# Changing Rainfall Drives Locally Asynchronous Reproduction of Tropical Birds via Modular Trophic Pathways

**Authors:** Felicity L. Newell, Ian J. Ausprey, Scott K. Robinson

PMC · DOI: 10.1111/gcb.70790 · 2026-03-26

## TL;DR

Changing rainfall patterns cause tropical insect-eating birds to shift their breeding seasons, creating ecological tipping points and early warnings for climate impacts.

## Contribution

The study reveals modular trophic pathways in tropical birds linking rainfall magnitude and timing to reproduction.

## Key findings

- Insectivorous birds reversed breeding seasons at a threshold in dry-season insect availability.
- Nectar-fruit consumers maintained stable breeding seasons despite rainfall changes.
- Localized breeding shifts magnified drought effects and revealed ecological tipping points.

## Abstract

Phenological shifts are a pervasive response to climate change but remain poorly understood in the hyperdiverse tropics. Combining comprehensive multitrophic datasets and in situ meteorological data, we test classic hypotheses linking reproduction to the timing and magnitude of rainfall across trophic levels in tropical birds. In low‐latitude mountains, breeding was primarily seasonal and varied based on diet. Consistent with the regional timing of wet and dry seasons, bird species that consume primarily nectar or fruit timed breeding to dry season flowering or wet season fruiting with limited variation across elevation and rainfall gradients. In contrast, species that consume arthropods shifted breeding locally, five months in less than a hundred kilometers, as the intensity of the dry season increased. Spatially asynchronous reproduction was repeated in more than 30 insectivore species as the main nesting season switched from before to after the dry season at a threshold in dry‐season insects. Reversed seasonality magnified the short‐term effects of drought as insectivore communities that nested after the dry season reduced reproductive effort—skipping breeding during resource‐limited dry years—whereas communities that nested before the dry season adapted by breeding up to one month earlier. Strong spatial to temporal variation at a ratio of 5:1 suggests limited short‐term behavioral flexibility within restricted breeding seasons timed based on the long‐term magnitude of seasonal rainfall. At higher trophic levels, similar within‐group but different between‐group responses to rainfall magnitude demonstrate quasi‐independent trophic pathways for how tropical food webs link to rainfall. Cumulatively, these results support an ecological tipping point tied to dry season intensity in which rainfall‐mediated ecological constraints compartmentalized functional groups into vertical trophic modules, which responded differently to changing rainfall. Compared with the seasonal stability of nectar‐fruit consumers, the rapid response of insectivores provides an early warning for changing rainfall.

In low‐latitude mountains, we found insectivorous bird communities switched from breeding before to after the dry season at a threshold in dry‐season insects. Localized breeding season reversal of insectivores across wet‐to‐dry gradients magnified short‐term effects of drought and contrasted with the seasonal stability of nectar‐fruit consumers. These results demonstrate modular trophic pathways linked to rainfall magnitude versus timing as rapid response of insectivores provided an early warning for changing rainfall.

## Full-text entities

- **Diseases:** drought (MESH:C536747), flush (MESH:D005483)
- **Chemicals:** montane (-), aluminum (MESH:D000535)
- **Species:** Myiothlypis coronata (species) [taxon 1851190], Columbidae (pigeons, family) [taxon 8930], Viburnum (genus) [taxon 4204], Miconia (genus) [taxon 263288], Passerellidae (family) [taxon 1729112], Adelomyia melanogenys (species) [taxon 304594], Trochilidae (hummingbirds, family) [taxon 9242], Mionectes striaticollis (species) [taxon 170958], Brachyotum (genus) [taxon 1160525], Zentrygon frenata (species) [taxon 471131], Palicourea (genus) [taxon 59595], Zonotrichia capensis (rufous-collared sparrow, species) [taxon 44391], Turdus fuscater (great thrush, species) [taxon 311354], Homo sapiens (human, species) [taxon 9606], Clymenella torquata (bamboo worm, species) [taxon 292503], Hexapoda (hexapods, subphylum) [taxon 6960], Solanum (genus) [taxon 4107]

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13019422/full.md

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Source: https://tomesphere.com/paper/PMC13019422