Landscape-scale biogeographic distribution analysis of the whitefly , Bemisia tabaci (Gennadius, 1889) in Kenya
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ORIGINAL RESEARCH ARTICLE
Landscape-scale biogeographic distribution analysis of the whitefly, Bemisia tabaci (Gennadius, 1889) in Kenya Bester Tawona Mudereri 1,2 Elfatih M. Abdel-Rahman 1,6
&
Emily Kimathi 1 & Tavengwa Chitata 2,3
&
Moleseng Claude Moshobane 4,5
&
Received: 21 June 2020 / Accepted: 29 October 2020 # African Association of Insect Scientists 2020
Abstract Understanding the drivers of habitat use and the suitability of landscape patches by invasive insect species is crucial in their control and management. This simplifies the comprehension of the processes driving invasive insect population dynamics, their functioning, and potential disturbance within their introduced ecosystems. The whitefly, Bemisia tabaci (Gennadius, 1889), is ranked among the world’s 100 most invasive insect pests and is a major threat to many important cash and staple food crops. In this study, we identified levels and areas at risk of the invasive B. tabaci at a landscape scale in Kenya using elevation, land surface temperature, land cover, rainfall, and temperature of the present and future (the year 2050 of the community climate system model version 4 (CCSM4)), and using a maximum entropy (MaxEnt) model. Our results show that ~14% of Kenya’s land area is currently at risk of B. tabaci invasion. This area is likely to increase to 15% and 16% because of climate change using the representative concentration pathways (RCP) i.e. RCP 2.6 and RCP 8.5 of the year 2050, respectively. Land cover, particularly croplands, provided the highest permutation importance together with precipitation variables in determining the occurrence of the pest. A wide preference range within elevation, precipitation, temperature, and plant hosts was observed suggesting a great potential for B. tabaci to establish in many areas in Kenya and potentially in other countries with similar conditions in Africa. However, the predicted increases in global temperature could reduce the pest’s preferred environment, but this also imposes limitations on the productivity of many of its host crops. Therefore, our results can be used in adaptive management to control the pest and to prevent the introduction and spread of B. tabaci in areas where it is yet to establish. Keywords Biogeography . Climate change . Ecological niche . Entomology . Invasive species
Introduction * Bester Tawona Mudereri [email protected] 1
International Centre of Insect Physiology and Ecology (ICIPE), P.O. Box 30772, Nairobi 00100, Kenya
2
Department of Animal and Wildlife Science, Midlands State University, P. Bag, 9055 Gweru, Zimbabwe
3
Department of Geography, The University of Sheffield, Western Bank, Sheffield S10 2TN, UK
4
South African National Biodiversity Institute, Pretoria National Botanical Garden, 2 Cussonia Avenue, Brummeria, Pretoria, South Africa
5
Department of Biology, Sefako Makgatho Health Sciences University, Ga-Rankuwa, South Africa
6
Department of Agronomy, Faculty of Agriculture, University of Khartoum, 13314 Khartoum North, Sudan
The Whitefly, Bem
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