Predicting the potential distribution of the invasive species, Ophelimus maskelli (Ashmead) (Hymenoptera: Eulophidae), and its natural enemy Closterocerus chamaeleon (Hymenoptera: Eulophidae), under current and future climate conditions.

Lifang Cheng, Minmin Niu, Xiaojun Zhao, Bo Cai, Jiufeng Wei
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Abstract

Invasive species pose a threat to ecosystems and humans worldwide, which is exacerbated by climate change, causing the expansion of species distributions. Ophelimus maskelli (Ashmead) (Hymenoptera: Eulophidae) causes leaf drying and shedding in eucalyptus trees, forming blister-like galls that negatively impact the growth of the trees. Closterocerus chamaeleon (Hymenoptera: Eulophidae) is a recognized parasitoid of O. maskelli. This study used the MaxEnt and CLIMEX models to predict the potential distribution under current and future climate scenarios for O. maskelli and its natural enemy, C. chamaeleon. The MaxEnt model result indicated that isothermality was the most critical factor predicting the distribution of O. maskelli, while the mean temperature of the driest quarter was the most critical factor predicting the distribution of C. chamaeleon. Under current climate conditions, the CLIMEX model predicted a wider potential distribution for O. maskelli and a smaller distribution for C. chamaeleon than the MaxEnt model. MaxEnt and CLIMEX prediction results indicated that South America and Africa were suitable for O. maskelli and C. chamaeleon. The MaxEnt model indicated that under SSP245 climate conditions, the potentially suitable regions for these species expanded, while under the SSP126 climate scenario, the region contracted significantly. The CLIMEX model indicated that under the A1B and A2 climate scenarios, the marginally suitable areas increased, while the moderately and highly suitable areas decreased. This study provides a theoretical basis for creating early monitoring, quarantine, and control methods for invasive pests.

预测入侵物种 Ophelimus maskelli (Ashmead) (膜翅目:嗜鳝科) 及其天敌 Closterocerus chamaeleon (膜翅目:嗜鳝科) 在当前和未来气候条件下的潜在分布。
入侵物种对世界各地的生态系统和人类构成威胁,气候变化加剧了这一威胁,导致物种分布范围扩大。Ophelimus maskelli (Ashmead) (膜翅目:桉树科)会导致桉树叶片干枯和脱落,形成水泡状虫瘿,对树木生长造成负面影响。Closterocerus chamaeleon(膜翅目:Eulophidae)是一种公认的 O. maskelli 的寄生虫。本研究利用 MaxEnt 和 CLIMEX 模型预测了在当前和未来气候情景下,O. maskelli 及其天敌 C. chamaeleon 的潜在分布。MaxEnt 模型结果表明,等温线是预测 O. maskelli 分布的最关键因素,而最干旱季度的平均温度是预测 C. chamaeleon 分布的最关键因素。在当前气候条件下,与 MaxEnt 模型相比,CLIMEX 模型预测的 O. maskelli 潜在分布范围更广,而 C. chamaeleon 的分布范围更小。MaxEnt 和 CLIMEX 预测结果表明,南美洲和非洲适合 O. maskelli 和 C. chamaeleon 生长。MaxEnt 模型表明,在 SSP245 气候条件下,这些物种的潜在适宜区扩大了,而在 SSP126 气候条件下,适宜区明显缩小。CLIMEX 模型表明,在 A1B 和 A2 气候情景下,勉强适宜区扩大,而中度和高度适宜区缩小。这项研究为制定入侵害虫的早期监测、检疫和控制方法提供了理论依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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