人工林上层结构对下层结构、小气候条件和 Ixodes scapularis(Acari: Ixodidae)密度的连带影响。

Stephanie N Hurd, Laura S Kenefic, Jessica E Leahy, Carly C Sponarski, Allison M Gardner
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摘要

为实现土地所有者的不同目标而采取的森林管理措施会影响野生动物的栖息地,并可能打断疾病媒介的生命周期阶段,其中包括黑腿蜱,Ixodes scapularis Say(Acari: Ixodidae)。黑腿蜱传播多种病原体,包括莱姆病的病原体 Borrelia burgdorferi,莱姆病是美国最常见的蜱媒疾病。有证据表明,一系列积极的森林管理措施(如移除入侵植物、规定燃烧)可以改变蜱的密度和病原体的传播。然而,很少有研究调查了通常由木材采伐操纵的林分结构变量与蜱虫生态之间的关系。林业人员可能会通过采伐木材来创造特定的森林结构条件,如每公顷树木的平均数量或基部面积。本研究采用阻断设计中的空间重复实验,对具有一系列上层结构的林分进行比较,并记录中层、下层和林地的变化,以及蜱虫非寄主栖息地内的小气候条件。每公顷树木数量或基部面积越大,树冠郁闭度越高,但林下覆盖度越低,小气候温度越稳定,小气候湿度越高,蜱若虫密度越大。随机森林模型确定林下结构是若虫密度的最强预测因子。每公顷的树木数量或基部面积与鹿(Odocoileus virginianus Zimmermann)的日常活动或若虫感染率之间没有关系。这些发现加深了人们对林地内蜱与栖息地之间关系的理解,并有可能为森林管理决策提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cascading impacts of overstory structure in managed forests on understory structure, microclimate conditions, and Ixodes scapularis (Acari: Ixodidae) densities.

Forest management practices designed to meet varied landowner objectives affect wildlife habitat and may interrupt the life-cycle stages of disease vectors, including the black-legged tick, Ixodes scapularis Say (Acari: Ixodidae). Ixodes scapularis transmits multiple pathogens including Borrelia burgdorferi, the causative agent of Lyme disease, which is the most common tick-borne disease in the United States. There is evidence that a range of active forest management practices (e.g., invasive plant removal, prescribed burning) can alter tick densities and pathogen transmission. However, few studies have investigated relationships between forest stand structural variables commonly manipulated by timber harvesting and tick ecology. Foresters may harvest timber to create certain forest structural conditions like the mean number of trees, or basal area, per hectare. This study used a spatially replicated experiment in a blocked design to compare forest stands with a range of overstory structures and document variations in the midstory, understory, and forest floor, as well as microclimate conditions within tick off-host habitat. Greater numbers of trees or basal area per hectare correlated with greater canopy closure but less understory cover, stabilized microclimate temperature, higher microclimate humidity, and greater I. scapularis nymph densities. A random forest model identified understory forest structure as the strongest predictor of nymph densities. There was no relationship between the number of trees or basal area per hectare and daily deer (Odocoileus virginianus Zimmermann) activity or nymphal infection prevalence. These findings provide a deeper understanding of tick-habitat associations within a forest stand and have the potential to inform forest management decisions.

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