Early warning and management of invasive crop pests under global warming: estimating the global geographical distribution patterns and ecological niche overlap of three Diabrotica beetles

Invasive alien pests (IAPs) pose a major threat to global agriculture and food production. When multiple IAPs coexist in the same habitat and use the same resources, the economic loss to local agricultural production increases. Many species of the Diabrotica genus, such as Diabrotica barberi , Diabr...

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Veröffentlicht in:	Environmental science and pollution research international 2024-02, Vol.31 (9), p.13575-13590
Hauptverfasser:	Jin, Zhenan, Zhao, Haoxiang, Xian, Xiaoqing, Li, Ming, Qi, Yuhan, Guo, Jianyang, Yang, Nianwan, Lü, Zhichuang, Liu, Wanxue
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Sprache:	eng
Schlagworte:	Agricultural production Aquatic Pollution Asia Atmospheric Protection/Air Quality Control/Air Pollution Beetles Climate change Coexistence Coleoptera corn Crop production Diabrotica Diabrotica barberi Diabrotica undecimpunctata Diabrotica virgifera Distribution patterns Earth and Environmental Science Ecological niches Economic impact Ecotoxicology Environment Environmental Chemistry Environmental Health Europe financial economics Food production genus Geographical distribution Global warming Invasive species Mexico Niche overlap Niches Pests Production increases quarantine Research Article risk species Waste Water Technology Water Management Water Pollution Control
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creator	Jin, Zhenan Zhao, Haoxiang Xian, Xiaoqing Li, Ming Qi, Yuhan Guo, Jianyang Yang, Nianwan Lü, Zhichuang Liu, Wanxue
description	Invasive alien pests (IAPs) pose a major threat to global agriculture and food production. When multiple IAPs coexist in the same habitat and use the same resources, the economic loss to local agricultural production increases. Many species of the Diabrotica genus, such as Diabrotica barberi , Diabrotica undecimpunctata , and Diabrotica virgifera , originating from the USA and Mexico, seriously damaged maize production in North America and Europe. However, the potential geographic distributions (PGDs) and degree of ecological niche overlap among the three Diabrotica beetles remain unclear; thus, the potential coexistence zone is unknown. Based on environmental and species occurrence data, we used an ensemble model (EM) to predict the PGDs and overlapping PGD of the three Diabrotica beetles. The n-dimensional hypervolumes concept was used to explore the degree of niche overlap among the three species. The EM showed better reliability than the individual models. According to the EM results, the PGDs and overlapping PGD of the three Diabrotica beetles were mainly distributed in North America, Europe, and Asia. Under the current scenario, D. virgifera has the largest PGD ranges (1615 × 10 4 km 2 ). In the future, the PGD of this species will expand further and reach a maximum under the SSP5-8.5 scenario in the 2050s (2499 × 10 4 km 2 ). Diabrotica virgifera showed the highest potential for invasion under the current and future global warming scenarios. Among the three studied species, the degree of ecological niche overlap was the highest for D. undecimpunctata and D. virgifera , with the highest similarity in the PGD patterns and maximum coexistence range. Under global warming, the PGDs of the three Diabrotica beetles are expected to expand to high latitudes. Identifying the PGDs of the three Diabrotica beetles provides an important reference for quarantine authorities in countries at risk of invasion worldwide to develop specific preventive measures against pests.
doi_str_mv	10.1007/s11356-024-32076-9
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When multiple IAPs coexist in the same habitat and use the same resources, the economic loss to local agricultural production increases. Many species of the Diabrotica genus, such as Diabrotica barberi , Diabrotica undecimpunctata , and Diabrotica virgifera , originating from the USA and Mexico, seriously damaged maize production in North America and Europe. However, the potential geographic distributions (PGDs) and degree of ecological niche overlap among the three Diabrotica beetles remain unclear; thus, the potential coexistence zone is unknown. Based on environmental and species occurrence data, we used an ensemble model (EM) to predict the PGDs and overlapping PGD of the three Diabrotica beetles. The n-dimensional hypervolumes concept was used to explore the degree of niche overlap among the three species. The EM showed better reliability than the individual models. 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When multiple IAPs coexist in the same habitat and use the same resources, the economic loss to local agricultural production increases. Many species of the Diabrotica genus, such as Diabrotica barberi , Diabrotica undecimpunctata , and Diabrotica virgifera , originating from the USA and Mexico, seriously damaged maize production in North America and Europe. However, the potential geographic distributions (PGDs) and degree of ecological niche overlap among the three Diabrotica beetles remain unclear; thus, the potential coexistence zone is unknown. Based on environmental and species occurrence data, we used an ensemble model (EM) to predict the PGDs and overlapping PGD of the three Diabrotica beetles. The n-dimensional hypervolumes concept was used to explore the degree of niche overlap among the three species. The EM showed better reliability than the individual models. According to the EM results, the PGDs and overlapping PGD of the three Diabrotica beetles were mainly distributed in North America, Europe, and Asia. Under the current scenario, D. virgifera has the largest PGD ranges (1615 × 10 4 km 2 ). In the future, the PGD of this species will expand further and reach a maximum under the SSP5-8.5 scenario in the 2050s (2499 × 10 4 km 2 ). Diabrotica virgifera showed the highest potential for invasion under the current and future global warming scenarios. Among the three studied species, the degree of ecological niche overlap was the highest for D. undecimpunctata and D. virgifera , with the highest similarity in the PGD patterns and maximum coexistence range. Under global warming, the PGDs of the three Diabrotica beetles are expected to expand to high latitudes. Identifying the PGDs of the three Diabrotica beetles provides an important reference for quarantine authorities in countries at risk of invasion worldwide to develop specific preventive measures against pests.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><pmid>38253826</pmid><doi>10.1007/s11356-024-32076-9</doi><tpages>16</tpages></addata></record>
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subjects	Agricultural production Aquatic Pollution Asia Atmospheric Protection/Air Quality Control/Air Pollution Beetles Climate change Coexistence Coleoptera corn Crop production Diabrotica Diabrotica barberi Diabrotica undecimpunctata Diabrotica virgifera Distribution patterns Earth and Environmental Science Ecological niches Economic impact Ecotoxicology Environment Environmental Chemistry Environmental Health Europe financial economics Food production genus Geographical distribution Global warming Invasive species Mexico Niche overlap Niches Pests Production increases quarantine Research Article risk species Waste Water Technology Water Management Water Pollution Control
title	Early warning and management of invasive crop pests under global warming: estimating the global geographical distribution patterns and ecological niche overlap of three Diabrotica beetles
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