Environmental drivers of spatial variation in myrtle rust development on a critically endangered tree species

IF 4.9 1区环境科学与生态学 Q1 BIODIVERSITY CONSERVATION

Biological Conservation Pub Date : 2024-12-02 DOI:10.1016/j.biocon.2024.110902

James K. McCarthy , Peter J. Bellingham , Insu Jo , Gwen-Aëlle Grelet , Michael Bartlett , Rowan P. Buxton , Alexander J. Fergus , Stuart Fraser , Joanne Peace , Chantal M. Probst , Mahajabeen Padamsee

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引用次数: 0

Abstract

The spread of invasive plant pathogens is on the rise globally, introducing additional threats to forest ecosystems and their constituent species above those already caused by climate change and other anthropogenic stressors. Austropuccinia psidii is a widespread invasive fungus that infects hundreds of species in the Myrtaceae plant family, causing myrtle rust. It was first detected in New Zealand in 2017, where the threatened endemic tree Lophomyrtus bullata is one of the worst affected hosts. Recent studies have described heavy disease severity on this species but environmental drivers of spatial variation in disease severity have not been explored, including the possible role of edge effects which are prevalent across much of this species' highly fragmented natural range. In this study, we tracked changes in disease incidence and severity across a forest edge gradient over three years. Individuals further from the forest edge, where forest canopies were more intact, forest structure more complex, and with greater understorey humidity, had greater disease severity in the first year of infection. In subsequent years, the influence of edge was no longer evident as myrtle rust severity became more even across the site, but disease was more prevalent in denser L. bullata populations. Only small individuals were asymptomatic across all three years. Since all available myrtle rust control techniques are currently feasible only at small scales, our research implies that their application needs to be as early as possible before infection spreads and across all suitable microclimates, and without bias toward easily accessible forest edges.

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一种极危树种桃金娘锈病发展空间变异的环境驱动因素

入侵植物病原体的传播在全球范围内呈上升趋势，在气候变化和其他人为压力因素已经造成的威胁之外，对森林生态系统及其组成物种造成了新的威胁。桃金娘锈病（Austropuccinia psidii）是一种广泛存在的入侵真菌，可感染桃金娘科植物家族中的数百种，引起桃金娘锈病。它于2017年首次在新西兰被发现，那里受威胁的特有树Lophomyrtus bullata是受影响最严重的宿主之一。最近的研究描述了该物种的严重疾病程度，但尚未探索疾病严重程度空间变化的环境驱动因素，包括在该物种高度分散的自然范围内普遍存在的边缘效应的可能作用。在这项研究中，我们追踪了三年来森林边缘梯度上疾病发病率和严重程度的变化。离森林边缘越远的个体，在感染的第一年，林冠越完整，森林结构越复杂，下层湿度越大，疾病严重程度越高。在随后的年份中，随着桃金娘锈病的严重程度在整个站点上变得更加均匀，边缘的影响不再明显，但疾病在密度较大的L. bullata群体中更为普遍。只有少数人在三年内无症状。由于所有可用的桃金娘锈病控制技术目前仅在小范围内可行，我们的研究表明，它们的应用需要在感染蔓延之前尽可能早地在所有合适的小气候中进行，并且不偏向于容易到达的森林边缘。

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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来源期刊

Biological Conservation 环境科学-环境科学

CiteScore

10.20

自引率

3.40%

发文量

295

审稿时长

61 days

期刊介绍： Biological Conservation is an international leading journal in the discipline of conservation biology. The journal publishes articles spanning a diverse range of fields that contribute to the biological, sociological, and economic dimensions of conservation and natural resource management. The primary aim of Biological Conservation is the publication of high-quality papers that advance the science and practice of conservation, or which demonstrate the application of conservation principles for natural resource management and policy. Therefore it will be of interest to a broad international readership.