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Estimation of the potential geographical distribution of a new potato pest (Schrankia costaestrigalis) in China under climate change
XIAN Xiao-qing, ZHAO Hao-xiang, GUO Jian-yang, ZHANG Gui-fen, LIU Hui, LIU Wan-xue, WAN Fang-hao
2023, 22 (8): 2441-2455.   DOI: 10.1016/j.jia.2022.08.023
Abstract342)      PDF in ScienceDirect      

Global food security is threatened by the impacts of the spread of crop pests and changes in the complex interactions between crops and pests under climate change.  Schrankia costaestrigalis is a newly-reported potato pest in southern China.  Early-warning monitoring of this insect pest could protect domestic agriculture as it has already caused regional yield reduction and/or quality decline in potato production.  Our research aimed to confirm the potential geographical distributions (PGDs) of Scostaestrigalis in China under different climate scenarios using an optimal MaxEnt model, and to provide baseline data for preventing agricultural damage by Scostaestrigalis.  Our findings indicated that the accuracy of the optimal MaxEnt model was better than the default-setting model, and the minimum temperature of the coldest month, precipitation of the driest month, precipitation of the coldest quarter, and the human influence index were the variables significantly affecting the PGDs of Scostaestrigalis.  The highly- and moderately-suitable habitats of Scostaestrigalis were mainly located in eastern and southern China.  The PGDs of Scostaestrigalis in China will decrease under climate change.  The conversion of the highly- to moderately-suitable habitat will also be significant under climate change.  The centroid of the suitable habitat area of Scostaestrigalis under the current climate showed a general tendency to move northeast and to the middle-high latitudes in the 2030s.  The agricultural practice of plastic film mulching in potato fields will provide a favorable microclimate for Scostaestrigalis in the suitable areas.  More attention should be paid to the early warning and monitoring of Scostaestrigalis in order to prevent its further spread in the main areas in China’s winter potato planting regions.

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First report of the South American tomato leafminer, Tuta absoluta (Meyrick), in China
ZHANG Gui-fen, MA De-ying, WANG Yu-sheng, GAO You-hua, LIU Wan-xue, ZHANG Rong, FU Wen-jun, XIAN Xiao-qing, WANG Jun, KUANG Meng, WAN Fang-hao
2020, 19 (7): 1912-1917.   DOI: 10.1016/S2095-3119(20)63165-3
Abstract499)      PDF in ScienceDirect      
Tuta absoluta (Meyrick) originated in South America and is one of the most serious pests of tomatoes.  It is also known to attack other solanaceous crops, including potato, eggplant, pepper, tobacco, and weedy species such as black nightshade.  After accidental introduction into Spain in 2006, this pest spread rapidly throughout Afro-Eurasia and has become a major threat to tomato production worldwide.  Here, we report the first record of T. absoluta as an invasive pest in China.  It was found in tomato fields in Ili Kazakg Autonomous Prefecture, Xinjiang Uygur Autonomous Region (Ili, Xinjiang), China, and its occurrence was confirmed by both morphological and molecular approaches.  In Ili, T. absoluta has been found to attack eggplant, potato, and black nightshade.  We found the larvae generally mining and feeding on leaves and boring into tomato fruits, with multiple larvae sometimes observed in a single fruit.  Its infestation levels differ among the tomato fields and host species.  In all of the surveyed tomato fields, T. absoluta infested 100% of plants.  In some of the fields, up to 90% of the eggplant and 100% of the potato plants were infested.  Since no natural enemies were found under field conditions, suitable management practices are urgently needed to stop the further spread of this destructive pest in China.
 
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Range expansion of the invasive cotton mealybug, Phenacoccus solenopsis Tinsley: An increasing threat to agricultural and horticultural crops in China
WANG Yu-sheng, DAI Tian-mei, TIAN Hu, WAN Fang-hao, ZHANG Gui-fen
2020, 19 (3): 881-885.   DOI: 10.1016/S2095-3119(19)62765-6
Abstract143)      PDF in ScienceDirect      
The globally invasive cotton mealybug Phenacoccus solenopsis Tinsley, has recently invaded several Chinese regions, and continues to expand its range.  This mealybug is a polyphagous insect pest, with at least 200 host plants from 63 families, including cotton, food crops, fruits, ornamental plants, tobacco, and vegetables.  Here, we describe the first finding of P. solenopsis in Shandong Province, and investigate the abundances of its natural enemies (predator Coccinella septempunctata L. and parasitoid Aenasius bambawalei Hayat).  All three species were detected from ornamental and weed species in Linyi, Shandong, in September 2018, and were positively identified using DNA barcoding.  BLAST analysis revealed significant identity (99.38–100%) between sequences of P. solenopsis obtained in this study and those published in the past.  This invasive pest represents a major potential threat to agri-horticulture in Shandong, which is a key province of China for production and export of many vegetables, flowers, fruits, and other crops.  This mealybug species has a wide range of potential distribution in Shandong and is easily dispersed with agricultural and horticultural transport products.  Further monitoring and management strategies are required to limit the spread of this pest species.
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Species-specific COI primers for rapid identification of a globally significant invasive pest, the cassava mealybug Phenacoccus manihoti Matile-Ferrero
WANG Yu-sheng, TIAN Hu, WAN Fang-hao, ZHANG Gui-fen
2019, 18 (5): 1042-1049.   DOI: 10.1016/S2095-3119(18)62043-X
Abstract186)      PDF in ScienceDirect      
The globally invasive cassava mealybug Phenacoccus manihoti Matile-Ferrero is a pernicious pest of cassava, and its recent introduction into Asia has raised considerable alarm.  To slow or prevent further invasion, an accurate, simple, and developmental-stage-independent detection method for P. manihoti is required.  In the present study, a PCR method based on a species-specific mitochondrial DNA cytochrome oxidase I (SS-COI) marker was developed for rapid identification of P. manihoti.  One pair of SS-COI primers (PMSSZW-1F and PMSSZW-1R) was designed based on sequence variations in the COI gene among P. manihoti and related mealybug species.  Specificity of the primer pair was validated on 21 closely related species.  Sensitivity tests were performed on four immature developmental stages and female adults.  Efficacy tests demonstrated that at the relatively low concentration of (135.2±14.7) pg μL–1 resuspended DNA, the specific fragment was detected in all replicates.  Furthermore, the SS-COI primer pair was assayed on three populations of P. manihoti from major exporting countries of cassava.  The PCR assay was proved to be a rapid, simple, and reliable molecular measure for the identification of P. manihoti.  This tool will be useful for quarantine, monitoring, and management of this invasive pest.
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Copyright © Journal of Integrative Agriculture
Sponsored by Chinese Academy of Agricultural Sciences (CAAS)
Co-sponsored by China Association of Agricultural Science Societies (CAASS)
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