Topography-driven microclimate gradients shape forest structure, diversity, and composition in a temperate refugial forest.

Q3 Agricultural and Biological Sciences Plant-environment interactions (Hoboken, N.J.) Pub Date : 2024-06-11 eCollection Date: 2024-06-01 DOI:10.1002/pei3.10153
Bailey H McNichol, Ran Wang, Amanda Hefner, Chris Helzer, Sean M McMahon, Sabrina E Russo
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Abstract

Macroclimate drives vegetation distributions, but fine-scale topographic variation can generate microclimate refugia for plant persistence in unsuitable areas. However, we lack quantitative descriptions of topography-driven microclimatic variation and how it shapes forest structure, diversity, and composition. We hypothesized that topographic variation and the presence of the forest overstory cause spatiotemporal microclimate variation affecting tree performance, causing forest structure, diversity, and composition to vary with topography and microclimate, and topography and the overstory to buffer microclimate. In a 20.2-ha inventory plot in the North American Great Plains, we censused woody stems ≥1 cm in diameter and collected detailed topographic and microclimatic data. Across 59-m of elevation, microclimate covaried with topography to create a sharp desiccation gradient, and topography and the overstory buffered understory microclimate. The magnitude of microclimatic variation mirrored that of regional-scale variation: with increasing elevation, there was a decrease in soil moisture corresponding to the difference across ~2.1° of longitude along the east-to-west aridity gradient and an increase in air temperature corresponding to the difference across ~2.7° of latitude along the north-to-south gradient. More complex forest structure and higher diversity occurred in moister, less-exposed habitats, and species occupied distinct topographic niches. Our study demonstrates how topographic and microclimatic gradients structure forests in putative climate-change refugia, by revealing ecological processes enabling populations to be maintained during periods of unfavorable macroclimate.

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地形驱动的小气候梯度塑造了温带原始森林的森林结构、多样性和组成。
宏观气候驱动着植被的分布,但精细尺度的地形变化可以产生微气候庇护所,使植物在不适宜的地区得以生存。然而,我们缺乏对地形驱动的微气候变化及其如何塑造森林结构、多样性和组成的定量描述。我们假设,地形变化和森林上层林木的存在会导致影响树木生长的时空微气候变化,使森林结构、多样性和组成随地形和微气候变化而变化,而地形和上层林木会缓冲微气候。在北美大平原的一个 20.2 公顷的调查区,我们对直径≥1 厘米的木质茎进行了普查,并收集了详细的地形和小气候数据。在海拔 59 米的区域内,微气候与地形共线,形成了一个急剧的干燥梯度,地形和上层林木缓冲了林下微气候。小气候变化的程度反映了区域尺度变化的程度:随着海拔高度的增加,土壤水分减少,相当于东西干旱梯度上约 2.1°经度的差异,气温升高,相当于南北梯度上约 2.7°纬度的差异。在湿度较高、暴露程度较低的栖息地,森林结构更为复杂,多样性更高,物种占据了不同的地形壁龛。我们的研究通过揭示使种群在不利的宏观气候期间得以维持的生态过程,展示了地形和微气候梯度如何在假定的气候变化避难所中构建森林结构。
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来源期刊
CiteScore
2.70
自引率
0.00%
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0
审稿时长
15 weeks
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