# Habitat‐Dependent Provisioning Patterns Are Modulated by Weather Conditions in a Rapidly Declining Farmland Raptor

**Authors:** S. Sangeeth Sailas, Matthias Tschumi, Martin U. Grüebler, Filip Reipricht, Pascal Stroeken, Ronald van Harxen, Martin Šálek

PMC · DOI: 10.1002/ece3.72969 · 2026-01-19

## TL;DR

Little Owls in farmland areas rely more on high-quality habitats to buffer against poor weather and ensure better food for their young.

## Contribution

This study reveals how habitat quality and weather interact to affect food provisioning in Little Owls across diverse farmlands.

## Key findings

- Provisioning rate and biomass increased with the area of high-quality habitats.
- High-quality habitats buffer against adverse weather, allowing more food provisioning at low temperatures and high wind speeds.
- Prey composition changes more in low-quality habitats during poor weather, showing better access to insects and voles in high-quality habitats.

## Abstract

Agricultural intensification and concomitant reduction in high‐quality habitats represent one of the major threats to farmland biodiversity in Europe. The Little Owl 
Athene noctua
 is an avian farmland predator whose population rapidly declined across many European countries. Food limitation during the breeding season has been considered a key factor driving this decline. However, it remains unclear how the quality of agricultural habitats affects parental food provisioning across different Little Owl populations. In addition, little is known about how weather conditions may modulate provisioning patterns dependent on habitat quality. Using nestbox cameras, we monitored parental food provisioning of Little Owls in four European countries with contrasting farmland structure (Czechia, Slovakia, Germany, Netherlands), covering 40 nests and 58 broods during the period 2002–2022. In particular, we investigated the interacting effects of habitat quality within Little Owl territories and weather conditions on parental food provisioning and nestling diet. Across all countries, provisioning rate and biomass increased with the area of high‐quality habitats, showed a quadratic relationship with temperature, and decreased with wind speed. Additionally, high‐quality habitats, compared with low‐quality habitats, acted as a buffer against adverse weather, allowing parents to provision more biomass at low temperatures and increase provisioning rates at high wind speeds. The changes in prey composition due to poor weather conditions differed considerably between habitats of high and low quality, suggesting that under poor conditions, Little Owls are able to access more insects and voles in high‐ than low‐quality habitats. Our findings highlight that increasing the area of high‐quality habitats, hand in hand with enhancing habitat heterogeneity within Little Owl territories, should represent the prime conservation activity to reduce the risk of food limitation across contrasting farmlands, particularly under poor weather conditions.

We monitored parental food provisioning of Little Owls in four European countries with contrasting farmland structure using nestbox cameras and demonstrated that across all countries, provisioning rate and biomass increased with the area of high‐quality habitats. Additionally, high‐quality habitats acted as a buffer against adverse weather, allowing parents to provision more biomass at low temperatures and increase provisioning rates at high wind speeds. The changes in prey composition due to poor weather conditions differed considerably between habitats of high and low quality, suggesting that under poor conditions, Little Owls are able to access more insects and voles in high than in low‐quality habitats.

## Linked entities

- **Species:** Athene noctua (taxon 126797)

## Full-text entities

- **Species:** Microtus arvalis (common vole, species) [taxon 47230], Athene noctua (little owl, species) [taxon 126797]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12815596/full.md

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Source: https://tomesphere.com/paper/PMC12815596