# Poleward Range Shifts of Breeding Birds in Wisconsin

**Authors:** Drake T. Stallworth, Nicholas M. Anich, Benjamin Zuckerberg

PMC · DOI: 10.1002/ece3.71796 · 2025-07-28

## TL;DR

This study shows that bird species in Wisconsin are shifting their breeding ranges northward due to climate change.

## Contribution

The paper provides empirical evidence of poleward range shifts in Wisconsin's breeding birds using two atlases.

## Key findings

- Southerly bird species are expanding their ranges and shifting boundaries northward.
- Boreal species show a northward movement in their overall distribution despite no range boundary shift.
- The poleward shift in bird ranges is a consistent indicator of climate change impacts.

## Abstract

Climate change is causing shifts in the geographic ranges of multiple species across the world. Birds are a critical taxon for observing range shifts because their high mobility allows them to track shifting climates over time and space. Breeding bird atlases are large‐scale breeding bird surveys that are essential for tracking species' ranges in response to climate change. In this paper, our goal was to analyze Wisconsin's Breeding Bird Atlases (1995–2000 and 2015–2019) to document changes in range size, mean latitude, and range boundary shift of breeding birds. Concordant with our predictions, we found that many southerly bird species with northern range limits were both expanding in distribution and shifting their range boundaries poleward. Contrary to our predictions, northerly species with southern range limits in the state were not shifting their boundary poleward but demonstrated a northward movement in their mean latitudes. Despite the lack of range boundary shift for northerly species as a group, many boreal species demonstrated a shift northward in their overall distribution. The repeated signal of bird ranges moving poleward remains a coherent fingerprint of the impact of modern climate change on species and ecosystems.

Anthropogenic climate change has been documented to cause poleward range shifts in birds. This paper uses Wisconsin's two Breeding Bird Atlases to determine climate change's impact on the ranges of birds in the state. We found that warm‐adapted birds in the state were expanding northward.

## Full-text entities

- **Species:** Pandion haliaetus (osprey, species) [taxon 56262], Oporornis agilis (Connecticut warbler, species) [taxon 231570], Phasianus colchicus (common pheasant, species) [taxon 9054], Poecile hudsonicus (species) [taxon 156552], Hesperiphona vespertina (species) [taxon 670343], Protonotaria citrea (Prothonotary warbler, species) [taxon 182944], Cygnus buccinator (trumperter swan, species) [taxon 48397], Corvus corax (Common raven, species) [taxon 56781], Anas rubripes (American black duck, species) [taxon 75857], Thryothorus ludovicianus (Carolina wren, species) [taxon 74200], Falco columbarius (species) [taxon 8953], Catharus ustulatus (Swainson's thrush, species) [taxon 91951], Haemorhous mexicanus (California linnet, species) [taxon 30427], Setophaga americana (northern parula, species) [taxon 125947], Melanerpes carolinus (red-bellied woodpecker, species) [taxon 56083], Haliaeetus leucocephalus (bald eagle, species) [taxon 52644], Cardellina canadensis (Canada warbler, species) [taxon 182910], Spiza americana (dickcissel, species) [taxon 84854], Meleagris gallopavo (common turkey, species) [taxon 9103], Bacillus sp. ALD (species) [taxon 2293318], Ammospiza leconteii [taxon 2517975], Setophaga pinus (pine warbler, species) [taxon 182907], Turdus philomelos (Singdrossel, species) [taxon 127946], Setophaga magnolia (Magnolia warbler, species) [taxon 92121], Perisoreus canadensis (species) [taxon 54573], Chondestes grammacus (species) [taxon 158616], Baeolophus bicolor (tufted titmouse, species) [taxon 88114], Icterus spurius (species) [taxon 84829]

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12304433/full.md

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Source: https://tomesphere.com/paper/PMC12304433