Foundation species across a latitudinal gradient in China

Foundation species across a latitudinal gradient in China

Foundation species structure forest communities and ecosystems but are difficult to identify without long-term observations or experiments. We used statistical criteria—outliers from size-frequency distributions and scale-dependent negative effects on alpha diversity and positive effects on beta div...

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Published in:Ecology (Durham) Vol. 102; no. 2; pp. 1 - 15
Main Authors: Qiao, Xiujuan, Zhang, Jiaxin, Wang, Zhong, Xu, Yaozhan, Zhou, Tianyang, Mi, Xiangcheng, Cao, Min, Ye, Wanhui, Jin, Guangze, Hao, Zhanqing, Wang, Xugao, Wang, Xihua, Tian, Songyan, Li, Xiankun, Xiang, Wusheng, Liu, Yankun, Shao, Yingnan, Xu, Kun, Sang, Weiguo, Zeng, Fuping, Ren, Haibao, Jiang, Mingxi, Ellison, Aaron M.
Format: Journal Article
Language:English
Published: United States John Wiley and Sons, Inc 01-02-2021
Ecological Society of America
Subjects:
beta diversity
Biodiversity
Boreal forests
CForBio
China
codispersion analysis
Criteria
Data analysis
Dominant species
Ecosystem
Flowers & plants
Forest communities
Forest ecosystems
ForestGEO
Forests
forest‐dynamics plots
Hypotheses
Latitude
latitudinal gradient
Northern Hemisphere
Outliers (statistics)
Plant species
Shrubs
Species diversity
Species richness
Temperate forests
Trees
Tropical forests
Woody plants
China
beta diversity
biodiversity
China
codispersion analysis
CForBio
ForestGEO
forest-dynamics plots
latitudinal gradient
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Summary:Foundation species structure forest communities and ecosystems but are difficult to identify without long-term observations or experiments. We used statistical criteria—outliers from size-frequency distributions and scale-dependent negative effects on alpha diversity and positive effects on beta diversity—to identify candidate foundation woody plant species in 12 large forestdynamics plots spanning 26 degrees of latitude in China. We used these data (1) to identify candidate foundation species in Chinese forests, (2) to test the hypothesis—based on observations of a midlatitude peak in functional trait diversity and high local species richness but few numerically dominant species in tropical forests—that foundation woody plant species are more frequent in temperate than tropical or boreal forests, and (3) to compare these results with data from the Americas to suggest candidate foundation genera in northern hemisphere forests. Using the most stringent criteria, only two species of Acer, the canopy tree Acer ukurunduense and the shrubby treelet Acer barbinerve, were identified in temperate plots as candidate foundation species. Using more relaxed criteria, we identified four times more candidate foundation species in temperate plots (including species of Acer, Pinus, Juglans, Padus, Tilia, Fraxinus, Prunus, Taxus, Ulmus, and Corlyus) than in (sub)tropical plots (the treelets or shrubs Aporosa yunnanensis, Ficus hispida, Brassaiopsis glomerulata, and Orophea laui). Species diversity of co-occurring woody species was negatively associated with basal area of candidate foundation species more frequently at 5- and 10-m spatial grains (scale) than at a 20-m grain. Conversely, Bray-Curtis dissimilarity was positively associated with basal area of candidate foundation species more frequently at 5-m than at 10- or 20-m grains. Both stringent and relaxed criteria supported the hypothesis that foundation species are more common in mid-latitude temperate forests. Comparisons of candidate foundation species in Chinese and North American forests suggest that Acer be investigated further as a foundation tree genus
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ISSN:0012-9658
1939-9170
DOI:10.1002/ecy.3234