Integrating orientation mechanisms, adrenocortical activity, and endurance flight in vagrancy behaviour

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Integrating orientation mechanisms, adrenocortical activity, and endurance flight in vagrancy behaviour. / Snell, Katherine R. S.; Young, Rebecca C.; Krause, Jesse S.; Collinson, J. Martin; Wingfield, John C.; Thorup, Kasper.

In: Scientific Reports, Vol. 12, 22104, 2022.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Snell, KRS, Young, RC, Krause, JS, Collinson, JM, Wingfield, JC & Thorup, K 2022, 'Integrating orientation mechanisms, adrenocortical activity, and endurance flight in vagrancy behaviour', Scientific Reports, vol. 12, 22104. https://doi.org/10.1038/s41598-022-26136-8

APA

Snell, K. R. S., Young, R. C., Krause, J. S., Collinson, J. M., Wingfield, J. C., & Thorup, K. (2022). Integrating orientation mechanisms, adrenocortical activity, and endurance flight in vagrancy behaviour. Scientific Reports, 12, [22104]. https://doi.org/10.1038/s41598-022-26136-8

Vancouver

Snell KRS, Young RC, Krause JS, Collinson JM, Wingfield JC, Thorup K. Integrating orientation mechanisms, adrenocortical activity, and endurance flight in vagrancy behaviour. Scientific Reports. 2022;12. 22104. https://doi.org/10.1038/s41598-022-26136-8

Author

Snell, Katherine R. S. ; Young, Rebecca C. ; Krause, Jesse S. ; Collinson, J. Martin ; Wingfield, John C. ; Thorup, Kasper. / Integrating orientation mechanisms, adrenocortical activity, and endurance flight in vagrancy behaviour. In: Scientific Reports. 2022 ; Vol. 12.

Bibtex

@article{08384f8067124ce6b0cbebe9fd3f8267,
title = "Integrating orientation mechanisms, adrenocortical activity, and endurance flight in vagrancy behaviour",
abstract = "Avian migratory processes are typically precisely oriented, yet vagrants are frequently recorded outside their normal range. Wind displaced vagrants often show corrective behaviour, and as an appropriate response is likely adaptive. We investigated the physiological response to vagrancy in passerines. Activation of the emergency life-history stage (ELHS), assessed by high baseline plasma corticosterone, is a potential mechanism to elicit compensatory behaviour in response to challenges resulting from navigational error, coupled with response to fuel load and flight. We compared circulating plasma corticosterone concentrations and body condition between three migratory groups in autumn: (1) wind displaced southwest (SW) vagrants and (2) long range southeast (SE) vagrants on the remote Faroe Islands, and (3) birds within the expected SW migratory route (controls) on the Falsterbo peninsula, Sweden. Vagrants were further grouped by those sampled immediately upon termination of over-water migratory flight and those already on the island. In all groups there was no indication of the activation of the ELHS in response to vagrancy. We found limited support for an increased rate of corticosterone elevation within our 3 min sample interval in a single species, but this was driven by an individual ELHS outlier. Fat scores were negatively correlated with circulating corticosterone; this relationship may suggest that ELHS activation depends upon an individual{\textquoteright}s energetic states. Interestingly, in individuals caught at the completion of an obligate long-distance flight, we found some evidence of corticosterone suppression. Although limited, data did support the induction of negative feedback mechanisms that suppress corticosterone during endurance exercise, even when fuel loads are low.",
author = "Snell, {Katherine R. S.} and Young, {Rebecca C.} and Krause, {Jesse S.} and Collinson, {J. Martin} and Wingfield, {John C.} and Kasper Thorup",
note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",
year = "2022",
doi = "10.1038/s41598-022-26136-8",
language = "English",
volume = "12",
journal = "Scientific Reports",
issn = "2045-2322",
publisher = "nature publishing group",

}

RIS

TY - JOUR

T1 - Integrating orientation mechanisms, adrenocortical activity, and endurance flight in vagrancy behaviour

AU - Snell, Katherine R. S.

AU - Young, Rebecca C.

AU - Krause, Jesse S.

AU - Collinson, J. Martin

AU - Wingfield, John C.

AU - Thorup, Kasper

N1 - Publisher Copyright: © 2022, The Author(s).

PY - 2022

Y1 - 2022

N2 - Avian migratory processes are typically precisely oriented, yet vagrants are frequently recorded outside their normal range. Wind displaced vagrants often show corrective behaviour, and as an appropriate response is likely adaptive. We investigated the physiological response to vagrancy in passerines. Activation of the emergency life-history stage (ELHS), assessed by high baseline plasma corticosterone, is a potential mechanism to elicit compensatory behaviour in response to challenges resulting from navigational error, coupled with response to fuel load and flight. We compared circulating plasma corticosterone concentrations and body condition between three migratory groups in autumn: (1) wind displaced southwest (SW) vagrants and (2) long range southeast (SE) vagrants on the remote Faroe Islands, and (3) birds within the expected SW migratory route (controls) on the Falsterbo peninsula, Sweden. Vagrants were further grouped by those sampled immediately upon termination of over-water migratory flight and those already on the island. In all groups there was no indication of the activation of the ELHS in response to vagrancy. We found limited support for an increased rate of corticosterone elevation within our 3 min sample interval in a single species, but this was driven by an individual ELHS outlier. Fat scores were negatively correlated with circulating corticosterone; this relationship may suggest that ELHS activation depends upon an individual’s energetic states. Interestingly, in individuals caught at the completion of an obligate long-distance flight, we found some evidence of corticosterone suppression. Although limited, data did support the induction of negative feedback mechanisms that suppress corticosterone during endurance exercise, even when fuel loads are low.

AB - Avian migratory processes are typically precisely oriented, yet vagrants are frequently recorded outside their normal range. Wind displaced vagrants often show corrective behaviour, and as an appropriate response is likely adaptive. We investigated the physiological response to vagrancy in passerines. Activation of the emergency life-history stage (ELHS), assessed by high baseline plasma corticosterone, is a potential mechanism to elicit compensatory behaviour in response to challenges resulting from navigational error, coupled with response to fuel load and flight. We compared circulating plasma corticosterone concentrations and body condition between three migratory groups in autumn: (1) wind displaced southwest (SW) vagrants and (2) long range southeast (SE) vagrants on the remote Faroe Islands, and (3) birds within the expected SW migratory route (controls) on the Falsterbo peninsula, Sweden. Vagrants were further grouped by those sampled immediately upon termination of over-water migratory flight and those already on the island. In all groups there was no indication of the activation of the ELHS in response to vagrancy. We found limited support for an increased rate of corticosterone elevation within our 3 min sample interval in a single species, but this was driven by an individual ELHS outlier. Fat scores were negatively correlated with circulating corticosterone; this relationship may suggest that ELHS activation depends upon an individual’s energetic states. Interestingly, in individuals caught at the completion of an obligate long-distance flight, we found some evidence of corticosterone suppression. Although limited, data did support the induction of negative feedback mechanisms that suppress corticosterone during endurance exercise, even when fuel loads are low.

U2 - 10.1038/s41598-022-26136-8

DO - 10.1038/s41598-022-26136-8

M3 - Journal article

C2 - 36543804

AN - SCOPUS:85144598440

VL - 12

JO - Scientific Reports

JF - Scientific Reports

SN - 2045-2322

M1 - 22104

ER -

ID: 337427175