Pastoral Intensification and Peatland Drying in the Northern Tianshan Since 1560: Evidence from Fungal Spore Indicators

Pastoral Intensification and Peatland Drying in the Northern Tianshan Since 1560: Evidence from Fungal Spore Indicators

Reconstructing historical grazing intensity is essential for understanding long-term human–environment interactions in arid and semi-arid regions. However, historical documents often lack continuous, site-specific information on land use and grazing pressure. We present a high-resolution reconstruct...

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Bibliographic Details
Main Authors: Weihe Ren, Cai Liu, Feng Qin, Quan Li, Guitian Yi, Jianhui Chen, Yan Zhao
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Land
Subjects:
Tianshan Mountains
fungal spores
grazing intensity
peatland hydrology
human–environment interactions
Online Access:https://www.mdpi.com/2073-445X/14/7/1362
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Summary:Reconstructing historical grazing intensity is essential for understanding long-term human–environment interactions in arid and semi-arid regions. However, historical documents often lack continuous, site-specific information on land use and grazing pressure. We present a high-resolution reconstruction of pastoral activity and hydrological evolution since 1560 AD using fungal spore assemblages from a 92 cm lacustrine-peat sequence from the Sichanghu (SCH) peatland on the northern slope of the Tianshan Mountains, Central Asia. Quantitative analysis of coprophilous fungal spores and principal component analysis (PCA) of spore influxes identify three distinct phases of pastoral intensity: gradual intensification from 1560 to 1730 AD, a sharp decline from 1730 to 1770 AD, and rapid intensification from 1770 AD to the present. These transitions are consistent with historical records of land use and human migration in Xinjiang. Additionally, fungal assemblages reveal a long-term drying trend at Sichanghu, broadly consistent with regional aridification in northwestern China. However, centennial-scale discrepancies in humidity between local and regional records—particularly during the late Little Ice Age—indicate that local hydrological responses were strongly influenced by anthropogenic disturbances. This study highlights the value of fungal spores, particularly influx-based interpretations, as robust indicators of both human activities and hydroclimatic variability. It also underscores the importance of integrating local and regional signals when reconstructing past environmental changes in sensitive dryland ecosystems.
ISSN:2073-445X

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