Contrasting Effects of Tectonic Faults on Vegetation Growth along the Elevation Gradient in Tectonically Active Mountains

Hongyu Li; Xiaohuang Liu; Xiaofeng Zhao; Wenbo Zhang; Jiufen Liu; Xinping Luo; Ran Wang; Liyuan Xing

doi:10.3390/f14122336

Forests (Nov 2023)

Contrasting Effects of Tectonic Faults on Vegetation Growth along the Elevation Gradient in Tectonically Active Mountains

Hongyu Li,
Xiaohuang Liu,
Xiaofeng Zhao,
Wenbo Zhang,
Jiufen Liu,
Xinping Luo,
Ran Wang,
Liyuan Xing

Affiliations

Hongyu Li: Comprehensive Survey Command Center for Natural Resources, China Geological Survey, Beijing 100055, China
Xiaohuang Liu: Comprehensive Survey Command Center for Natural Resources, China Geological Survey, Beijing 100055, China
Xiaofeng Zhao: Comprehensive Survey Command Center for Natural Resources, China Geological Survey, Beijing 100055, China
Wenbo Zhang: Comprehensive Survey Command Center for Natural Resources, China Geological Survey, Beijing 100055, China
Jiufen Liu: Comprehensive Survey Command Center for Natural Resources, China Geological Survey, Beijing 100055, China
Xinping Luo: Comprehensive Survey Command Center for Natural Resources, China Geological Survey, Beijing 100055, China
Ran Wang: Comprehensive Survey Command Center for Natural Resources, China Geological Survey, Beijing 100055, China
Liyuan Xing: Comprehensive Survey Command Center for Natural Resources, China Geological Survey, Beijing 100055, China

DOI: https://doi.org/10.3390/f14122336
Journal volume & issue: Vol. 14, no. 12
p. 2336

Abstract

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Long-term tectonic movements have shaped the geomorphological features and hydrothermal conditions of mountains, influencing their vegetation growth patterns in both positive and negative ways. However, little is known about the effect of fault development on the spatio-temporal variation in vegetation along the elevation gradient in mountainous regions. To address this issue of montane tectonic ecology, this study selected the tectonically active mid-altitude zone (1000–3500 m) of the Chinese Western Tianshan Mountains. The role of tectonics is investigated by fault length density maps calculated from zonal statistics of region-scale fault survey data (1:250,000). The normalized difference vegetation index (NDVI) was chosen as an indicator to analyze the growth status of vegetation. The spatial distribution of fault length density, elevational, and interannual characteristics of the NDVIs from 2000 to 2020 and their relationships along the elevation gradient were investigated. The results show that the faulting zone accounts for 32.6% of the study area and the high faulting zone exhibits a unimodal distribution along the elevation gradient, with the maximum occurring at elevations of approximately 2000 m. The NDVIs of forests and high-coverage grassland show a unimodal distribution with elevation, with the maximum occurring at elevations of approximately 2000 m, coinciding with that of fault length density. In the elevation range of 1000–2500 m, the NDVI of the faulting zone is lower than that of the non-faulting zone, whereas that of the elevation range of 2500–3500 m is higher—a difference that is particularly evident in forests. This elevation-dependent contrasting effect of faults on vegetation growth could be attributed to more favorable hydrothermal conditions for vegetation in fault valleys and reduced landslide susceptibility with increasing elevation. This study highlights the need to consider fault distribution in understanding vegetation distribution and growth in tectonically active mountains.

Published in Forests

ISSN: 1999-4907 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Botany: Plant ecology
Website: http://www.mdpi.com/journal/forests/

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