Phenotypic flexibility during migration:optimization of organ size contingent on the risks and rewards of fueling and flight?

Avian long-distance migration involves the storage and expenditure of very large fuel loads. Birds may double in weight before take-off on flights of many 1000 km, and they may lose half their body mass over the subsequent few days that such trips take. Recent studies indicate that in addition to th...

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Bibliographic Details
Main Author: Piersma, T
Format: Article in Journal/Newspaper
Language:English
Published: 1998
Subjects:
KNOTS CALIDRIS-CANUTUS
LONG-DISTANCE MIGRANT
BASAL METABOLIC-RATE
BAR-TAILED GODWITS
BODY-COMPOSITION
GARDEN WARBLER
SYLVIA BORIN
MASS
MUSCLE
BIRDS
Calidris canutus
Philomachus pugnax
Pluvialis apricaria
Red Knot
Ruff
Online Access:https://hdl.handle.net/11370/910b3b48-babf-45ec-aeaf-d62399e5662f
https://research.rug.nl/en/publications/910b3b48-babf-45ec-aeaf-d62399e5662f
https://pure.rug.nl/ws/files/6656673/1998JAvianBiolPiersma2.pdf
id ftunigroningenpu:oai:pure.rug.nl:publications/910b3b48-babf-45ec-aeaf-d62399e5662f
record_format openpolar
spelling ftunigroningenpu:oai:pure.rug.nl:publications/910b3b48-babf-45ec-aeaf-d62399e5662f 2024-09-15T18:00:48+00:00 Phenotypic flexibility during migration:optimization of organ size contingent on the risks and rewards of fueling and flight? Piersma, T 1998-12 application/pdf https://hdl.handle.net/11370/910b3b48-babf-45ec-aeaf-d62399e5662f https://research.rug.nl/en/publications/910b3b48-babf-45ec-aeaf-d62399e5662f https://pure.rug.nl/ws/files/6656673/1998JAvianBiolPiersma2.pdf eng eng https://research.rug.nl/en/publications/910b3b48-babf-45ec-aeaf-d62399e5662f info:eu-repo/semantics/openAccess Piersma , T 1998 , ' Phenotypic flexibility during migration : optimization of organ size contingent on the risks and rewards of fueling and flight? ' , Journal of Avian Biology , vol. 29 , no. 4 , pp. 511-520 . KNOTS CALIDRIS-CANUTUS LONG-DISTANCE MIGRANT BASAL METABOLIC-RATE BAR-TAILED GODWITS BODY-COMPOSITION GARDEN WARBLER SYLVIA BORIN MASS MUSCLE BIRDS article 1998 ftunigroningenpu 2024-07-01T14:49:22Z Avian long-distance migration involves the storage and expenditure of very large fuel loads. Birds may double in weight before take-off on flights of many 1000 km, and they may lose half their body mass over the subsequent few days that such trips take. Recent studies indicate that in addition to the storage and depletion of fat, the muscles and belly organs also undergo considerable changes in size in the course of such migrations. Such intraindividual and repeatedly reversed changes in stores and organ sizes represent a class of phenotypic plasticity called 'phenotypic flexibility'. Using preliminary comparative data for different populations of Bar-tailed Godwits Limosa lapponica, and several other shorebird species adding variation to the migration strategies sampled (Golden Plover Pluvialis apricaria, Ruff Philomachus pugnax, Red Knot Calidris canutus and Bristle-thighed Curlew Numenius tahitiensis), the thesis is developed that the size of the organs carried during take-off represent evolutionary compromises between their functions during the storage, flight and post-arrival phases of migration. In all cases fat-free tissue along with fat is deposited during fuel storage, but the proportions vary a great deal between similarly sized species. Just before departure on long-distance flights, exercise organs (pectoral muscle and heart) tend to show hypertrophy and nutritional organs (stomach, intestine and liver) tend to show atrophy. Reductions in nutritional organs appear most pronounced in (sub-) species that are about to overfly barren oceans with few or no opportunities for emergency landings. Migrant birds seem to show a great deal of adaptive flexibility, and the study of this flexibility may shed light on (presently unknown) physiological mechanisms as well as on correlated ecological constraints on bird migration. Article in Journal/Newspaper Calidris canutus Philomachus pugnax Pluvialis apricaria Red Knot Ruff University of Groningen research database
institution Open Polar
collection University of Groningen research database
op_collection_id ftunigroningenpu
language English
topic KNOTS CALIDRIS-CANUTUS
LONG-DISTANCE MIGRANT
BASAL METABOLIC-RATE
BAR-TAILED GODWITS
BODY-COMPOSITION
GARDEN WARBLER
SYLVIA BORIN
MASS
MUSCLE
BIRDS
spellingShingle KNOTS CALIDRIS-CANUTUS
LONG-DISTANCE MIGRANT
BASAL METABOLIC-RATE
BAR-TAILED GODWITS
BODY-COMPOSITION
GARDEN WARBLER
SYLVIA BORIN
MASS
MUSCLE
BIRDS
Piersma, T
Phenotypic flexibility during migration:optimization of organ size contingent on the risks and rewards of fueling and flight?
