Scientia Agricultura Sinica ›› 2014, Vol. 47 ›› Issue (21): 4269-4279.doi: 10.3864/j.issn.0578-1752.2014.21.012

• PLANT PROTECTION • Previous Articles     Next Articles

Density-Dependent Effect of Liriomyza trifolii at Immature Stage and Interspecific Competition with Liriomyza sativae

YI Hao1,2, WANG Kai-ge1, ZHANG Lin-ya1, LEI Zhong-ren1, LUO Hong-wei3, LIAN Zhen-min2, ZHOU Guo-qi3   

  1. 1State Key Laboratory for Biology of Plant Diseases and Insect Pests, Institute of Plant Protection, Chinese Academy of Agricultural Sciences, Beijing 100193
    2College of Life Sciences, Shaanxi Normal University, Xi’an 710062
    3Sanya Extension Service Center for Agricultural Technology, Sanya 572000, Hainan
  • Received:2014-04-08 Revised:2014-05-28 Online:2014-11-01 Published:2014-11-01

Abstract: 【Objective】The objective of this study is to determine how the density of Liriomyza trifolii eggs and larvae affect its growth and development, explore its density effect of intraspecific competition. In addition, the competition ability for food between L. trifolii and L. sativae larvae under different densities of 1st instar larvae were preliminarily described, and the replacing mechanism about interspecific competition between the two leafminer species was explored.【Method】The extra eggs and larvae of leafminers which were raised in laboratory were killed with needle, so as to form the different egg and 1st instar larvae density gradients, then the remaining leafminers were raised. According to the method of judging the lethal factor of insect whether existed density dependence, N1 was used as individual numbers before the lethal factor acting on, N2 was used as individual numbers after the lethal factor acting on. Moreover, lgN1 as a dependent variable and lgN2 as an independent variable, then the regression coefficient was calculated, while lgN1 as an independent variable, lgN2 as a dependent variable, the regression coefficient was calculated again. If this two straight lines were located in the one side of bisectrix b=1, the factors acted on N1→N2 were density dependent factors. Whereas if this two straight lines were located in two sides of the bisectrix b=1, this factor was not considered as a density related factor. By selecting one pair, two pairs and three pairs of adults of L. trifolii and L. sativae, and they were put on the fixed blade for 24 hours for spawn, in order to form different egg and larvae densities. Then the growth status of two leafminer species offspring was estimated, and the effect of different egg and 1st instar larvae densities on interspecific competition replacement was also analyzed. 【Result】 There was no density effect in L. trifolii during its egg stage, and the survival, growth and development rates were not significantly affected by egg density. Moreover, the survival rate of L. trifolii was above 91% under laboratory conditions. However, there was an obvious density effect at larval stage, in particular, the larvae density had significantly impacts on the survival rate of larvae, average weight of pupae, pupation rate, eclosion rate, lifetime of adults and egg laying amount of single female. When the 1st instar larvae density was larger than 0.87/cm2 on the host plants of dwarf bean, larvae mortality was increased, the average weight of pupae, pupation and eclosion rates were reduced, the lifetime of adults and reproductive ability were also reduced. While the density of 1st instar larvae had no effect on the development rate of larvae and pupae, the female proportion of eclosion adults. In addition, the density during egg stage had no effect on the competitiveness of the two kinds of leafminers, the general hatching rate of the two kinds of leafminers under different densities were all above 94.25%. The higher larvae density led to the drastic interspecific competition. When the density of the two insects was low, their offspring numbers were similar. While the offspring numbers of L. trifolii was remarkably larger than the L. sativae when the density was high. 【Conclusion】 The egg density of L. trifolii had no significant effect on their population amounts. However, the higher 1st instar larvae density led to strong intraspecific competition, while it would refrain the growth of L. trifolii population. Compared with L. sativae, the interspecific competition ability of L. trifolii was much stronger, because the L. trifolii larvae have variable abilities to resist crowd, adapt for the aggravated environment and occupy food resources.

Key words: Liriomyza trifolii, Liriomyza sativae;density restriction, interspecific competition

