Soil Elements Influencing Community Structure in an Old-Growth Forest in Northeastern China

Soil Elements Influencing Community Structure in an Old-Growth Forest in Northeastern China

This study uses detailed soil and vegetation data collected in a 30-ha old-growth broad-leaved Korean pine forest to study the effect of soil properties on tree community structures. Spatial distribution patterns are simulated using a homogeneous Poisson process (HomP) and a homogeneous Thomas proce...

Full description

Bibliographic Details
Main Authors: Wei Xu, Minhui Hao, Juan Wang, Chunyu Zhang, Xiuhai Zhao, Klaus von Gadow
Format: Article
Language:English
Published: MDPI AG 2016-07-01
Series:Forests
Subjects:
plant-soil relationships
dispersal limitation
habitat filtering
soil elements
Online Access:http://www.mdpi.com/1999-4907/7/8/159
id doaj-8c60a6286be0497bb1dda049616565d6
record_format Article
spelling doaj-8c60a6286be0497bb1dda049616565d62020-11-24T20:57:48ZengMDPI AGForests1999-49072016-07-017815910.3390/f7080159f7080159Soil Elements Influencing Community Structure in an Old-Growth Forest in Northeastern ChinaWei Xu0Minhui Hao1Juan Wang2Chunyu Zhang3Xiuhai Zhao4Klaus von Gadow5The key Laboratory for Forest Resources & Ecosystem Processes of Beijing, Beijing Forestry University, Beijing 100083, ChinaThe key Laboratory for Forest Resources & Ecosystem Processes of Beijing, Beijing Forestry University, Beijing 100083, ChinaThe key Laboratory for Forest Resources & Ecosystem Processes of Beijing, Beijing Forestry University, Beijing 100083, ChinaThe key Laboratory for Forest Resources & Ecosystem Processes of Beijing, Beijing Forestry University, Beijing 100083, ChinaThe key Laboratory for Forest Resources & Ecosystem Processes of Beijing, Beijing Forestry University, Beijing 100083, ChinaFaculty of Forestry and Forest Ecology, Georg-August-University Göttingen, Büsgenweg 5, Göttingen D-37077, GermanyThis study uses detailed soil and vegetation data collected in a 30-ha old-growth broad-leaved Korean pine forest to study the effect of soil properties on tree community structures. Spatial distribution patterns are simulated using a homogeneous Poisson process (HomP) and a homogeneous Thomas process (HomT). The simulated distributions are compared with the observed ones to explore correlations between certain tree species and several soil elements. The HomP model shows that all tested tree species are significantly correlated with at least one principal component in the upper-layer soil elements. The HomT model shows that only 36.4% of tree species are significantly correlated with the principal component of at least one upper-layer soil element. This result shows that the impact of dispersal limitation is greater than impact of environmental heterogeneity on species spatial distributions. The spatial autocorrelation of species induced by the dispersal limitation will largely conceal the plant-soil relationships caused by the heterogeneity of soil elements. An additional analysis shows that the elements in the upper soil layer which have the greatest impact on community niche structure are Pb, total phosphorus (TP), total nitrogen (TN), Cu, Cr, Zn and available nitrogen (AN). The corresponding elements in the lower soil layers are Pb, TP, Cu, organic carbon (OC), Mn, total potassium (TK) and AN. Different species seem to be complementary regarding the demands on the available soil resources. The results of this study show that the tree species in the different growth groups have different habitat preferences. Compared with subcanopy and shrub species, the canopy species have more significant correlations with the soil elements.http://www.mdpi.com/1999-4907/7/8/159plant-soil relationshipsdispersal limitationhabitat filteringsoil elements
collection DOAJ
language English
format Article
sources DOAJ
author Wei Xu
Minhui Hao
Juan Wang
Chunyu Zhang
Xiuhai Zhao
Klaus von Gadow
spellingShingle Wei Xu
Minhui Hao
Juan Wang
Chunyu Zhang
Xiuhai Zhao
Klaus von Gadow
Soil Elements Influencing Community Structure in an Old-Growth Forest in Northeastern China
Forests
plant-soil relationships
dispersal limitation
habitat filtering
soil elements
author_facet Wei Xu
Minhui Hao
Juan Wang
Chunyu Zhang
Xiuhai Zhao
Klaus von Gadow
author_sort Wei Xu
title Soil Elements Influencing Community Structure in an Old-Growth Forest in Northeastern China
title_short Soil Elements Influencing Community Structure in an Old-Growth Forest in Northeastern China
title_full Soil Elements Influencing Community Structure in an Old-Growth Forest in Northeastern China
title_fullStr Soil Elements Influencing Community Structure in an Old-Growth Forest in Northeastern China
title_full_unstemmed Soil Elements Influencing Community Structure in an Old-Growth Forest in Northeastern China
title_sort soil elements influencing community structure in an old-growth forest in northeastern china
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2016-07-01
description This study uses detailed soil and vegetation data collected in a 30-ha old-growth broad-leaved Korean pine forest to study the effect of soil properties on tree community structures. Spatial distribution patterns are simulated using a homogeneous Poisson process (HomP) and a homogeneous Thomas process (HomT). The simulated distributions are compared with the observed ones to explore correlations between certain tree species and several soil elements. The HomP model shows that all tested tree species are significantly correlated with at least one principal component in the upper-layer soil elements. The HomT model shows that only 36.4% of tree species are significantly correlated with the principal component of at least one upper-layer soil element. This result shows that the impact of dispersal limitation is greater than impact of environmental heterogeneity on species spatial distributions. The spatial autocorrelation of species induced by the dispersal limitation will largely conceal the plant-soil relationships caused by the heterogeneity of soil elements. An additional analysis shows that the elements in the upper soil layer which have the greatest impact on community niche structure are Pb, total phosphorus (TP), total nitrogen (TN), Cu, Cr, Zn and available nitrogen (AN). The corresponding elements in the lower soil layers are Pb, TP, Cu, organic carbon (OC), Mn, total potassium (TK) and AN. Different species seem to be complementary regarding the demands on the available soil resources. The results of this study show that the tree species in the different growth groups have different habitat preferences. Compared with subcanopy and shrub species, the canopy species have more significant correlations with the soil elements.
topic plant-soil relationships
dispersal limitation
habitat filtering
soil elements
url http://www.mdpi.com/1999-4907/7/8/159
work_keys_str_mv AT weixu soilelementsinfluencingcommunitystructureinanoldgrowthforestinnortheasternchina
AT minhuihao soilelementsinfluencingcommunitystructureinanoldgrowthforestinnortheasternchina
AT juanwang soilelementsinfluencingcommunitystructureinanoldgrowthforestinnortheasternchina
AT chunyuzhang soilelementsinfluencingcommunitystructureinanoldgrowthforestinnortheasternchina
AT xiuhaizhao soilelementsinfluencingcommunitystructureinanoldgrowthforestinnortheasternchina
AT klausvongadow soilelementsinfluencingcommunitystructureinanoldgrowthforestinnortheasternchina
_version_ 1716787445959229440

Similar Items