Diversity response of necrophagous dipteran communities and their functional groups to an anthropization gradient
•This research provides insights into the ecological dynamics of necrophagous flies.•Larviparous flesh fly species richness decreases with increased anthropization.•The abundance of Calliphoridae increases with anthropization.•Turnover is the main process shaping dipteran communities along the anthr...
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Veröffentlicht in: | Acta tropica 2024-05, Vol.253, p.107164-107164, Article 107164 |
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Sprache: | eng |
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Zusammenfassung: | •This research provides insights into the ecological dynamics of necrophagous flies.•Larviparous flesh fly species richness decreases with increased anthropization.•The abundance of Calliphoridae increases with anthropization.•Turnover is the main process shaping dipteran communities along the anthropization gradient.•Anthropization increases the abundance of species with medical and forensic importance.
The anthropization process exerts a profound effect on ecosystems, causing alterations in biodiversity, habitat structure, and species composition, ultimately disrupting the delicate balance of natural environments. The aim of the present study was to explore the ecological dynamics of necrophagous Sarcophagidae and Calliphoridae flies along an anthropization gradient. This research investigated alpha and beta diversity patterns to unravel the impact of human-induced environmental changes on these insect communities and also assesses the dynamics of functional groups in relation to their impact on medical and forensic fields. Five distinct habitats, ranging from urban to forested areas, were surveyed in two Departments in the Province of Chaco, Argentina. Necrophagous flies were collected using van Someren-Rydon canopy traps across three seasons. Two main functional groups were analyzed: oviparous flies (Calliphoridae) and larviparous flies (Sarcophagidae). Results indicated a significant negative correlation between Sarcophagidae species richness and anthropization, whereas Calliphoridae showed increased abundance in highly anthropized sites. The combined assemblage of Calliphoridae+Sarcophagidae exhibited significant relationships across all community parameters evaluated. Beta diversity analysis revealed turnover as the main process shaping dipteran communities along the anthropization gradient, with spatial species replacement dominating. This underscores the importance of interspecific spatial segregation in dipteran community composition. In conclusion, this study enhances our understanding of the ecological adaptations of necrophagous dipterans to anthropogenic disturbances. The observed shifts in diversity and abundance have implications for forensic investigations and public health, emphasizing the need for nuanced monitoring and conservation strategies. This research contributes valuable insights into the intricate ecological interactions of these insect communities within changing ecosystems.
Anthropization impacts on biodiversity and functional |
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ISSN: | 0001-706X 1873-6254 |
DOI: | 10.1016/j.actatropica.2024.107164 |