Can CSR Strategy Classes Determined by StrateFy Explain the Species Dominance and Diversity of a Forest Community?

Plant ecological strategies are essential for assessing habitat stress and disturbance and evaluating community productivity. These strategies provide theoretical frameworks for maintaining the natural state of vegetation and enhancing productivity. The functional traits of leaves reflect a plant’s...

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Veröffentlicht in:	Forests 2024-08, Vol.15 (8), p.1412
Hauptverfasser:	Peng, Ye, Cui, Gansha, Li, Hengyi, Wang, Ningjie, Zheng, Xiao, Ding, Hui, Lv, Ting, Fang, Yanming
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Sprache:	eng
Schlagworte:	Abiotic factors Biodiversity Biodiversity hot spots Biogeography China Classification Comparative analysis Competition Coniferous forests deciduous forests ecological balance Ecological research Ecology Ecosystem stability Environmental aspects Environmental changes Environmental factors Fagaceae Forest communities Forest dynamics Forests Fungi Grasslands growth habit habitats Leaves Lianas National parks Observations Physiological aspects Plant diversity Plant species Plants Plants (botany) Precipitation Productivity Redundancy Shrubs species Species diversity Stability temperature Theaceae Trees Understory Vegetation Wildlife conservation
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creator	Peng, Ye Cui, Gansha Li, Hengyi Wang, Ningjie Zheng, Xiao Ding, Hui Lv, Ting Fang, Yanming
description	Plant ecological strategies are essential for assessing habitat stress and disturbance and evaluating community productivity. These strategies provide theoretical frameworks for maintaining the natural state of vegetation and enhancing productivity. The functional traits of leaves reflect a plant’s responses to environmental changes and contribute to understanding ecosystem stability, providing a basis for species diversity maintenance and effective conservation efforts. The Wuyishan National Park, a biodiversity hotspot in China, is a focal point for ecological research. Its evergreen, broad-leaved forest, the zonal vegetation of Mt. Wuyi, underpins plant diversity protection in the region. This study investigates the CSR (competitor, stress-tolerator, ruderal) strategy of 126 species on Wuyi Mountain to elucidate prevalent ecological strategies. The main ecological strategy of plants in the study area is the CS (competitor, stress-tolerator) strategy. The species exhibit nine categories. The most abundant ecological strategy is S/CS (plants from Fagaceae), accounting for 38%, followed by S/CSR at 23% (plants from Theaceae), CS at 20% (plants from Fagaceae and Theaceae), and the remaining strategies collectively at 19%. The different growth habit categories showed variations in the CSR strategies. The trees clustered around a CS median strategy, with no R-selected trees observed. Shrubs and lianas centered around an S/CSR strategy, while grasses and understory shrubs clustered around CS/CSR. Redundancy analysis results indicate that leaf functional traits are primarily influenced by temperature, suggesting that temperature is the key environmental factor driving the differentiation of plant functional traits. This study provides insights into the ecological strategies of plant species in the Mt. Wuyi region, highlighting the importance of considering both biotic and abiotic factors in maintaining biodiversity and ecosystem stability.
doi_str_mv	10.3390/f15081412
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The most abundant ecological strategy is S/CS (plants from Fagaceae), accounting for 38%, followed by S/CSR at 23% (plants from Theaceae), CS at 20% (plants from Fagaceae and Theaceae), and the remaining strategies collectively at 19%. The different growth habit categories showed variations in the CSR strategies. The trees clustered around a CS median strategy, with no R-selected trees observed. Shrubs and lianas centered around an S/CSR strategy, while grasses and understory shrubs clustered around CS/CSR. Redundancy analysis results indicate that leaf functional traits are primarily influenced by temperature, suggesting that temperature is the key environmental factor driving the differentiation of plant functional traits. This study provides insights into the ecological strategies of plant species in the Mt. 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The most abundant ecological strategy is S/CS (plants from Fagaceae), accounting for 38%, followed by S/CSR at 23% (plants from Theaceae), CS at 20% (plants from Fagaceae and Theaceae), and the remaining strategies collectively at 19%. The different growth habit categories showed variations in the CSR strategies. The trees clustered around a CS median strategy, with no R-selected trees observed. Shrubs and lianas centered around an S/CSR strategy, while grasses and understory shrubs clustered around CS/CSR. Redundancy analysis results indicate that leaf functional traits are primarily influenced by temperature, suggesting that temperature is the key environmental factor driving the differentiation of plant functional traits. This study provides insights into the ecological strategies of plant species in the Mt. 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subjects	Abiotic factors Biodiversity Biodiversity hot spots Biogeography China Classification Comparative analysis Competition Coniferous forests deciduous forests ecological balance Ecological research Ecology Ecosystem stability Environmental aspects Environmental changes Environmental factors Fagaceae Forest communities Forest dynamics Forests Fungi Grasslands growth habit habitats Leaves Lianas National parks Observations Physiological aspects Plant diversity Plant species Plants Plants (botany) Precipitation Productivity Redundancy Shrubs species Species diversity Stability temperature Theaceae Trees Understory Vegetation Wildlife conservation
title	Can CSR Strategy Classes Determined by StrateFy Explain the Species Dominance and Diversity of a Forest Community?
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