[1]    李学锋, 黄华章, 张文吉, 姜士聚. 国外三叶草斑潜蝇的综合防治. 农药科学与管理, 1997, 18(2): 19-20.
Li X F, Huang H Z, Zhang W J, Jiang S J. Integrated control of foreign Liriomyza trifolii. Pesticide Science and Administration, 1997, 18(2): 19-20. (in Chinese)
[2]    汪兴鉴, 黄顶成, 李红梅, 薛大勇, 张润志, 陈小琳. 三叶斑潜蝇的入侵、鉴定及在中国适生区分析. 昆虫知识, 2006, 43(4): 540-545.
Wang X J, Huang D C, Li H M, Xue D Y, Zhang R Z, Chen X L. Invasion and identification of Liriomyza trlfolii and its potential distribution areas in China. Chinese Bulletin of Entomology, 2006, 43(4): 540-545. (in Chinese)
[3]    刘春燕, 柳浩, 曾玲, 陆永跃. 两种斑潜蝇及其寄生蜂空间生态位的研究. 环境昆虫学报, 2012, 34(1): 14-21.
Liu C Y, Liu H, Zeng L, Lu Y Y. Research on spatial niche between two vegetable leafminers and their parasitoids. Journal of Environmental Entomology, 2012, 34(1): 14-21. (in Chinese)
[4]    Capinera J L. American serpentine leafminer, Liriomyza trifolii (Burgess) (Insecta: Diptera: Agromyzidae). Entomology and Nematology Department document EENY254. Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida, 2008.
[5]    Yildirim E M, Ünay A, Civelek H S. The effect of Liriomyza trifolii (Burgess) (Diptera: Agromyzidae) on some leaf characteristics of bean (Phaseolus vulgaris L.). Journal of Food, Agriculture and Environment, 2010, 8(3/4): 839-841.
[6]    Johnson M W, Welter S C, Toscano N C, Ting I P, Trumble J T. Reduction of tomato leaflet photosynthesis rates by mining activity of Liriomyza sativae (Diptera: Agromyzidae). Journal of Economic Entomology, 1983, 76(5): 1061-1063.
[7]    Schuster D J, Everftt P H. Response of Liriomyza trifolii (Diptera: Agromyzidae) to insecticides on tomato. Journal of Economic Entomology, 1983, 76(5): 1170-1174.
[8]    Parrella M P. Biology of Liriomyza. Annual Review of Entomology, 1987, 32(1): 201-224.
[9]    Durairaj C, Karthikeyan G, Ganapathy N, Karuppuchamy P. Predisposition effect of Liriomyza trifolii damage to Alternaria leaf spot disease in tomato. Karnataka Journal of Agricultural Sciences, 2010, 23(1): 161-162.
[10]   国家林业局. 我国新发现重大外来有害生物—三叶草斑潜蝇. 中国植保导刊, 2006, 26(5): 55.
State Forestry Administration. A major invasive pest newly discovered in China-Liriomyza trifolii. China Plant Protection, 2006, 26(5): 55. (in Chinese )
[11]   王凯歌, 益浩, 雷仲仁, 相君成, 廉振民. 两种外来入侵斑潜蝇在海南省的竞争取代调查分析. 中国农业科学, 2013, 46(22): 4842-4848.
Wang K G, Yi H, Lei Z R, Xiang J C, Lian Z M. Surveys and analysis of competition and displacement between two invasive species of leafminer fly in Hainan Province. Scientia Agricultura Sinica, 2013, 46(22): 4842-4848. (in Chinese)
[12]   Gao Y L, Lei Z R, Abe Y, Reitz S R. Species displacements are common to two invasive species of leafminer fly in China, Japan, and the United States. Journal of Economic Entomology, 2011, 104(6): 1771-1773.
[13]   Wang C L, Lin F C. Trapping efficiency of yellow sticky cards for the serpentine leafminer Liriomyza trifolii (Burgess) on gerbera. Journal of Agricultural Research in China, 1992, 41(1): 61-69.
[14]   With K A. The landscape ecology of invasive spread. Conservation Biology, 2002, 16(5): 1192-1203.
[15]   Tantowijoyo W, Hoffmann A A. Identifying factors determining the altitudinal distribution of the invasive pest leafminers Liriomyza huidobrensis and Liriomyza sativae. Entomologia Experimentalis et Applicata, 2010, 135(2): 141-153.
[16]   陈艳, 赵景玮. 美洲斑潜蝇实验种群的密度效应. 福建农业大学学报, 1998, 27(1): 78-81.
Chen Y, Zhao J W. Density-dependent effect of the experimental population of vegetable leafminer Liriomyza sativae (Diptera: Agromyzidae). Journal of Fujian Agricultural University, 1998, 27(1): 78-81. (in Chinese)
[17]   Petitt F L, David O W. Intraspecific competition among same    aged larvae of Liriomyza sativae (Diptera: Agromyzidae) in lima  bean primary leaves. Environmental Entomology, 1992, 21(1): 136-140.
[18]   冼继东, 梁广文, 曾玲. 美洲斑潜蝇自然种群的生态控制研究. 环境昆虫学报, 2008, 30(4): 285-290.
Xian J D, Liang G W, Zeng L. Ecological control of the natural population of Liriomyza sativae Blanchard. Journal of Environmental Entomology, 2008, 30(4): 285-290. (in Chinese)
