Black Woodpeckers Dryocopus martius use stepping stones between woodland units

TY - JOUR

T1 - Black Woodpeckers Dryocopus martius use stepping stones between woodland units

AU - Nielsen, Anders Grøndahl

AU - Fox, Anthony David

AU - Balsby, Thorsten Johannes Skovbjerg

N1 - Publisher Copyright: © 2024 British Trust for Ornithology.

PY - 2024/7

Y1 - 2024/7

N2 - Capsule: Black Woodpeckers Dryocopus martius used small patches of trees as stepping stones when crossing areas of open land during daily movements within their home range in the non-breeding season. Aims: To document that Black Woodpeckers, although an obligate forest species, frequently cross areas of open land within their daily home range, using solitary trees or small patches of trees as stepping stones during these movements. Methods: We mounted GPS-loggers on 11 Black Woodpeckers and recorded their position every 5 min for approximately 1 week. Three woodpeckers stayed within continuous forest for the duration of the study, or failed to meet assumptions, and were therefore excluded from the analysis. The remaining eight Black Woodpeckers all moved between discrete woodland units at least once during the study period. Using a habitat use-availability framework, 54 GPS-positions located in gaps of open land between separate forest patches were analysed. Results: Black Woodpeckers showed a significant preference for trees at low tree availabilities in the open land. However, we could not rule out that their preference for trees was proportional to availability when tree cover was high (> 82% tree cover). The median distance traversed to a location in open land between forest patches was 731 m. Conclusion: Since the preference for trees was especially pronounced at low tree availabilities, we suggest that Black Woodpeckers use solitary trees or small patches of trees as stepping stones when traversing open areas within their daily home range. We hypothesize that this behaviour lessens the costs of living in a fragmented habitat, and that conservation of trees in open land may contribute to conserving Black Woodpecker populations in areas with fragmented forests.

AB - Capsule: Black Woodpeckers Dryocopus martius used small patches of trees as stepping stones when crossing areas of open land during daily movements within their home range in the non-breeding season. Aims: To document that Black Woodpeckers, although an obligate forest species, frequently cross areas of open land within their daily home range, using solitary trees or small patches of trees as stepping stones during these movements. Methods: We mounted GPS-loggers on 11 Black Woodpeckers and recorded their position every 5 min for approximately 1 week. Three woodpeckers stayed within continuous forest for the duration of the study, or failed to meet assumptions, and were therefore excluded from the analysis. The remaining eight Black Woodpeckers all moved between discrete woodland units at least once during the study period. Using a habitat use-availability framework, 54 GPS-positions located in gaps of open land between separate forest patches were analysed. Results: Black Woodpeckers showed a significant preference for trees at low tree availabilities in the open land. However, we could not rule out that their preference for trees was proportional to availability when tree cover was high (> 82% tree cover). The median distance traversed to a location in open land between forest patches was 731 m. Conclusion: Since the preference for trees was especially pronounced at low tree availabilities, we suggest that Black Woodpeckers use solitary trees or small patches of trees as stepping stones when traversing open areas within their daily home range. We hypothesize that this behaviour lessens the costs of living in a fragmented habitat, and that conservation of trees in open land may contribute to conserving Black Woodpecker populations in areas with fragmented forests.

UR - http://www.scopus.com/inward/record.url?scp=85189897872&partnerID=8YFLogxK

U2 - 10.1080/00063657.2024.2329524

DO - 10.1080/00063657.2024.2329524

M3 - Journal article

AN - SCOPUS:85189897872

SN - 0006-3657

VL - 71

SP - 143

EP - 153

JO - Bird Study

JF - Bird Study

IS - 2

ER -