Plant size-dependent influence of foliar fungal pathogens promotes diversity through allometric growth
Data files
May 17, 2022 version files 32.52 KB
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GrowthAllometryData.xlsx
16.42 KB
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PlotData.xlsx
10.05 KB
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README.txt
6.04 KB
May 17, 2022 version files 27.31 KB
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GrowthAllometryData.xlsx
16.42 KB
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PlotData.xlsx
10.05 KB
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README.md
834 B
Abstract
The data was collected in the northeastern Qinghai-Tibetan Plateau, Qinghai Province, China (101° 18′ 57″ E, 37° 36′ 50″ N; 3 221 m a.s.l.) in 2019 and 2020, including the species-specific growth allometry (scaling exponent and intercept) fitted by the allometric equation under each treatment in a population-level experiment, i.e., control, fungicide application, neighbor removal (removal), fungicide application × neighbor removal, and the community-level mean and dispersion of the growth allometry (CWM and FDis of growth scaling exponent and intercept, respectively) weighted by the species cover for each plot in a community-level fungicide application experiment.
README: Plant size-dependent influence of foliar fungal pathogens promotes diversity through allometric growth
https://doi.org/10.5061/dryad.7sqv9s4v9
The data was collected in the northeastern Qinghai-Tibetan Plateau, Qinghai Province, China (101° 18′ 57″ E, 37° 36′ 50″ N; 3 221 m a.s.l.) in 2019 and 2020, including the species-specific growth allometry (scaling exponent and intercept) fitted by the allometric equation under each treatment in a population-level experiment, i.e., control, fungicide application, neighbor removal (removal), fungicide application × neighbor removal, and the community-level mean and dispersion of the growth allometry (CWM and FDis of growth scaling exponent and intercept, respectively) weighted by the species cover for each plot in a community-level fungicide application experiment.