School of Forestry, Northern Arizona University, Flagstaff, AZ, United States of America.
Department of Entomology, Purdue University, West Lafayette, IN, United States of America.
PLoS One. 2020 Aug 26;15(8):e0238219. doi: 10.1371/journal.pone.0238219. eCollection 2020.
Pinyon-juniper (PJ) woodlands have drastically changed over the last century with juniper encroaching into adjacent habitats and pinyon experiencing large-scale mortality events from drought. Changes in climate and forest composition may pose challenges for animal communities found in PJ woodlands, especially if animals specialize on tree species sensitive to drought. Here we test habitat specialization of ground-dwelling arthropod (GDA) communities underneath pinyon and juniper trees. We also investigate the role of climate and productivity gradients in structuring GDAs within PJ woodlands using two elevational gradients. We sampled 12,365 individuals comprising 115 taxa over two years. We found no evidence that GDAs differ under pinyon or juniper trees, save for a single species of beetle which preferred junipers. Climate and productivity, however, were strongly associated with GDA communities and appeared to drive differences between sites. Precipitation was strongly associated with arthropod richness, while differences in GDA composition were associated with environmental variables (precipitation, temperature, vapor pressure, and normalized difference vegetation index). These relationships varied among different arthropod taxa (e.g. ants and beetles) and community metrics (e.g. richness, abundance, and composition), with individual taxa also responding differently. Overall, our results suggest that GDAs are not dependent on tree type, but are strongly linked to primary productivity and climate, especially precipitation in PJ woodlands. This implies GDAs in PJ woodlands are more susceptible to changes in climate, especially at lower elevations where it is hot and dry, than changes in dominant vegetation. We discuss management implications and compare our findings to GDA relationships with vegetation in other systems.
矮松-桧柏林地在过去一个世纪发生了巨大变化,桧柏侵入了相邻的栖息地,而矮松则因干旱而大规模死亡。气候和森林组成的变化可能给矮松-桧柏林地中的动物群落带来挑战,特别是如果动物专门以对干旱敏感的树种为食。在这里,我们测试了在矮松和桧柏树下的地面节肢动物(GDA)群落的栖息地专门化。我们还使用两个海拔梯度来研究气候和生产力梯度在矮松-桧柏林地中对 GDA 结构的作用。我们在两年内采集了 12365 个个体,共 115 个分类群。我们没有发现 GDA 在矮松或桧柏树下有差异的证据,除了一种喜欢桧柏的甲虫。然而,气候和生产力与 GDA 群落强烈相关,似乎驱动了不同地点之间的差异。降水与节肢动物丰富度强烈相关,而 GDA 组成的差异与环境变量(降水、温度、蒸气压和归一化差异植被指数)有关。这些关系在不同的节肢动物类群(如蚂蚁和甲虫)和群落指标(如丰富度、丰度和组成)中有所不同,个别类群的反应也不同。总体而言,我们的结果表明,GDA 不依赖于树种,但与初级生产力和气候密切相关,特别是在矮松-桧柏林地中的降水。这意味着矮松-桧柏林地中的 GDA 比主要植被的变化更容易受到气候变化的影响,特别是在炎热干燥的低海拔地区。我们讨论了管理意义,并将我们的发现与其他系统中 GDA 与植被的关系进行了比较。
