Castanea dentata Interactions and Ectomycorrhizal Colonization in Novel Ecosystems

IF 2.3 4区环境科学与生态学 Q2 ECOLOGY

Ecological Restoration Pub Date : 2022-08-29 DOI:10.3368/er.40.3.179

Jenise M. Bauman, J. Franklin, Amy J. Santas

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引用次数: 2

Abstract

ABSTRACT Trial plantings of Castanea dentata (American chestnut) are currently underway using reclaimed surface mines as reintroduction sites for hybrids bred for disease resistance to canker causing Cryphonectria parasitica (chestnut blight). Coalfields of the eastern US coincide with the species range, but little is known of its ecological interactions as it had largely been extirpated from the landscape by the 1940s. Non-native species such as Lespedeza cuneata (sericea lespedeza) have been planted extensively in the region for both agriculture and mine reclamation and often dominate disturbed sites to form novel systems in place of native forests. We investigated the influence of herbaceous species on BC2F3 chestnut hybrid establishment and ectomycorrhizal (ECM) root colonization on three surface mines in eastern Tennessee that were restored using methods to avoid soil compaction. Hybrid chestnut growth, vegetation density, and species composition surrounding each seedling was assessed after eight growing seasons. ECM fungi present on root samples was quantified and identified by DNA sequencing of the internal transcribed spacer (ITS) region. Sites differed significantly in herbaceous cover and seedling growth. Larger seedlings were found on the site that was comprised primarily of L. cuneata. Average ECM colonization was similar across sites, and groundcover vegetation diversity or L. cuneata did not influence ECM species richness. There was a difference in ECM community composition among the three sites with some fungi displaying subtle changes in species rank. Results suggest that in the absence of soil compaction, L. cuneata does not impede hybrid chestnut establishment or ECM root colonization in Appalachian afforestation projects.

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齿锥相互作用与外生菌根在新生态系统中的定殖

摘要:目前，人们正在利用回收的露天矿进行美洲板栗(Castanea dentata，美洲板栗)的试验种植，作为对板栗疫病(crphonecia parasitica，栗叶枯病)抗病杂交种的再引种地。美国东部的煤田与该物种的分布范围一致，但人们对其生态相互作用知之甚少，因为到20世纪40年代，它已经基本上从景观中消失了。非本土物种，如胡枝子(sericea lepedeza)在该地区广泛种植，用于农业和矿山开垦，并经常主导受干扰的地点，形成新的系统，取代原生森林。在美国田纳西州东部3个采用避免土壤压实方法修复的露天矿上，研究了草本物种对BC2F3板栗杂交建立和外生菌根(ECM)根定植的影响。在8个生长季节后，对杂交板栗的生长、植被密度和每棵幼苗周围的物种组成进行了评估。通过内部转录间隔区(ITS)的DNA测序，对存在于根样品上的ECM真菌进行了定量鉴定。不同地点草本盖度和幼苗生长差异显著。在该地点发现了较大的幼苗，主要由L. cuneata组成。不同样地ECM的平均定殖相似，地被植被多样性和L. cuneata对ECM物种丰富度没有影响。3个样地ECM群落组成存在差异，部分真菌在种级上有细微的变化。结果表明，在没有土壤压实的情况下，板栗不妨碍杂交板栗的建立或ECM根系定植。

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来源期刊

Ecological Restoration Environmental Science-Nature and Landscape Conservation

CiteScore

1.70

自引率

12.50%

发文量

期刊介绍： Ecological Restoration is a forum for people advancing the science and practice of restoration ecology. It features the technical and biological aspects of restoring landscapes, as well as collaborations between restorationists and the design professions, land-use policy, the role of education, and more. This quarterly publication includes peer-reviewed science articles, perspectives and notes, book reviews, abstracts of restoration ecology progress published elsewhere, and announcements of scientific and professional meetings.