Shrub encroachment of coastal ecosystems depends on dune elevation

IF 1.9 4区 环境科学与生态学 Q3 ECOLOGY
Natasha N. Woods, Julie C. Zinnert
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Abstract

Woody plant encroachment is influenced by interactions between the physical environment and vegetation, which create heterogenous microenvironments some of which favor shrub recruitment through mitigation of the abiotic environment. Encroachment of native shrub, Morella cerifera into grasslands on Hog Island, Virginia has been attributed to warmer winter temperature; however, recruitment of seedlings in grasslands may be impacted by multiple factors at the level of the microhabitat. Our study focuses on a critical gap in understanding factors specifically influencing M. cerifera seedling recruitment and survival. By experimentally planting M. cerifera seedlings at varying dune elevations and grass densities, we tested hypotheses that dune elevation influences the microclimate, soil characteristics and vegetation cover and that grass cover/density is related to shrub establishment. We tested these hypotheses through gathering data from temperature data loggers, conducting soil water content and chloride analyses, and determining percent cover of grasses relative to dune elevation. Results indicate that dune elevation was positively related to moderated temperatures with reduced temperature extremes and vegetation cover/composition that led to favorable locations for M. cerifera establishment and growth. Where dune elevation is > 2 m, we document an upper limit of grass cover on natural seedling establishment, suggesting a switch from facilitative to competitive effects with grass density. Overall, our work demonstrates interactions between dune elevation and medium grass density has a facilitative influence on M. cerifera establishment and can be used for future predictions of shrub growth with rising sea-levels.

Abstract Image

灌木对沿海生态系统的侵蚀取决于沙丘高度
木本植物的蚕食受到自然环境和植被之间相互作用的影响,这些相互作用创造了不同的微环境,其中一些微环境通过缓解非生物环境有利于灌木的生长。弗吉尼亚州猪岛(Hog Island)的本地灌木莫瑞拉(Morella cerifera)对草地的侵占被归因于冬季温度升高;然而,草地幼苗的新陈代谢可能受到微生境层面多种因素的影响。我们的研究侧重于了解影响 Cerifera 幼苗新陈代谢和存活的关键因素。通过在不同的沙丘海拔高度和草地密度下实验性地种植 Cerifera 幼苗,我们检验了以下假设:沙丘海拔高度会影响小气候、土壤特性和植被覆盖度,草地覆盖度/密度与灌木的建立有关。我们通过收集温度数据记录器的数据、进行土壤含水量和氯化物分析以及确定草的覆盖率与沙丘海拔的关系来验证这些假设。结果表明,沙丘海拔与温和的气温呈正相关,极端气温和植被覆盖率/组成减少,有利于 Cerifera 的建立和生长。在沙丘海拔为 > 2 米的地方,我们记录了草覆盖对自然育苗的上限,这表明随着草密度的增加,促进作用转变为竞争作用。总之,我们的研究表明,沙丘海拔高度与中等草密度之间的相互作用对 Cerifera 的建立具有促进作用,可用于预测未来海平面上升对灌木生长的影响。
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来源期刊
Plant Ecology
Plant Ecology 环境科学-林学
CiteScore
3.40
自引率
0.00%
发文量
58
审稿时长
8.6 months
期刊介绍: Plant Ecology publishes original scientific papers that report and interpret the findings of pure and applied research into the ecology of vascular plants in terrestrial and wetland ecosystems. Empirical, experimental, theoretical and review papers reporting on ecophysiology, population, community, ecosystem, landscape, molecular and historical ecology are within the scope of the journal.
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