Developing crown width model for mixed forests using soil, climate, and stand factors
Data files
Dec 19, 2023 version files 1.55 MB
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JEcol_data.xlsx
1.55 MB
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README.md
2.09 KB
Abstract
- The tree crown is a useful measure of tree vigor and is highly relevant to a tree's environmental adaptability. Crown allometry depends on environmental and stand conditions. Several studies have focused on the effects of climate change and competitive intensity on the crown, but the regulatory role of soil resources and diversity on crown allometry and carbon allocation has been neglected.
- Data from 20,994 trees in 232 mixed forests collected between 2011 and 2019 was located near four major mountain ranges in northeast China. The proposed crown width model includes the stand developmental stage, soil, climate, competition intensity, species mixture, species diversity, structural diversity, and their interactions.
- We observed that the cross-species allometric scaling exponent does not conform to the universal scaling law. Our results showed that crown width increased with increasing soil bulk density, quadratic mean diameter, and coefficient of diameter variation but decreased with increasing de Martonne aridity index, basal area, Simpson index, and species mixture. The interaction of quadratic mean diameter and soil bulk density had a significant negative effect on crown width. The influence of a particular factor within the interaction term on crown width was modulated by the gradients of other factors. Furthermore, soil bulk density contributed more to crown width modeling than the aridity index, and structural diversity had a greater effect on crown width than species diversity.
- Synthesis. Our results provide new insights into the environmental variability of crown allometry in mixed forests under global change, which is critical for improving regional and global estimates of forest biomass and carbon stocks.
https://doi.org/10.5061/dryad.cjsxksnd3
Description of the data and file structure
This README file accompanies the data for the article accepted by the Journal of Ecology.
The data file is named (JEcol_data.xlsx). The data file contains two sheets: "README" and "DATA".
Abbreviations with simple description as follow, and a full description of these data can be found in sheet "README".
| Variables | Abbreviation | Unit |
|---|---|---|
| plot | ||
| species | ||
| regional dummy | region1 | |
| regional dummy | region2 | |
| regional dummy | region3 | |
| diameter at breast height | DBH | cm |
| the proportion of the basal area of the species of interest | BAP | |
| basal area per hectare | BA | m2 ha-1 |
| quadratic mean diameter | QMD | cm |
| de Martonne aridity index | M | mm ℃-1 |
| soil bulk density | BD | cg cm-3 |
| species simpson index | SIM | |
| the coefficient of variation of diameter | CVd | |
| crown width | CW | m |
If you have any questions about the data, please contact Lichun Jiang (jlcnefu@126.com) or Dongyuan Tian (dcsg19970218@163.com) at Northeast Forestry University, China.
- Tian, Dongyuan; He, Pei; Jiang, Lichun; Gaire, Damodar (2024). Developing crown width model for mixed forests using soil, climate and stand factors. Journal of Ecology. https://doi.org/10.1111/1365-2745.14249