[19]   张慧杰, 李建社, 张丽萍, 梁岩华. 美洲斑潜蝇的寄主植物种类、适合度及其为害性的评价. 生态学报, 2000, 20(1): 134-139.
Zhang H J, Li J S, Zhang L P, Liang Y H. Evalution on the host plant species and fitness to vegetable leafminer and its harmfulness. Acta Ecologica Sinica, 2000, 20(1): 134-139. (in Chinese)
[20]   邓望喜, 李绍勤, 汪钟信, 丁咏梅. 主要蔬菜品种(系)对美洲斑潜蝇抗性的聚类分析. 华中农业大学学报, 2001, 20(2): 114-118.
Deng W X, Li Z Q, Wang Z X, Ding Y M. The resistance clustering analysis of main vegetable varieties to Liriomyza sativae Blanchard. Journal of Huazhong Agricultural University, 2001, 20(2): 114-118. (in Chinese)
[21]   Costa-Lima T C, Geremias L D, Parra J R P. Reproductive activity and survivorship of Liriomyza sativae (Diptera: Agromyzidae) at different temperatures and relative humidity levels. Environmental Entomology, 2010, 39(1): 195-201.
[22]   余道坚, 张润杰, 周昌清, 李雨庭, 金显忠. 温度对美洲斑潜蝇发育、存活和繁殖的影响. 生态学报, 2000, 20(5): 820-823.
Yu D J, Zhang R J, Zhou C Q, Li Y T, Jin X Z. Influence      of temperature on development, survival and fecundity of Liriomyza sativae. Acta Ecologica Sinica, 2000, 20(5): 820-823. (in Chinese)
[23]   Koo H N, Yun S H, Yoon C, Kim G H. Electron beam irradiation induces abnormal development and the stabilization of p53 protein of American serpentine leafminer, Liriomyza trifolii (Burgess). Radiation Physics and Chemistry, 2012, 81(1): 86-92.
[24]   徐汝梅. 昆虫种群生态学. 北京: 北京师范大学出版社, 1987.
Xu R M. Insect Population Ecology. Beijing: Beijing Normal University Press, 1987. (in Chinese)
[25]   Trumble J T, Nakakihara H. Occurrence, parasitization, and sampling of Liriomyza species (Diptera: Agromyzidae) infesting celery in California. Environmental Entomology, 1983, 12(2): 810-814.
[26]   Zehnder G. W, Trumble J T. Host selection of Liriomyza species (Diptera: Agromyzidae) and associated parasites in adjacent plantings of tomato and celery. Environmental Entomology, 1984, 13(2): 492-496.
[27]   Palumbo J C, Mullis J C H, Reyes F J. Composition, seasonal abundance, and parasitism of Liriomyza (Diptera: Agromyzidae) species on lettuce in Arizona. Journal of Economic Entomology, 1994, 87(4): 1070-1077.
[28]   Reitz S R, Trumble J T. Competitive displacement among insects and arachnids. Annual Review of Entomology, 2002, 47(1): 435-465.
[29]   Gao Y L, Reitz S R, Wei Q B, Yu W Y, Lei Z R. Insecticide-mediated apparent displacement between two invasive species of leafminer fly. PloS One, 2012, 7(5): e36622.
[30]   王凯歌. 温度和寄主植物对美洲斑潜蝇与三叶斑潜蝇种间竞争的影响[D]. 北京: 中国农业科学院, 2013: 10-14.
Wang K G. Influences of temperature and host plants on interspecific competition between Liriomyza sativae and Liriomyza trifolii[D]. Beijing: Chinese Academy of Agricultural Sciences, 2013: 10-14. (in Chinese)
[31]   益浩. 美洲斑潜蝇和三叶草斑潜蝇的种间竞争研究[D]. 陕西: 陕西师范大学, 2014: 37-45.
Yi H. Studies on interspecific competition between Liriomyza sativae and Liriomyza trifolii[D]. Shaanxi: Shaanxi Normal University, 2014: 37-45. (in Chinese)
[32]   Sakamaki Y, Miura K, Chi Y. Interspecific hybridization between Liriomyza trifolii and Liriomyza sativae. Annals of the Entomological Society of America, 2005, 98(4): 470-474.
[33]   Tokumaru S, Abe Y. Interspecific hybridization between Liriomyza sativae Blanchard and Liriomyza trifolii (Burgess) (Diptera: Agromyzidae). Applied Entomology and Zoology, 2005, 40(4): 551-555.
[34]   Bethke J A, Parrella M P. Leaf puncturing, feeding and oviposition behavior of Liriomyza trifolii. Entomologia Experimentalis et Applicata, 1985, 39(2): 149-154.
[35]   Parrella M P, Keil C B, Morse J G. Insecticide resistance in Liriomyza trifolii. California Agriculture, 1984, 38(1/2): 22-23.
[36]   Parrella M P. Intraspecific competition among larvae of Liriomyza trifolii (Diptera: Agromyzidae): effects on colony production. Environmental Entomology, 1983, 12(5): 1412-1414.
[37]   Oatman E R, Micheibacher A E. The melon leafminer Liriomyza pictella (Thomson) (Diptera: Agromy zidae):Ⅱ. Ecological studies. Journal of Economic Entomology, 1959, 52(1): 83-89.
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