Abstract

Sirex nitobei, an Asian native wood wasp species, is a major pest in coniferous commercial forestry, infesting and weakening conifers through its obligate mutualism with a wood-rotting fungus species. The combination of wood wasp larvae and obligate mutualistic fungus causes the breakdown of plant vascular tissue, leading to the weakening of the plant and eventually to death, as well as a high economic cost in commercial forestry. Since it was first recorded in China in the early 1980s, S. nitobei has widely spread and become successfully established. Despite its extensive distribution range, little is known about the factors influencing current and future distribution patterns for potential pest control and monitoring. We used a maximum entropy model in conjunction with climate variables and shared socio-economic pathways to predict the current and future distribution of S. nitobei in China. We used the jackknife method and correlation analysis to select the bioclimatic and environmental variables that influence the geographic distribution of S. nitobei, which resulted in the inclusion of the monthly total precipitation in July (prec7), the monthly average maximum temperature in February (tmax2), the monthly average minimum temperature in July (tmin7), the monthly total precipitation in December (prec12), and isothermality (bio3). We found that precipitation and temperature influenced the potentially suitable areas, as predicted by the maximum entropy model. Moreover, the association of the fungus, the wood wasp, and the host plant impacts are related to availability of moisture and temperature, where moisture affects the growth of the fungus, and temperature influences the emergence, development and growth of larvae. Under the current climate conditions, the total potential suitable areas increased by 18.74%, while highly suitable and moderately suitable areas increased by 28.35 and 44.05%, respectively, under the 2081–2100 ssp245, 370 scenarios. Favorable conditions under climate change, low rainfall, and high temperature will favor the speedy larval development, the growth of its obligate nutritional fungal mutualist and the ability of S. nitobei to rapidly spread in previously unsuitable areas.

Highlights

  • IntroductionInvasive alien species (IAS) can cause significant negative ecosystem level, economic, and human health impacts in areas they are introduced to [1,2,3,4]

  • The results showed that the suitable value of the potentially suitable distribution area under prec7 showed that the suitable value of the potentially suitable distribution area under prec7 was 68–469 mm, and the most suitable value was 158 mm of rainfall

  • We found that maximum entropy model is effective in predicting the potential suitable areas of S. nitobei in China, despite the given small sample sizes

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Summary

Introduction

Invasive alien species (IAS) can cause significant negative ecosystem level, economic, and human health impacts in areas they are introduced to [1,2,3,4]. Invasive species are predicted to be one of the biggest drivers of global change as a result of their impacts on the environment [5]. Invasive alien species are those species that are introduced intentionally or unintentionally by humans to regions outside their geographic distribution [6]. Once established, these species begin to have negative effects on the environment through their interactions with biota in the introduced region. Under the scenario of global climate change, more areas are predicted to become more suitable as temperatures increase, making previously unsuitable habitats become more habitable

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