Geographic origin and migration phenology of European red admirals (Vanessa atalanta) as revealed by stable isotopes

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Geographic origin and migration phenology of European red admirals (Vanessa atalanta) as revealed by stable isotopes. / Brattström, Oskar; Shapoval, Anatoly; Wassenaar, Leonard I.; Hobson, Keith A.; Åkesson, Susanne.

In: Movement Ecology, Vol. 6, No. 1, 25, 21.12.2018.

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Brattström, Oskar ; Shapoval, Anatoly ; Wassenaar, Leonard I. ; Hobson, Keith A. ; Åkesson, Susanne. / Geographic origin and migration phenology of European red admirals (Vanessa atalanta) as revealed by stable isotopes. In: Movement Ecology. 2018 ; Vol. 6, No. 1.

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TY - JOUR

T1 - Geographic origin and migration phenology of European red admirals (Vanessa atalanta) as revealed by stable isotopes

AU - Brattström, Oskar

AU - Shapoval, Anatoly

AU - Wassenaar, Leonard I.

AU - Hobson, Keith A.

AU - Åkesson, Susanne

PY - 2018/12/21

Y1 - 2018/12/21

N2 - Background: Long-distance migration has evolved multiple times in different animal taxa. For insect migrants, the complete annual migration cycle covering several thousand kilometres, may be performed by several generations, each migrating part of the distance and reproducing. Different life-cycle stages and preferred orientation may thus, be found along the migration route. For migrating red admirals (Vanessa atalanta) it has been questioned if they reproduce in the most northern part of the range. Here we present migration phenology data from a two-year time series of migrating red admirals captured at Rybachy, Kaliningrad, in the northern part of Europe investigating time for migration, life-history stage (migration, reproduction) as well as site of origin in individual butterflies. Methods: Red admirals were captured daily at a coastal site during spring, summer and autumn in 2004 and 2005. For the sampled individuals, reproductive status and fuel content were estimated by visual inspection, and hydrogen isotopes (δ 2H) were analysed in wing samples. δ 2H values was compared with samples from two nearby reference sites in Estonia and Poland. Results: Analysis of hydrogen isotopes (δ 2H) in red admiral wings showed that the spring cohort were of a southerly origin, while those caught in August or later in the autumn were from the local region or areas further to the north. All females caught during spring had developing eggs in their abdomen, but no eggs were found in late summer/autumn. There was a male-biased sex ratio during autumn and a difference in lipid content between years. When comparing the isotopic data with inland nearby locations, it was clear that the range of δ 2H values (- 181 to - 78) was wider at Rybachy as compared to the two reference sites in Estonia and Poland (- 174 to - 100). Conclusions: During spring, migratory female red admirals arrived from the south and were ready to reproduce, while the autumn passage mainly engaged local and more northern individuals carrying large fuel deposits in preparation for long-distance migration. The phenology data suggest that individuals select to migrate in favourable weather conditions and that numbers may differ between years. Future studies should focus on individual sampling at a wide range of sites to reveal differential migration strategies and timing of migration between sexes and populations of migrating butterflies.

AB - Background: Long-distance migration has evolved multiple times in different animal taxa. For insect migrants, the complete annual migration cycle covering several thousand kilometres, may be performed by several generations, each migrating part of the distance and reproducing. Different life-cycle stages and preferred orientation may thus, be found along the migration route. For migrating red admirals (Vanessa atalanta) it has been questioned if they reproduce in the most northern part of the range. Here we present migration phenology data from a two-year time series of migrating red admirals captured at Rybachy, Kaliningrad, in the northern part of Europe investigating time for migration, life-history stage (migration, reproduction) as well as site of origin in individual butterflies. Methods: Red admirals were captured daily at a coastal site during spring, summer and autumn in 2004 and 2005. For the sampled individuals, reproductive status and fuel content were estimated by visual inspection, and hydrogen isotopes (δ 2H) were analysed in wing samples. δ 2H values was compared with samples from two nearby reference sites in Estonia and Poland. Results: Analysis of hydrogen isotopes (δ 2H) in red admiral wings showed that the spring cohort were of a southerly origin, while those caught in August or later in the autumn were from the local region or areas further to the north. All females caught during spring had developing eggs in their abdomen, but no eggs were found in late summer/autumn. There was a male-biased sex ratio during autumn and a difference in lipid content between years. When comparing the isotopic data with inland nearby locations, it was clear that the range of δ 2H values (- 181 to - 78) was wider at Rybachy as compared to the two reference sites in Estonia and Poland (- 174 to - 100). Conclusions: During spring, migratory female red admirals arrived from the south and were ready to reproduce, while the autumn passage mainly engaged local and more northern individuals carrying large fuel deposits in preparation for long-distance migration. The phenology data suggest that individuals select to migrate in favourable weather conditions and that numbers may differ between years. Future studies should focus on individual sampling at a wide range of sites to reveal differential migration strategies and timing of migration between sexes and populations of migrating butterflies.

KW - Geographic origin

KW - Hydrogen isotopes

KW - Insect migration

KW - Migration phenology

KW - Stable isotopes

U2 - 10.1186/s40462-018-0143-3

DO - 10.1186/s40462-018-0143-3

M3 - Article

VL - 6

JO - Movement Ecology

T2 - Movement Ecology

JF - Movement Ecology

SN - 2051-3933

IS - 1

M1 - 25

ER -