Abstract
Alpine grasslands harbor diverse groups of flora and fauna, provide important ecosystem functions, and yield essential ecosystem goods and services, especially for the development of nature-based tourism. However, they are experiencing increasing anthropogenic perturbations such as tourist trampling. Although negative effects of tourist trampling on alpine vegetation have been frequently reported, previous studies have focused mainly on changes in taxonomic diversity after trampling, and rarely provide a mechanistic elucidation of trampling effects from a trait-based perspective. The present study evaluates the impacts of simulated trampling on taxonomic and functional diversity of a typical alpine grassland community in Shangri-La, China using a standardized protocol. The results showed that although taxonomic diversity was not statistically significantly affected by trampling, some functional attributes responded rapidly to trampling disturbance. Specifically, functional divergence decreased with an increase in trampling intensity, and characteristics of community-weighted mean trait values changed towards shorter species with reduced leaf area and lower leaf dry matter content. Such strong shifts in functional attributes may further affect ecosystem goods and services provided by alpine grasslands. Our inclusion of functional diversity in the analysis thus adds an important caution to previous studies predominantly focusing on taxonomic diversity, and it is urgent to keep alpine grasslands well managed and ecologically coherent so that their valuable functions and services can be safeguarded.
Highlights
Alpine grasslands harbor diverse groups of flora and fauna, provide important ecosystem functions, and yield essential ecosystem goods and services, especially for the development of nature-based tourism
The present study evaluates the impacts of simulated trampling on the taxonomic and functional diversity of a typical alpine grassland community in Shangri-La, China following a standardized experimental protocol
Previous studies suggest that functional diversity metrics are more sensitive to external disturbances, and are more able to discern disturbance impacts than are basic measures of taxonomic diversity m etrics[15,23,24]
Summary
Alpine grasslands harbor diverse groups of flora and fauna, provide important ecosystem functions, and yield essential ecosystem goods and services, especially for the development of nature-based tourism. Functional divergence decreased with an increase in trampling intensity, and characteristics of communityweighted mean trait values changed towards shorter species with reduced leaf area and lower leaf dry matter content Such strong shifts in functional attributes may further affect ecosystem goods and services provided by alpine grasslands. Alpine grasslands represent an important ecosystem type globally, as they harbor diverse groups of flora and fauna[1], provide important ecosystem functions such as climate change mitigation through carbon sequestration, and yield essential ecosystem goods and services (e.g., pasture for grazing livestock) that sustain human s ociety[2] They are currently experiencing increasing threats from human activities, such as widespread overgrazing and landscape conversions[3].
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