Drip chemigation of imidacloprid under plastic mulch increased yield and decreased leaching caused by rainfall.[J]. Transactions of the Asae, 2000, 43(3):615-622. [11] Zmen S, Kanber R, Sari N, et al. The effects of deficit irrigation on nitrogen consumption,yield,and quality in drip irrigated grafted and ungrafted watermelon[J]. Journal of Integrative Agriculture, 2015, 14(5):966-976. [12] Ayars J E, Fulton A, Taylor B. Subsurface drip irrigation in California—Here to stay?[J]. Agricultural Water Management, 2015, 157:39-47. [13]Byron L Candole , Alexander S Csinos,Dong Wang. et al. Distribution and efficacy of drip-applied metam-sodium against the survival of Rhizoctonia solani and yellow nutsedge in plastic-mulched sandy soil beds[J]. Society of Chemical Industry. Pest Manag Sci ,2007. [14]Steven Van Timmeren, John C Wise and Rufus Isaacs. et al. Soil application of neonicotinoid insecticides for control of insect pests in wine grape vineyards[J]. Pest Manag Sci ,2012: 68: 537–542. [15]Johan A Desaege,Michel Rivera, Robert Leighty. et al. Effect of methomyl and oxamyl soil applications on early control of nematodes and insects[J]. Pest Manag Sci ,2011:67: 507–513. [16]Amber E Arrington, George G Kennedy, Mark R Abney. et al. Applying insecticides through drip irrigation toreduce wireworm(Coleoptera: Elateridae)feeding damage in sweet potato[J]. Pest Manag Sci ,2016:72: 1133–1140. [17] Grout T G, Stephen P R. Use of an inexpensive technique to compare systematic insecticides applied through drip irrigation systems in citrus[J]. African Entomology, 2005, 13(2):353-358. [18] 汤吉利,施乃志. 根部滴灌内吸杀虫剂防治杨扇舟蛾等害虫试验[J]. 江苏林业科技,2001,(06):26-28. [19] 王映山,赵军. “松灵”滴灌施药防治辣椒蚜虫技术示范应用[J]. 辣椒杂志,2011,(02):37-38. [20] 戴爱梅,常巧真,吐鲁达洪,努尔赛吾来.巴特哈勒. 3种杀虫剂滴灌施药防治玉米三点斑叶蝉试验[J]. 植物医生,2014,(05):31-32. [21] Monday T A, Iii W G F, Blythe E K, et al. Yellow Nutsedge (Cyperus esculentus) Control and Tomato Response to Application Methods of Drip-Applied Herbicides in Polyethylene-Mulched Tomato[J]. Weed Technology, 2001. [22] King B A, Wall R W, Karsky T F. Center-pivot irrigation system for independent site-specific management of water and chemical application.[J]. Applied Engineering in Agriculture, 2009, 25(2):187-198. [23]Mao Lian-gang, Wang Qiu-xia, et al. Application of the combination of 1,3-dichloropropene and dimethyl disulfide by soil injection or chemigation: effects against soilborne pests in cucumber in China[J]. Journal of Integrative Agriculture, 2016, 15(1):145-152. [24] Palmer JM, Wetton MN. A morphometric analysis of the Thrips hawaiiensis (Morgan) species-group (Thysanoptera: Thripidae) [J]. B Entomol Res., 1987,77:397-406. [25]Mound L A, Kibby G. Thysanoptera: an identification guide.[J]. Cambridge Univ Press, 1998. [26] Murai T. Development and reproductive capacity of Thrips hawaiiensis (Thysanoptera: Thripidae) and its potential as a major pest.[J]. Bulletin of Entomological Research, 2001, 91(3):193. [27]Nakahara S. The genus Thrips Linnaeus (Thysanoptera: Thripidae) of the New World.[J]. Technical Bulletin - United States Department of Agriculture, 1994. [28] Reynaud P, Balmès V, Pizzol J. Thrips hawaiiensis (Morgan, 1913) (Thysanoptera: Thripidae), an Asian pest thrips now established in Europe.[J]. Eppo Bulletin, 2008, 38(2):155-160. [29] Goldarazena A. First record of Thrips hawaiiensis (Morgan, 1913) (Thysanoptera: Thripidae), an Asian pest thrips in Spain.[J]. Bulletin Oepp/eppo Bulletin, 2011, 41(41):170-173. [30]蔡云鹏,黄明道,陈新评.等. 香蕉园内花蓟马之发生及其为害[J].中华昆虫,1992,12(4): 231-237. [31] Wu Y, Liu K, Qiu HY, et al. Polymorphic microsatellite markers in Thrips hawaiiensis(Thysanoptera: Thripidae) [J]. Appl Entomol Zool., 2014,49:619-622. [32] 付步礼,曾东强,刘奎,谢艺贤,邱海燕,唐良德. 离心管药膜法测试12种杀虫剂对香蕉花蓟马的毒力[J]. 热带作物学报,2014,(02):344-347. [33] 曾鑫年,林进添. 黄胸蓟马对香蕉的危害及其防治[J]. 植物保护,1998,(06):16-18. [34] Childers CC, Nakahapa S. Thysanoptera (thrips) within citrus orchards in Florida: Species distribution, relative and seasonal abundance within trees, and species on vines and ground cover plants[J]. Journal of Insect Science, 2006,6: 1–19. [35] 尹可锁,郑泗军,杨韶松,曾莉,李迅东,郭志祥,段玉云,杨佩文,徐盛涛,严洪斌,周跃能. 利用假茎注射吡虫啉防控香蕉蓟马[J]. 植物保护,2016,(05):238-241. [36] 邱海燕,付步礼,刘奎,唐良德,伍祎. 多种杀虫剂对香蕉花蓟马田间防效评价[J]. 