# Small gains, large losses: range shifts of the hoverfly Dioprosopa clavata (Fabricius, 1794) (Diptera: Syrphidae) to 2100

**Authors:** Janderson Batista Rodrigues Alencar, João Paulo Nunes, Matheus Augusto do Nascimento, Alessandre Pereira-Colavite, Adeilson de Melo Silva, Clarissa Rosa

PMC · DOI: 10.1007/s00484-026-03147-y · International Journal of Biometeorology · 2026-02-24

## TL;DR

This study predicts that the hoverfly Dioprosopa clavata will lose significant habitat by 2100 due to climate change, especially in tropical regions where its ecosystem services are vital.

## Contribution

The first large-scale ecological niche modeling assessment for a Neotropical hoverfly under climate change scenarios.

## Key findings

- Climate change is projected to cause up to 43.5% habitat loss for D. clavata by 2100 under high-emission scenarios.
- Range shifts are expected toward cooler, higher-elevation areas, but with increased spatial fragmentation.
- Habitat loss is most severe in tropical agricultural regions, threatening pollination and pest control services.

## Abstract

Climate change is rapidly reshaping species distributions and threatening ecosystem services, yet continent-wide forecasts for Neotropical hoverflies are virtually absent. Here, we present the first large-scale ecological niche modeling assessment for Dioprosopa clavata (Fabricius, 1794), a key syrphid with dual ecological roles in pollination and aphid control. Using 1,214 curated occurrences and an ensemble of MaxEnt, DOMAIN, and GLM, we combined climatic and physiographic predictors (elevation, compound topographic index, profile curvature) to project suitability under SSP2–4.5 (intermediate) and SSP5–8.5 (high-end) scenarios for 2021–2040 and 2081–2100. Models showed excellent predictive performance, with climate explaining ~ 71% of model contribution and physiography ~ 29%, highlighting the buffering role of topographic heterogeneity. Near-term projections retained most of the current range (≈ 88–89% stability), but late-century forecasts revealed dramatic contractions, up to 43.5% habitat loss under SSP5–8.5, particularly in tropical lowlands of northern South America and Central America. These losses were accompanied by increased spatial fragmentation and modest poleward and upslope gains, suggesting climate-driven range shifts toward cooler, higher-elevation refugia. Our findings indicate that D. clavata habitats will decline most severely where pollination and pest control services are most needed, agricultural regions of tropical South America, potentially reducing local ecosystem service provision. By identifying priority areas for connectivity and microclimatic refugia, this study offers a mechanical aware forecast and actionable hypotheses to guide field validation, monitoring programs, and climate-smart conservation strategies for an understudied yet functionally crucial pollinator group.

The online version contains supplementary material available at 10.1007/s00484-026-03147-y.

## Full-text entities

- **Diseases:** ENM (MESH:D004195), drought (MESH:C536747)
- **Species:** Simosyrphus grandicornis (common hover fly, species) [taxon 290412], Pseudodoros clavatus (species) [taxon 414849], Tridax procumbens (species) [taxon 318066], Bombus (subgenus) [taxon 144708], Citrus (genus) [taxon 2706], Capsicum annuum var. annuum (jalapeno pepper, varietas) [taxon 40321], Brassica napus (oilseed rape, species) [taxon 3708], Allium cepa (onion, species) [taxon 4679], Diptera (flies, order) [taxon 7147], Apis mellifera (bee, species) [taxon 7460], Syrphidae (drone flies, family) [taxon 34680]

## Full text

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## Figures

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## References

2 references — full list in the complete paper: https://tomesphere.com/paper/PMC12932299/full.md

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Source: https://tomesphere.com/paper/PMC12932299