4.4 Article

Directional changes of species spatial dispersion and realized environmental niches drive plant community assembly during early plant succession

期刊

JOURNAL OF PLANT ECOLOGY
卷 12, 期 3, 页码 409-418

出版社

OXFORD UNIV PRESS
DOI: 10.1093/jpe/rty038

关键词

primary succession; spatial analysis; environmental niche; functional traits; species aggregation

资金

  1. Deutsche Forschungsgemeinschaft (DFG, Bonn) [SFB/TR 38]
  2. Brandenburg Ministry of Science, Research and Culture (MWFK, Potsdam)
  3. Polish National Science Centre [2014/13/B/NZ8/04681]

向作者/读者索取更多资源

Probabilistic models of species co-occurrences predict aggregated intraspecific spatial distributions that might decrease the degree of joint species occurrences and increase community richness. Yet, little is known about the influence of intraspecific aggregation on the co-occurrence of species in natural, species-rich communities. Here, we focus on early plant succession and ask how changes in intraspecific aggregation of colonizing plant species influence the pattern of species co-existence, richness and turnover. We studied the early vegetation succession in a six ha constructed catchment within the abandoned part of a lignite mine in NE Germany. At two spatial scales (1- and 25-m(2) plots), we compared for each pair of species the intraspecific degree of aggregation and the pattern of co-occurrence and compared observed relationships with temporal changes in important species functional traits. The majority of species occurred in an aggregated manner, particularly in the first 2 years of succession. In pairwise comparisons, we found an excess of segregated species occurrences leading to a positive link between intraspecific aggregation and pairwise species segregation as predicted by the aggregation hypothesis, particularly at the lower spatial resolution. The degree of intraspecific aggregation was negatively correlated with the community-wide level of species spatial turnover and with plot species richness. Our results are the first direct confirmation that increasing intraspecific aggregation and interspecific competitive interactions counteract in shaping plant community structure during succession. The respective effects of aggregation were strongest at intermediate states of early succession.

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