1. Fruit fly identification, population dynamics and fruit damage during fruiting seasons of sweet oranges in Rusitu Valley, Zimbabwe.
- Author
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Musasa ST, Mashingaidze AB, Musundire R, Aguiar AARM, Vieira J, and Vieira CP
- Subjects
- Africa, Animals, Asia, Citrus sinensis parasitology, Electron Transport Complex IV genetics, Fruit growth & development, Fruit parasitology, Phylogeny, Phylogeography, Population Density, Population Dynamics, Seasons, Tephritidae genetics, Zimbabwe, Citrus sinensis growth & development, Tephritidae classification, Tephritidae pathogenicity
- Abstract
In 2003, the pest species Bactrocera dorsalis (Hendel) was reported for the first time in Kenya, Africa, and subsequently on many other African countries. In this work, 20 locations along the Rusitu Valley (Zimbabwe) were sampled in 2014 during the sweet oranges fruiting seasons, to verify the fruit fly taxonomy, invasion source, population dynamics, and fruit damage. The trapped fruit flies were identified using morphological traits and molecular techniques, as B. dorsalis. The haplotype network analysis revealed that Zimbabwe COI sequences were identical to other African B. dorsalis sequences. Fruit fly trappings per day varied during the year, although it remained always high. The same applies to fruit damage, most likely due to the permanent availability of cultivated and wild fruit varieties during the year. Rusitu Valley was invaded by B. dorsalis, most likely from neighbouring countries. Ten years after the first report in Kenya, the complete or near complete invasion of Africa has been achieved by B. dorsalis. In northern Africa the distribution is clearly limited by the Sahara desert. The large population size, the polyphagous nature of the species, and the continuous availability of suitable host fruit species during the year complicates the eradication of this species.
- Published
- 2019
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