What question did this study set out to answer?

The aim is to explore how rising temperatures affect bird heat adaptation and to develop a framework for future research.

April 28, 2026Open Access

Physiological constraints on heat adaptation in birds

Key Points

The aim is to explore how rising temperatures affect bird heat adaptation and to develop a framework for future research.
Introduces a biophysical model considering temperature and humidity interactions.
Proposes a life-history model relating thermoregulatory effort to heat-related damage and fecundity.
Advocates for multidisciplinary approaches in studying heat tolerance across various bird species and habitats.
Identifies a significant gap in heat tolerance research within avian species.
Suggests the need for integrating ecology, evolution, and physiology in future studies.
Highlights the importance of understanding these adaptations to forecast bird population dynamics amid climate change.

Abstract

Rising global temperatures and compound climatic extremes outpace avian thermoregulatory capacity. Yet, heat tolerance has been studied in only 1-2% of birds, mostly from the southern subtropics. The field requires research in two main areas. First, temperature and humidity must be considered in unison, and we provide a guiding, biophysical, framework for how these factors interact across climates. Second, we need experiments integrating ecology, evolution, and physiology. To that end, we introduce a life-history model relating thermoregulatory effort and the accumulation of heat-related damage to lifetime fecundity. Moving forward, we advocate multidisciplinary approaches to study heat tolerance across phylogenetic breadth and in understudied biomes. This is essential for identifying species at risk and forecasting bird population dynamics in a changing world.

Physiological constraints on heat adaptation in birds

Key Points

Abstract

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