Hoverflies use a time-compensated sun compass to orientate during autumn migration

Richard Massy; Will L S Hawkes; Toby Doyle; Jolyon Troscianko; Myles H M Menz; Nicholas W Roberts; Jason W Chapman; Karl R Wotton

doi:10.1098/rspb.2021.1805

Hoverflies use a time-compensated sun compass to orientate during autumn migration

Richard Massy, Will L S Hawkes, Toby Doyle, Jolyon Troscianko, Myles H M Menz, Nicholas W Roberts, Jason W Chapman, Karl R Wotton

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Abstract

The sun is the most reliable celestial cue for orientation available to daytime migrants. It is widely assumed that diurnal migratory insects use a 'time-compensated sun compass' to adjust for the changing position of the sun throughout the day, as demonstrated in some butterfly species. The mechanisms used by other groups of diurnal insect migrants remain to be elucidated. Migratory species of hoverflies (Diptera: Syrphidae) are one of the most abundant and beneficial groups of diurnal migrants, providing multiple ecosystem services and undergoing directed seasonal movements throughout much of the temperate zone. To identify the hoverfly navigational strategy, a flight simulator was used to measure orientation responses of the hoverflies Scaeva pyrastri and Scaeva selenitica to celestial cues during their autumn migration. Hoverflies oriented southwards when they could see the sun and shifted this orientation westward following a 6 h advance of their circadian clocks. Our results demonstrate the use of a time-compensated sun compass as the primary navigational mechanism, consistent with field observations that hoverfly migration occurs predominately under clear and sunny conditions.

Original language	English
Article number	20211805
Pages (from-to)	794-796
Number of pages	3
Journal	Proceedings. Biological sciences
Volume	288
Issue number	1959
Early online date	22 Sept 2021
DOIs	https://doi.org/10.1098/rspb.2021.1805
Publication status	Published - 29 Sept 2021

Bibliographical note

Funding Information:
This work was supported through grants to K.R.W. from the Royal Society University Research Fellowship scheme (grant no. UF150126). R.M. was supported through the NERC GW4+ Doctoral Training Partnership. T.D. and W.H. were supported by awards to K.R.W. from the Royal Society: a fellows enhancement award (grant no. RGF\EA\180083) and a research grant for research fellows (grant no. RGF\R1\180047), respectively. Support to M.H.M.M. was through the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement no. 795568. N.W.R. was supported by grants from the American Airforce Research Laboratory (AFRL) (grant no. FA9550-19-1-7005) and the Bristol Centre for Agricultural Innovation (BCAI). Acknowledgements

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© 2021 The Authors.

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title = "Hoverflies use a time-compensated sun compass to orientate during autumn migration",

abstract = "The sun is the most reliable celestial cue for orientation available to daytime migrants. It is widely assumed that diurnal migratory insects use a 'time-compensated sun compass' to adjust for the changing position of the sun throughout the day, as demonstrated in some butterfly species. The mechanisms used by other groups of diurnal insect migrants remain to be elucidated. Migratory species of hoverflies (Diptera: Syrphidae) are one of the most abundant and beneficial groups of diurnal migrants, providing multiple ecosystem services and undergoing directed seasonal movements throughout much of the temperate zone. To identify the hoverfly navigational strategy, a flight simulator was used to measure orientation responses of the hoverflies Scaeva pyrastri and Scaeva selenitica to celestial cues during their autumn migration. Hoverflies oriented southwards when they could see the sun and shifted this orientation westward following a 6 h advance of their circadian clocks. Our results demonstrate the use of a time-compensated sun compass as the primary navigational mechanism, consistent with field observations that hoverfly migration occurs predominately under clear and sunny conditions.",

author = "Richard Massy and Hawkes, \{Will L S\} and Toby Doyle and Jolyon Troscianko and Menz, \{Myles H M\} and Roberts, \{Nicholas W\} and Chapman, \{Jason W\} and Wotton, \{Karl R\}",

