Litcius/Paper detail

Responses of alpine summit vegetation under climate change in the transition zone between subtropical and tropical humid environment

Chu-Chia Kuo, Yea-Chen Liu, Yu Su, Ho‐Yih Liu, Cheng‐Tao Lin

2022Scientific Reports13 citationsDOIOpen Access PDF

Abstract

Climate change has caused severe impacts on ecosystems and biodiversity globally, especially to vulnerable mountain ecosystems; the summits bear the brunt of such effects. Therefore, six summits in Taiwan were monitored based on a standardized multi-summit approach. We used both statistical downscaling of climate data and vegetation cover data to calculate climate niches to assess the impacts of climate change. Two indicators, thermophilic and moist-philic, were applied to evaluate the overall response of vegetation dynamics. The results revealed that potential evapotranspiration increased significantly and led to a declining tendency in monthly water balance from 2014 to 2019. The general pattern of species richness was a decline. The difference in plant cover among the three surveys showed an inconsistent pattern, although some dominant species expanded, such as the dwarf bamboo Yushania niitakayamensis. The thermophilic indicator showed that species composition had changed so that there were more thermophilic species at the three lowest summits. The moist-philization indicator showed a decline of humid-preferred species in the latest monitoring period. Although total precipitation did not decrease, our results suggest that the variability in precipitation with increased temperature and potential evapotranspiration altered alpine vegetation composition and could endanger vulnerable species in the future.

Topics & Concepts

Climate changeSubtropicsVegetation (pathology)SummitHumid subtropical climateAridEcosystemPrecipitationEvapotranspirationBiodiversityEcologyEnvironmental scienceSpecies richnessGeographyPhysical geographyBiologyMeteorologyPathologyMedicineTree-ring climate responsesEcology and Vegetation Dynamics StudiesPlant Water Relations and Carbon Dynamics