Beijing Key Laboratory for Forest Pest Control, Beijing Forestry University, Beijing, China.
Department of Geology and Mining, Henan Geology Mineral College, Zhengzhou, China.
Pest Manag Sci. 2024 Jul;80(7):3423-3435. doi: 10.1002/ps.8046. Epub 2024 Mar 11.
Dendroctonus valens along with its symbiotic fungi have caused unprecedented damage to pines in China. Leptographium procerum, its primary symbiotic fungus, facilitates the invasion and colonization of the pest, thereby aggravating ecological threats. Assessing shifts in the niches and ranges of D. valens and its symbiotic fungus could provide a valuable basis for pest control. Here, we conducted niche comparisons between native and invasive populations of D. valens. Then, we employed standard ecological niche models and ensembles of small models to predict the potential distributions of D. valens and L. procerum under climate change conditions and to estimate areas of overlap.
The niche of invasive population of D. valens in Chinese mainland only occupied a limited portion of the niche of native population in North America, leaving a substantial native niche unfilled and without any niche expansion. The suitable regions for D. valens are predicted in central and southern North America and central and northeastern Chinese mainland. The overlap with the suitable regions of L. procerum included eastern North America and the central and northeastern Chinese mainland under historical climatic scenarios. The regions susceptible to their symbiotic damage will shift northward in response to future climate change.
Projected distributions of D. valens and its symbiotic fungus, along with areas vulnerable to their symbiotic damage, provide essential insights for devising strategies against this association. Additionally, our study contributes to comprehending how biogeographic approaches aid in estimating potential risks of pest-pathogen interactions in forests within a warming world. © 2024 Society of Chemical Industry.
松墨天牛及其共生真菌对中国的松林造成了前所未有的破坏。其主要共生真菌长喙壳菌促进了害虫的入侵和定殖,从而加剧了生态威胁。评估松墨天牛及其共生真菌的生态位和分布范围的变化,可以为害虫防治提供有价值的依据。在这里,我们对松墨天牛的本地种群和入侵种群进行了生态位比较。然后,我们采用标准的生态位模型和小模型集合来预测松墨天牛和长喙壳菌在气候变化条件下的潜在分布,并估计重叠区域。
中国内地入侵种群的松墨天牛的生态位仅占据了北美的本地种群生态位的有限部分,留下了大量的本地生态位未被占据,没有任何生态位扩张。预测适合北美的天牛分布在中美洲和南美洲以及中国内地的中南部。在历史气候情景下,与长喙壳菌的适宜区域重叠包括北美洲东部和中国内地的中东部。它们共生损害的敏感区域将随着未来气候变化而向北转移。
松墨天牛及其共生真菌的预测分布以及易受其共生损害的区域,为制定防治这一关联的策略提供了重要的见解。此外,我们的研究有助于理解生物地理方法如何有助于估计在全球变暖的世界中森林中害虫-病原菌相互作用的潜在风险。© 2024 化学工业协会。