note = "Funding Information: This work was supported through grants to K.R.W. from the Royal Society University Research Fellowship scheme (grant no. UF150126). R.M. was supported through the NERC GW4+ Doctoral Training Partnership. T.D. and W.H. were supported by awards to K.R.W. from the Royal Society: a fellows enhancement award (grant no. RGF\textbackslash{}EA\textbackslash{}180083) and a research grant for research fellows (grant no. RGF\textbackslash{}R1\textbackslash{}180047), respectively. Support to M.H.M.M. was through the European Union's Horizon 2020 research and innovation programme under the Marie Sk{\l}odowska-Curie grant agreement no. 795568. N.W.R. was supported by grants from the American Airforce Research Laboratory (AFRL) (grant no. FA9550-19-1-7005) and the Bristol Centre for Agricultural Innovation (BCAI). Acknowledgements Publisher Copyright: {\textcopyright} 2021 The Authors.",

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AU - Massy, Richard

AU - Hawkes, Will L S

AU - Doyle, Toby

AU - Troscianko, Jolyon

AU - Menz, Myles H M

AU - Roberts, Nicholas W

AU - Chapman, Jason W

AU - Wotton, Karl R

N1 - Funding Information: This work was supported through grants to K.R.W. from the Royal Society University Research Fellowship scheme (grant no. UF150126). R.M. was supported through the NERC GW4+ Doctoral Training Partnership. T.D. and W.H. were supported by awards to K.R.W. from the Royal Society: a fellows enhancement award (grant no. RGF\EA\180083) and a research grant for research fellows (grant no. RGF\R1\180047), respectively. Support to M.H.M.M. was through the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement no. 795568. N.W.R. was supported by grants from the American Airforce Research Laboratory (AFRL) (grant no. FA9550-19-1-7005) and the Bristol Centre for Agricultural Innovation (BCAI). Acknowledgements Publisher Copyright: © 2021 The Authors.

PY - 2021/9/29

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N2 - The sun is the most reliable celestial cue for orientation available to daytime migrants. It is widely assumed that diurnal migratory insects use a 'time-compensated sun compass' to adjust for the changing position of the sun throughout the day, as demonstrated in some butterfly species. The mechanisms used by other groups of diurnal insect migrants remain to be elucidated. Migratory species of hoverflies (Diptera: Syrphidae) are one of the most abundant and beneficial groups of diurnal migrants, providing multiple ecosystem services and undergoing directed seasonal movements throughout much of the temperate zone. To identify the hoverfly navigational strategy, a flight simulator was used to measure orientation responses of the hoverflies Scaeva pyrastri and Scaeva selenitica to celestial cues during their autumn migration. Hoverflies oriented southwards when they could see the sun and shifted this orientation westward following a 6 h advance of their circadian clocks. Our results demonstrate the use of a time-compensated sun compass as the primary navigational mechanism, consistent with field observations that hoverfly migration occurs predominately under clear and sunny conditions.

AB - The sun is the most reliable celestial cue for orientation available to daytime migrants. It is widely assumed that diurnal migratory insects use a 'time-compensated sun compass' to adjust for the changing position of the sun throughout the day, as demonstrated in some butterfly species. The mechanisms used by other groups of diurnal insect migrants remain to be elucidated. Migratory species of hoverflies (Diptera: Syrphidae) are one of the most abundant and beneficial groups of diurnal migrants, providing multiple ecosystem services and undergoing directed seasonal movements throughout much of the temperate zone. To identify the hoverfly navigational strategy, a flight simulator was used to measure orientation responses of the hoverflies Scaeva pyrastri and Scaeva selenitica to celestial cues during their autumn migration. Hoverflies oriented southwards when they could see the sun and shifted this orientation westward following a 6 h advance of their circadian clocks. Our results demonstrate the use of a time-compensated sun compass as the primary navigational mechanism, consistent with field observations that hoverfly migration occurs predominately under clear and sunny conditions.

U2 - 10.1098/rspb.2021.1805

DO - 10.1098/rspb.2021.1805

M3 - Article (Academic Journal)

C2 - 34547904

SN - 0962-8452

VL - 288

SP - 794

EP - 796

JO - Proceedings. Biological sciences

JF - Proceedings. Biological sciences

IS - 1959

M1 - 20211805

ER -

Hoverflies use a time-compensated sun compass to orientate during autumn migration

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