中国植保导刊,2016,(07):59-60+58. [37] 付步礼,邱海燕,刘奎,谢艺贤,唐良德. 螺虫乙酯等7种杀虫剂对香蕉花蓟马的田间防治试验[J]. 中国南方果树,2014,(01):54+56. [38] 付步礼,唐良德,邱海燕,刘俊峰,张瑞敏,曾东强,谢艺贤,刘奎. 黄胸蓟马高效低毒防治新型药剂的筛选[J]. 果树学报,2016,(04):473-481. [39] 夏西亚,付步礼,李强,邱海燕,唐良德,刘奎. 蓟马类害虫诱控技术研究进展[J]. 农学学报,2017,(02):31-35. [40] Liu Kui, Chinese Academy of Tropical Agricultural Sciences, Danzhou. The taxis of the banana flower thrips Thrips hawaiiensis to different colors and field trapping effect of sticky cards[J]. Plant Protection, 2011. [41] 杨晓宏,严程明,张江周,石伟琦. 中国滴灌施肥技术优缺点分析与发展对策[J]. 农学学报,2014,(01):76-80. [42] Rameshwaran P, Tepe A, Yazar A, et al. Effects of drip-irrigation regimes with saline water on pepper productivity and soil salinity under greenhouse conditions[J]. Scientia Horticulturae, 2016, 199:114-123. [43] Van T S, Wise J C, Isaacs R. Soil application of neonicotinoid insecticides for control of insect pests in wine grape vineyards[J]. Pest Management Science, 2012, 68(4):537-542. [44] 王东晶. 我国膜下滴灌技术发展与应用现状[J]. 现代农业科技,2013,(19):244-245. [45] Ning S, Shi J, Zuo Q, et al. Generalization of the root length density distribution of cotton under film mulched drip irrigation[J]. Field Crops Research, 2015, 177:125-136. [46] Vieira RF, Sumner DR. Application of fungicides to foliage through overhead sprinkler irrigation – a review[J]. Pest Management Science, 2015, 55(4):412-422. [47] Haynes R J. Principles of fertilizer use for trickle irrigated crops[J]. Nutrient Cycling in Agroecosystems, 1985, 6(3):235-255. [48] Kendy E, Gérard-Marchant P, Walter M T, et al. A soil-water-balance approach to quantify groundwater recharge from irrigated cropland in the North China Plain[J]. Hydrological Processes, 2003, 17(10):2011-2031. [49] Yao P, Dong X, Hu A. Using HYDRUS-2D Simulate Soil Water Dynamic in jujube root zone under drip irrigation[C]. International Symposium on Water Resource and Environmental Protection. IEEE, 2011:684-688. [50] Bar-Yosef B. Advances in Fertigation[J]. Advances in Agronomy, 1999, 65(C):1-77. [51]Jo?o Paulo Arantes Rodrigues da Cunha, Ana Paula de Castro Nascimento.et al. AERIAL, GROUND AND CHEMIGATION SPRAY DEPOSITION ON CORNOR THE CONTROL OF Spodoptera frugiperda (LEPIDOPTERA: NOCTUIDAE) [J]. Ciênc. agrotec., Lavras, v. 37, n. 2, p. 123-129.mar./abr., 2013. [52] Arrington A E, Kennedy G G, Abney M R. Applying Insecticides through Drip Irrigation to Reduce Wireworm (Coleoptera: Elateridae) Feeding Damage in Sweetpotato.[J]. Pest Management Science, 2015, 72(6):1133-1140. [53] Candole B L, Csinos A S, Wang D. Distribution and efficacy of drip-applied metam-sodium against the survival of Rhizoctonia solani and yellow nutsedge in plastic-mulched sandy soil beds[J]. Pest Management Science, 2007, 63(5):468-75. [54] Cunha J P A R D, Nascimento A P D C. Aerial, ground and chemigation spray deposition on corn for the control of spodoptera frugiperda (lepidoptera: noctuidae) Deposi??o de calda por aplica??o aérea, terrestre e via água de irriga??o na cultura do milho para o controle de Spodoptera fr[J]. Ciência E Agrotecnologia, 2013, 37(2):123-129. [55] Desaeger J A, Rivera M, Leighty R, et al. Effect of methomyl and oxamyl soil applications on early control of nematodes and insects.[J]. Pest Management Science, 2011, 67(5):507–513. [56] 赵志军,杨静,程福厚,王庆江. 浅谈果园灌溉——工程设施灌溉方法[J]. 果树实用技术与信息,2012,(01):40-42. [57] Li X, Kang Y, Wan S, et al. Reclamation of very heavy coastal saline soil using drip-irrigation with saline water on salt-sensitive plants[J]. Soil Tillage Research, 2015, 146:159-173. [58] Rosegrant M W, Ringler C, Zhu T. Water for Agriculture: Maintaining Food Security under Growing Scarcity[J]. Annual Review of Environment Resources, 2009(34):205-222. [59] Yao P, Dong X, Hu A. Using HYDRUS-2D Simulate Soil Water Dynamic in jujube root zone under drip irrigation[C]. International Symposium on Water Resource and Environmental Protection. IEEE, 2011:684-688. [60] 涂攀峰,邓兰生,龚林,张承林,赖忠明,李中华. 香蕉水肥一体化技术——按叶片数滴灌施肥[J]. 广东农业科学,2011,(02):59-61. [61] Wang X, Zhu H, Reding M E, et al. Delivery of chemical and microbial pesticides through drip irrigation systems.[J]. Applied Engineering in Agriculture, 2009, 25(6):883-893.
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