# Fidelity to territory and mate and the causes and consequences of breeding dispersal in American goshawk (Astur atricapillus)

**Authors:** Richard T. Reynolds, Shannon L. Kay, Jeffrey S. Lambert, Martha Ellis

PMC · DOI: 10.1371/journal.pone.0323805 · PLOS One · 2025-05-22

## TL;DR

This study examines how American goshawks stay loyal to their territory and mates, and how they disperse when mates are lost, using data from a 20-year study in Arizona.

## Contribution

The study provides new insights into the causes and consequences of breeding dispersal in American goshawks, particularly the role of mate loss and territory fidelity.

## Key findings

- Most goshawks showed high lifetime fidelity to both territory and mate, with mate loss being the strongest predictor of dispersal.
- Despite mate loss, most goshawks remained on their territory to find a new mate, suggesting a strategy of local mate searching.
- Dispersal did not lead to improved reproductive success or selection of higher-quality territories.

## Abstract

Using mark-resight data, we investigated fidelity to territory and mate as well as breeding dispersal rates and the causes and consequences of breeding dispersal in a 20-year study of American goshawks (Astur atricapillus) in Arizona, USA. Generalized Additive Mixed Models were used to identify the relative contributions of four prominent explanatory variables (eggs laid, nest failed, nest successful, mate loss) and 21 individual and environmental variables in a machine learning Conditional Inference Forest to predict breeding dispersal. Ninety-five percent of males and 92% of females exhibited lifetime territory fidelity and 97% exhibited lifetime mate fidelity. Mate loss alone (to divorce, possible emigration or death) made the biggest difference in the predicted probability of dispersal (0.11 with mate loss, 0.005 with mate retention). Yet, in 80% of mate losses a hawk stayed on its territory to eventually nest with a new mate. Territory fidelity was highest when the mate was retained in the next breeding and the pair’s previous attempt produced fledglings. All males and 86% of females that dispersed to a territory in our study area moved no farther than to a 3rd-order neighboring territory (crossed 2 territories). Despite equivocal evidence of dispersal to territories more frequently occupied by egg-layers, there was otherwise little evidence that hawks on average dispersed to better territories. On average reproduction did not improve post-dispersal and dispersers did not move to territories with greater total (all monitored yrs) reproduction. Goshawks losing their mates appeared to use a home-based mate searching that minimized loss of a familiar territory by waiting on their territory for a new mate and prospecting nearby territories for unpaired mates. The small sample of nearby prospected territories, combined with fortuitous occurrences of unpaired mates, resulted in random (with respect to quality) selections of territories by dispersers.

## Linked entities

- **Species:** Astur atricapillus (taxon 3149181)

## Full-text entities

- **Diseases:** IDD (MESH:D020243), burned (MESH:D002056), mortalities (MESH:D003643), fire (MESH:D000092422)
- **Chemicals:** aluminum (MESH:D000535)
- **Species:** Abies grandis (grand fir, species) [taxon 46611], Lepus (hares, genus) [taxon 9980], Oryctolagus cuniculus (domestic rabbit, species) [taxon 9986], Pseudotsuga menziesii (Douglas-fir, species) [taxon 3357], Astur gentilis (Eurasian goshawk, species) [taxon 8957], Astur atricapillus atricapillus (subspecies) [taxon 387753], Meleagris gallopavo (common turkey, species) [taxon 9103], Buteo (hawks, genus) [taxon 30396], Picea pungens (blue spruce, species) [taxon 3331], Pinus ponderosa (Pacific ponderosa pine, species) [taxon 55062], Columbidae (pigeons, family) [taxon 8930], Abies concolor (Colorado fir, species) [taxon 97173], Populus tremuloides (quaking aspen, species) [taxon 3693]

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12097718/full.md

## References

132 references — full list in the complete paper: https://tomesphere.com/paper/PMC12097718/full.md

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Source: https://tomesphere.com/paper/PMC12097718