Conspecific plant-soil feedbacks of temperate tree species in the southern Appalachians, USA.

Many tree species have seedling recruitment patterns suggesting that they are affected by non-competitive distance-dependent sources of mortality. We conducted an experiment, with landscape-level replication, to identify cases of negative distance-dependent effects and whether variation in these eff...

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Main Authors: Kurt O Reinhart, Daniel Johnson, Keith Clay
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2012-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3393703?pdf=render
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spelling doaj-6811609f46804a1ebfcdcc28e4a52acf2020-11-24T21:49:53ZengPublic Library of Science (PLoS)PLoS ONE1932-62032012-01-0177e4068010.1371/journal.pone.0040680Conspecific plant-soil feedbacks of temperate tree species in the southern Appalachians, USA.Kurt O ReinhartDaniel JohnsonKeith ClayMany tree species have seedling recruitment patterns suggesting that they are affected by non-competitive distance-dependent sources of mortality. We conducted an experiment, with landscape-level replication, to identify cases of negative distance-dependent effects and whether variation in these effects corresponded with tree recruitment patterns in the southern Appalachian Mountains region. Specifically, soil was collected from 14 sites and used as inocula in a 62 day growth chamber experiment determining whether tree seedling growth was less when interacting with soil from conspecific (like) than heterospecific (other) tree species. Tests were performed on six tree species. Three of the tree species had been previously described as having greater recruitment around conspecifics (i.e. facilitator species group) compared to the other half (i.e. inhibitor species group). We were then able to determine whether variation in negative distance-dependent effects corresponded with recruitment patterns in the field. Across the six species, none were negatively affected by soil inocula from conspecific relative to heterospecific sources. Most species (four of six) were unaffected by soil source. Two species (Prunus serotina and Tsuga canadensis) had enhanced growth in pots inoculated with soil from conspecific trees vs. heterospecifics. Species varied in their susceptibility to soil pathogens, but trends across all species revealed that species classified as inhibitors were not more negatively affected by conspecific than heterospecific soil inocula or more susceptible to pathogenic effects than facilitators. Although plant-soil biota interactions may be important for individual species and sites, it may be difficult to scale these interactions over space or levels of ecological organization. Generalizing the importance of plant-soil feedbacks or other factors across regional scales may be especially problematic for hyperdiverse temperate forests where interactions may be spatially variable.http://europepmc.org/articles/PMC3393703?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Kurt O Reinhart
Daniel Johnson
Keith Clay
spellingShingle Kurt O Reinhart
Daniel Johnson
Keith Clay
Conspecific plant-soil feedbacks of temperate tree species in the southern Appalachians, USA.
PLoS ONE
author_facet Kurt O Reinhart
Daniel Johnson
Keith Clay
author_sort Kurt O Reinhart
title Conspecific plant-soil feedbacks of temperate tree species in the southern Appalachians, USA.
title_short Conspecific plant-soil feedbacks of temperate tree species in the southern Appalachians, USA.
title_full Conspecific plant-soil feedbacks of temperate tree species in the southern Appalachians, USA.
title_fullStr Conspecific plant-soil feedbacks of temperate tree species in the southern Appalachians, USA.
title_full_unstemmed Conspecific plant-soil feedbacks of temperate tree species in the southern Appalachians, USA.
title_sort conspecific plant-soil feedbacks of temperate tree species in the southern appalachians, usa.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2012-01-01
description Many tree species have seedling recruitment patterns suggesting that they are affected by non-competitive distance-dependent sources of mortality. We conducted an experiment, with landscape-level replication, to identify cases of negative distance-dependent effects and whether variation in these effects corresponded with tree recruitment patterns in the southern Appalachian Mountains region. Specifically, soil was collected from 14 sites and used as inocula in a 62 day growth chamber experiment determining whether tree seedling growth was less when interacting with soil from conspecific (like) than heterospecific (other) tree species. Tests were performed on six tree species. Three of the tree species had been previously described as having greater recruitment around conspecifics (i.e. facilitator species group) compared to the other half (i.e. inhibitor species group). We were then able to determine whether variation in negative distance-dependent effects corresponded with recruitment patterns in the field. Across the six species, none were negatively affected by soil inocula from conspecific relative to heterospecific sources. Most species (four of six) were unaffected by soil source. Two species (Prunus serotina and Tsuga canadensis) had enhanced growth in pots inoculated with soil from conspecific trees vs. heterospecifics. Species varied in their susceptibility to soil pathogens, but trends across all species revealed that species classified as inhibitors were not more negatively affected by conspecific than heterospecific soil inocula or more susceptible to pathogenic effects than facilitators. Although plant-soil biota interactions may be important for individual species and sites, it may be difficult to scale these interactions over space or levels of ecological organization. Generalizing the importance of plant-soil feedbacks or other factors across regional scales may be especially problematic for hyperdiverse temperate forests where interactions may be spatially variable.
url http://europepmc.org/articles/PMC3393703?pdf=render
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