Species Exclusion Between an Invasive and an Indigenous Whitefly on Host Plants with Differential Levels of Suitability

Species Exclusion Between an Invasive and an Indigenous Whitefly on Host Plants with Differential Levels of Suitability

The whitefly Bemisia tabaci has risen to international prominence since the 1980s due to the rapid spread around the globe by the two species B and Q within this species complex. The invasion of B has often been associated with the displacement of indigenous whiteflies. As the genetic structure of B...

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Main Authors: Jun-bo LUAN, Jing XU, Ke-ke LIN, Myron P Zalucki, Shu-sheng LIU
Format: Article
Language:English
Published: Elsevier 2012-02-01
Series:Journal of Integrative Agriculture
Subjects:
Bemisia tabaci
competitive displacement
insecticide
invasive species
Online Access:http://www.sciencedirect.com/science/article/pii/S2095311912600069
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spelling doaj-510f9f59d3594eebb530e6577c36c8782021-06-07T06:47:24ZengElsevierJournal of Integrative Agriculture2095-31192012-02-01112215224Species Exclusion Between an Invasive and an Indigenous Whitefly on Host Plants with Differential Levels of SuitabilityJun-bo LUAN0Jing XU1Ke-ke LIN2Myron P Zalucki3Shu-sheng LIU4Key Laboratory of Agricultural Entomology, Minstry of Agriculture/Institute of Insect Sciences, Zhejiang University, Hangzhou 310029, P.R. ChinaKey Laboratory of Agricultural Entomology, Minstry of Agriculture/Institute of Insect Sciences, Zhejiang University, Hangzhou 310029, P.R. ChinaKey Laboratory of Agricultural Entomology, Minstry of Agriculture/Institute of Insect Sciences, Zhejiang University, Hangzhou 310029, P.R. ChinaSchool of Biological Sciences, The University of Queensland, Queensland 4072, AustraliaKey Laboratory of Agricultural Entomology, Minstry of Agriculture/Institute of Insect Sciences, Zhejiang University, Hangzhou 310029, P.R. China; Correspondence LIU Shu-sheng, Tel: +86-571-86971505, Fax: +86-571-86049815The whitefly Bemisia tabaci has risen to international prominence since the 1980s due to the rapid spread around the globe by the two species B and Q within this species complex. The invasion of B has often been associated with the displacement of indigenous whiteflies. As the genetic structure of B. tabaci is diverse, more case studies of the competitive relationships between B and indigenous species of the whitefly species complex will help to understand further the mechanisms underlying the invasion of B. We examined the competitive interactions between B and ZHJ2, a widely distributed indigenous whitefly in Asia, on host plants with differential levels of suitability to the two species in the laboratory, and also tested the effect of insecticide application on the competitive relationships. Three species of plants were tested including cotton, a plant showing similar levels of suitability to both species, squash, a plant showing higher suitability to B than to ZHJ2, and kidney bean, a plant showing higher suitability to ZHJ2 than to B. In the case of no insecticide application, B displaced ZHJ2 on cotton, squash, and kidney bean by the 6th, 3rd and 10th generation, respectively. With the application of imidacloprid, the displacement of ZHJ2 by B on cotton occurred by the 5th generation. As the displacement progressed, the proportion of B females increased, and the proportion of ZHJ2 females decreased on cotton and squash. In contrast, on kidney bean the proportion of B females remained unchanged while that of ZHJ2 increased. These results show the strong capacity of the invasive B to displace ZHJ2, and indicate that host plants with differential levels of suitability to the two species may affect the speed but not the trend of displacement and insecticide application may accelerate the process of displacement.http://www.sciencedirect.com/science/article/pii/S2095311912600069Bemisia tabacicompetitive displacementinsecticideinvasive species
collection DOAJ
language English
format Article
sources DOAJ
author Jun-bo LUAN
Jing XU
Ke-ke LIN
Myron P Zalucki
Shu-sheng LIU
spellingShingle Jun-bo LUAN
Jing XU
Ke-ke LIN
Myron P Zalucki
Shu-sheng LIU
Species Exclusion Between an Invasive and an Indigenous Whitefly on Host Plants with Differential Levels of Suitability
Journal of Integrative Agriculture
Bemisia tabaci
competitive displacement
insecticide
invasive species
author_facet Jun-bo LUAN
Jing XU
Ke-ke LIN
Myron P Zalucki
Shu-sheng LIU
author_sort Jun-bo LUAN
title Species Exclusion Between an Invasive and an Indigenous Whitefly on Host Plants with Differential Levels of Suitability
title_short Species Exclusion Between an Invasive and an Indigenous Whitefly on Host Plants with Differential Levels of Suitability
title_full Species Exclusion Between an Invasive and an Indigenous Whitefly on Host Plants with Differential Levels of Suitability
title_fullStr Species Exclusion Between an Invasive and an Indigenous Whitefly on Host Plants with Differential Levels of Suitability
title_full_unstemmed Species Exclusion Between an Invasive and an Indigenous Whitefly on Host Plants with Differential Levels of Suitability
title_sort species exclusion between an invasive and an indigenous whitefly on host plants with differential levels of suitability
publisher Elsevier
series Journal of Integrative Agriculture
issn 2095-3119
publishDate 2012-02-01
description The whitefly Bemisia tabaci has risen to international prominence since the 1980s due to the rapid spread around the globe by the two species B and Q within this species complex. The invasion of B has often been associated with the displacement of indigenous whiteflies. As the genetic structure of B. tabaci is diverse, more case studies of the competitive relationships between B and indigenous species of the whitefly species complex will help to understand further the mechanisms underlying the invasion of B. We examined the competitive interactions between B and ZHJ2, a widely distributed indigenous whitefly in Asia, on host plants with differential levels of suitability to the two species in the laboratory, and also tested the effect of insecticide application on the competitive relationships. Three species of plants were tested including cotton, a plant showing similar levels of suitability to both species, squash, a plant showing higher suitability to B than to ZHJ2, and kidney bean, a plant showing higher suitability to ZHJ2 than to B. In the case of no insecticide application, B displaced ZHJ2 on cotton, squash, and kidney bean by the 6th, 3rd and 10th generation, respectively. With the application of imidacloprid, the displacement of ZHJ2 by B on cotton occurred by the 5th generation. As the displacement progressed, the proportion of B females increased, and the proportion of ZHJ2 females decreased on cotton and squash. In contrast, on kidney bean the proportion of B females remained unchanged while that of ZHJ2 increased. These results show the strong capacity of the invasive B to displace ZHJ2, and indicate that host plants with differential levels of suitability to the two species may affect the speed but not the trend of displacement and insecticide application may accelerate the process of displacement.
topic Bemisia tabaci
competitive displacement
insecticide
invasive species
url http://www.sciencedirect.com/science/article/pii/S2095311912600069
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