[1] 陆宴辉, 梁革梅, 张永军, 等. 二十一世纪以来棉花害虫治理成就与展望[J]. 应用昆虫学报, 2020, 57(3):477-490. [2] Landis D A, Wratten S D, Gurr G M. Habitat management to conserve natural enemies of arthropod pests in agriculture[J]. Annual Review of Entomology, 2000, 45(1):175. [3] 杨泉峰, 欧阳芳, 门兴元, 等. 功能植物的作用原理、方式及研究展望[J]. 应用昆虫学报, 2020, 57(1):41-48. [4] Holland J M, Bianchi F J, Entling M H, et al. Structure, function and management of semi-natural habitats for conservation biological control:a review of European studies[J]. Pest Management of Science, 2016, 72(9):1638-1651. [5] 初炳瑶, 陈法军, 马占鸿. 农业生物多样性控制作物病虫害的方法与原理[J]. 应用昆虫学报, 2020, 57(1):28-40. [6] Balmer O, Pfiffner L, Schied J, et al. Noncrop flowering plants restore top-down herbivore control in agricultural fields[J]. Ecology and Evolution, 2013, 3(8):2634-2646. [7] Ditner N, Balmer O, Beck J, et al. Effects of experimentally planting non-crop flowers into cabbage fields on the abundance and diversity of predators[J]. Biodiversity and Conservation, 2013, 22(4):1049-1061. [8] Tschumi M, Albrecht M, Baertschi C, et al. Perennial, species-rich wildflower strips enhance pest control and crop yield[J]. Agriculture, Ecosystems and Environment, 2016, 220:97-103. [9] Ganser D, Knop E, Albrecht M. Sown wildflower strips as overwintering habitat for arthropods:effective measure or ecological trap?[J]. Agriculture, Ecosystems and Environment, 2019, 275:123-131. [10] Pollier A, Tricault Y, Plantegenest M, et al. Sowing of margin strips rich in floral resources improves herbivore control in adjacent crop fields:Floral resources improve herbivore control[J]. Agricultural and Forest Entomology, 2018, 21(1):119-129. [11] Campbell A J, Wilby A, Sutton P, et al. Getting more power from your flowers:multi-functional flower strips enhance pollinators and pest control agents in apple orchards[J]. Insects, 2017, 8(3):101. [12] Ribeiro A L, Gontijo L M. Alyssum flowers promote biological control of collard pests[J]. BioControl, 2017, 62(2):185-196. [13] 王淑会, 杨琼, 张文慧, 等. 生草苹果园绣线菊蚜及其天敌发生规律研究[J]. 安徽农业科学, 2014, 42(10):2945-2948. [14] 卢增斌, 于毅, 门兴元, 等. 苹果园地面植被优化组合对害虫和天敌群落的影响[J]. 山东农业科学, 2016, 48(8):102-108. [15] Zhang R Z, Liang H B, Tian C Y, et al. Biological mechanism of controlling cotton aphid (Homoptera:Aphididae) by the marginal alfalfa zone surrounding cotton field[J]. Chinese Science Bulletin, 2000, 45(4):355-358. [16] Zhang R Z, Ren L, Wang C L, et al. Cotton aphid predators on alfalfa and their impact on cotton aphid abundance[J]. Applied Entomology and Zoology, 2004, 39(2):235-241. [17] 杨泉峰, 欧阳芳, 门兴元, 等. 北方富含天敌的功能植物的发现与应用[J]. 应用昆虫学报, 2018, 55(5):942-947. [18] 苏文雯, 杨泉峰, 欧阳芳, 等. 功能植物苣荬菜的特征及其应用潜能[J]. 应用昆虫学报, 2020, 57(1):228-234. [19] 罗延亮, 李雪玲, 李辉, 等. 苦豆子条带对棉田捕食性天敌发生的影响[J]. 新疆农业科学, 2019, 56(1):74-83. [20] 李雪玲, 罗延亮, 李辉, 等. 田埂碱蓬带对棉田多异瓢虫种群发生的调控作用[J]. 新疆农业科学, 2019, 56(1):13-22. [21] Paredes D, Karp D S, Chaplin-Kramer R, et al. Natural habitat increases natural pest control in olive groves:economic implications[J]. Journal of Pest Science, 2019, 92(3):1111-1121. [22] Letourneau D K, Armbrecht I, Rivera B S, et al. Does plant diversity benefit agroecosystems? A synthetic review[J]. Ecological Applications, 2011, 21(1):9-21. [23] 陆宴辉, 杨益众, 印毅, 等. 棉花抗蚜性及抗性遗传机制研究进展[J]. 昆虫知识, 2004, 41(4):291-294. [24] 张润志, 任立, 张广学. 新疆棉区棉蚜控制策略探讨[J]. 中国生物防治, 2000, 16(4):183-185. [25] 丁瑞丰, 朱晓华, 阿克旦·吾外士, 等. 人工释放普通草蛉田间防治棉蚜效果研究[J]. 植物保护, 2015, 41(2):200-204. [26] 王林霞, 田长彦, 马英杰, 等. 玉米诱集带对棉田天敌种群动态的影响[J]. 干旱地区农业研究, 2004(1):86-89. [27] 赵建周, 杨奇华, 周明牂. 棉田综合种植油菜与高粱诱集带控制棉花害虫的效果[J]. 植物保护, 1989(6):13-14. [28] 雒珺瑜, 崔金杰, 王春义. 不同生态调控方式对棉田棉蚜种群消长动态的影响[J]. 中国棉花, 2014, 41(1):17-19. [29] 杨静. 北疆棉区非棉田生境对捕食性天敌的保育功能[D]. 石河子:石河子大学, [30] 杨静, 龙海, 孙会, 等. 北疆棉区食蚜蝇种类及其生境选择特性[J]. 中国生物防治学报, 2016, 32(5):593-597. [31] 傅一峰, 刘冰, 罗延亮, 等. 北疆棉田非作物生境食蚜蝇种群消长动态[J]. 中国生物防治学报, 2019, 35(1):1-8. [32] 丁岩钦. 昆虫数学生态学[M]. 北京:科学出版社, 1994, 437-442. [33] R Core Team R:A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. URL https://www.R-project.org/,2019. [34] Felipe D M. agricolae:Statistical Procedures for Agricultural Research. R package version 1.3-3. https://CRAN.R-project.org/package=agricolae,2020. [35] Hadley W. ggplot2:Elegant Graphics for Data Analysis[M]. New York:Springer-Verlag, 2016. [36] Raivo K. pheatmap:Pretty Heatmaps. R package version 1.0.12. https://CRAN.R-project.org/package=pheatmap,2019. [37] 杨海峰, 王惠珍, 马祁. 新疆棉花害虫天敌的发生规律及控制效应[J]. 八一农学院学报, 1986(2):39-45. [38] 阿力甫·那思尔, 艾山·阿布都热依木, 孟玲, 等. 北疆棉田捕食性天敌昆虫应对棉蚜的数量反应[J]. 应用昆虫学报, 2015, 52(4):877-882. |