Phylogenetic community patterns suggest Central Indian tropical dry forests are structured by montane climate refuges |
| |
Authors: | Kyle R Grant T Jonathan Davies Sachin Medigeshi Harish Javid Ahmad Dar Subashree Kothandaraman Tapas Ray Dinesh Malasiya Selvadurai Dayanandan Mohammed Latif Khan |
| |
Institution: | 1. Department of Biology, Concordia University, Montreal, Quebec, Canada;2. Department of Botany, University of British Columbia, Vancouver, British Columbia, Canada;3. Department of Environmental Science, SRM University AP, Mangalagiri, India;4. Department of Biotechnology, KL Deemed to be University, Guntur, India
Department of Botany, Dr. Harisingh Gour Vishwavidyalaya (A Central University), Sagar, India;5. Department of Botany, Dr. Harisingh Gour Vishwavidyalaya (A Central University), Sagar, India |
| |
Abstract: | Aim We used an eco-phylogenetic approach to investigate the diversity and assembly patterns of tropical dry forests (TDFs) in Central India. We aimed at informing conservation and restoration practices in these anthropogenically disturbed forests by identifying potential habitats of conservation significance and elements of regional biodiversity most vulnerable to human impact and climate change. Location Tropical dry forests of Madhya Pradesh, Central India. Methods We analysed the species richness, stem density, basal area and phylogenetic structure (standardized effect size of MNTD, MPD, PD and community evolutionary distinctiveness cED) of 117 tree species assemblages distributed across a ~230 to ~940 m elevational gradient. We examined how these community measures and taxonomic (Sørensen) and phylogenetic (UniFrac) beta diversity varied with elevation, precipitation, temperature and climatic stress. Results Species richness, phylogenetic diversity, stem density and basal area were positively correlated with elevation, with high-elevation plots exhibiting cooler temperatures, higher precipitation and lower stress. High-elevation assemblages also trended towards greater phylogenetic dispersion, which diminished at lower elevations and in drier, more stressful plots. Phylogenetic turnover was observed across the elevation gradient, and species evolutionary distinctiveness increased at lower elevations and under harsher abiotic conditions. Main Conclusions Harsher abiotic conditions at low elevations may act as a selective filter on plant lineages, leading to phylogenetically clustered low-diversity assemblages. These assemblages contained more evolutionarily distinct species that may contribute disproportionately to biodiversity. Conversely, milder abiotic conditions at high elevations may serve as refuges for drought-sensitive species, resulting in more diverse assemblages. Conservation practices that prioritize both high- and low-elevation habitats could promote the persistence of evolutionarily distinct species and areas of high biodiversity within the Central Indian landscape. Establishing connectivity between these habitats may provide a range of climatic conditions for species to retreat to or persist within as climates change. |
| |
Keywords: | beta diversity biodiversity community ecology disturbance elevational gradient phylogenetic diversity phylogenetic structure refugia species richness tropical dry forests |
|
|