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Past disturbances and intraspecific competition as drivers of spatial pattern in primary spruce forests
Author(s) -
Després T.,
Vítková L.,
Bače R.,
Čada V.,
Janda P.,
Mikoláš M.,
Schurman J. S.,
Trotsiuk V.,
Svoboda M.
Publication year - 2017
Publication title -
ecosphere
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.255
H-Index - 57
ISSN - 2150-8925
DOI - 10.1002/ecs2.2037
Subject(s) - spatial ecology , intraspecific competition , disturbance (geology) , thinning , common spatial pattern , ecology , forest dynamics , stand development , spatial distribution , picea abies , point pattern analysis , spatial variability , tree (set theory) , geography , competition (biology) , physical geography , biology , mathematics , statistics , paleontology , mathematical analysis , remote sensing
The role of density dependence in shaping spatial patterns in tree distributions presumably changes throughout stand development. However, empirical investigations into developmental processes are often limited by a lack of long‐term data on disturbance history, which further limits the ability to assess the role of spatial variation in site conditions (e.g., slope, aspect, mean annual temperature). This study included data from 289 plots within 26 primary forest stands of the Carpathian Mountains; stands were dominated by Norway spruce ( Picea abies ) and driven by mixed‐severity disturbance regimes. We assessed spatial patterns in living tree positions, tree diameters, and the relative position of living trees to dead trees. Random forest classification was used to discriminate between disturbance history, tree density, and site conditions and their effects on the observed spatial patterns. At the stand scale, distances between trees of equal diameter were more uniform that expected (tree diameter was showing repulsion), while tree positions and dead trees were mostly distributed randomly. The processes that best explained the spatial patterns were identified as self‐thinning mortality and past disturbances (100–150 yr). This study demonstrated that the plot and stand‐scale spatial patterns resulted from the combination of past disturbances and density‐dependent legacies derived from earlier forest development stages.

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