Effects of the Dominate Plant Families on Elevation Gradient Pattern of Community Structure in a Subtropical Forest

Li, Jialiang; Luo, Yinghua; Song, Xiaoyang; Jiang, Dongdong; He, Qiaoping; Bai, Aiqin; Li, Ruilan; Zhang, Wenliu

doi:10.3390/f14091860

Forests

2023

DOI: 10.3390/f14091860

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Effects of the Dominate Plant Families on Elevation Gradient Pattern of Community Structure in a Subtropical Forest

Jialiang Li,

Yinghua Luo,

Xiaoyang Song

et al.

Abstract: Dominant groups and rare groups often coexist in forests. Dominate plant families generally have more species diversity and occupy most of the biomass. However, their effects on community construction and species diversity maintenance remain to be studied. This study aims to investigate this question by using the two dominant plant families in a Chinese subtropical forest (Lauraceae and Fagaceae). In this study, 22 forest dynamic plots were established in the forest distribution area of Daming Mountain Nature … Show more

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2024

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Cited by 1 publication

References 85 publications

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Mass flowering and flowering asynchrony characterise a seasonal herbaceous community in the Western Ghats

Shrotri,

Kaur,

Dhargalkar

et al. 2024

Preprint

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Seasonally flowering communities often exhibit higher flowering synchrony than what can be attributed to environmental factors alone. Flowering synchrony can either increase competition for pollinators or improve pollination through facilitation. Consequently, analysing a community's flowering patterns can help identify its ecological constraints. In this study, we characterised the flowering phenology of a seasonal, herbaceous community (Kaas plateau) in Western Ghats, India, known for its endemic flora and mass flowering displays. Over three years, we addressed the following questions: (a) Is flowering seasonality shaped by environmental factors? (b) Is there evidence for flowering synchrony within the community? (c) Are plant-pollinator interactions specialised? Our results show that flowering seasonality was shaped by long dry seasons and subsequent rainfall patterns. Based on the floral abundance, we categorised the flora into mass flowering and non-mass flowering species. To incorporate flowering abundance in defining flowering synchrony, we introduced two novel synchrony indices, which identified community-wide flowering asynchrony, despite having mass flowering species. Finally, the plant-pollinator networks identified native bees as dominant pollinators and the prominence of generalised interactions. We also noted sub-seasonal temporal shifts in pollination networks that matched flowering abundances within the community. This is the first study to exhaustively characterise the flowering phenology of plants from a laterite plateau in the Western Ghats. We show that despite seasonality, both mass flowering and flowering asynchrony emerged as the defining characteristics of this habitat. Our results suggest that competition for pollinators probably drives flowering asynchrony within these seasonal herbaceous communities, rather than pollination facilitation.

show abstract

Mass flowering and flowering asynchrony characterise a seasonal herbaceous community in the Western Ghats

Shrotri,

Kaur,

Dhargalkar

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Effects of the Dominate Plant Families on Elevation Gradient Pattern of Community Structure in a Subtropical Forest

Cited by 1 publication

References 85 publications

Mass flowering and flowering asynchrony characterise a seasonal herbaceous community in the Western Ghats

Mass flowering and flowering asynchrony characterise a seasonal herbaceous community in the Western Ghats

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