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Vertical structural complexity of plant communities represents the combined effects of resource acquisition and environmental stress on the Tibetan Plateau

Changjin Cheng, Jiahui Zhang, Mingxu Li, Congcong Liu, Li Xu, Nianpeng He

2024Communications Biology7 citationsDOIOpen Access PDF

Abstract

The vertical structural complexity (VSC) of plant communities reflects the occupancy of spatial niches and is closely related to resource utilization and environmental adaptation. However, understanding the large-scale spatial pattern of VSC and its underlying mechanisms remains limited. Here, we systematically investigate 2013 plant communities through grid sampling on the Tibetan Plateau. VSC is quantified as the maximum plant height within a plot (Height-max), coefficient of variation of plant height (Height-var), and Shannon evenness of plant height (Height-even). Precipitation dominates the spatial variation in VSC in forests and shrublands, supporting the classic physiological tolerance hypothesis. In contrast, for alpine meadows, steppes, and desert grasslands in extreme environments, non-resource limiting factors (e.g., wide diurnal temperature ranges and strong winds) dominate VSC variation. Generally, with the shifting of climate from favorable to extreme, the effect of resource availability gradually decreases, but the effect of non-resource limiting factors gradually increases, and that the physiological tolerance hypothesis only applicable in favorable conditions. With the help of machine learning models, maps of VSC at 1-km resolution are produced for the Tibetan Plateau. Our findings and maps of VSC provide insights into macroecological studies, especially for adaptation mechanisms and model optimization.

Topics & Concepts

Resource (disambiguation)EcologySpatial ecologyEnvironmental scienceSpatial variabilityPlateau (mathematics)Physical geographyAdaptation (eye)SteppeAtmospheric sciencesGeographyBiologyComputer scienceGeologyMathematicsStatisticsComputer networkNeuroscienceMathematical analysisEcology and Vegetation Dynamics StudiesSpecies Distribution and Climate ChangeLand Use and Ecosystem Services
Vertical structural complexity of plant communities represents the combined effects of resource acquisition and environmental stress on the Tibetan Plateau | Litcius