topic_facet KNOTS CALIDRIS-CANUTUS
LONG-DISTANCE MIGRANT
BASAL METABOLIC-RATE
BAR-TAILED GODWITS
BODY-COMPOSITION
GARDEN WARBLER
SYLVIA BORIN
MASS
MUSCLE
BIRDS
description Avian long-distance migration involves the storage and expenditure of very large fuel loads. Birds may double in weight before take-off on flights of many 1000 km, and they may lose half their body mass over the subsequent few days that such trips take. Recent studies indicate that in addition to the storage and depletion of fat, the muscles and belly organs also undergo considerable changes in size in the course of such migrations. Such intraindividual and repeatedly reversed changes in stores and organ sizes represent a class of phenotypic plasticity called 'phenotypic flexibility'. Using preliminary comparative data for different populations of Bar-tailed Godwits Limosa lapponica, and several other shorebird species adding variation to the migration strategies sampled (Golden Plover Pluvialis apricaria, Ruff Philomachus pugnax, Red Knot Calidris canutus and Bristle-thighed Curlew Numenius tahitiensis), the thesis is developed that the size of the organs carried during take-off represent evolutionary compromises between their functions during the storage, flight and post-arrival phases of migration. In all cases fat-free tissue along with fat is deposited during fuel storage, but the proportions vary a great deal between similarly sized species. Just before departure on long-distance flights, exercise organs (pectoral muscle and heart) tend to show hypertrophy and nutritional organs (stomach, intestine and liver) tend to show atrophy. Reductions in nutritional organs appear most pronounced in (sub-) species that are about to overfly barren oceans with few or no opportunities for emergency landings. Migrant birds seem to show a great deal of adaptive flexibility, and the study of this flexibility may shed light on (presently unknown) physiological mechanisms as well as on correlated ecological constraints on bird migration.
format Article in Journal/Newspaper
author Piersma, T
author_facet Piersma, T
author_sort Piersma, T
title Phenotypic flexibility during migration:optimization of organ size contingent on the risks and rewards of fueling and flight?
title_short Phenotypic flexibility during migration:optimization of organ size contingent on the risks and rewards of fueling and flight?
title_full Phenotypic flexibility during migration:optimization of organ size contingent on the risks and rewards of fueling and flight?
title_fullStr Phenotypic flexibility during migration:optimization of organ size contingent on the risks and rewards of fueling and flight?
title_full_unstemmed Phenotypic flexibility during migration:optimization of organ size contingent on the risks and rewards of fueling and flight?
title_sort phenotypic flexibility during migration:optimization of organ size contingent on the risks and rewards of fueling and flight?
publishDate 1998
url https://hdl.handle.net/11370/910b3b48-babf-45ec-aeaf-d62399e5662f
https://research.rug.nl/en/publications/910b3b48-babf-45ec-aeaf-d62399e5662f
https://pure.rug.nl/ws/files/6656673/1998JAvianBiolPiersma2.pdf
genre Calidris canutus
Philomachus pugnax
Pluvialis apricaria
Red Knot
Ruff
genre_facet Calidris canutus
Philomachus pugnax
Pluvialis apricaria
Red Knot
Ruff
op_source Piersma , T 1998 , ' Phenotypic flexibility during migration : optimization of organ size contingent on the risks and rewards of fueling and flight? ' , Journal of Avian Biology , vol. 29 , no. 4 , pp. 511-520 .
op_relation https://research.rug.nl/en/publications/910b3b48-babf-45ec-aeaf-d62399e5662f
op_rights info:eu-repo/semantics/openAccess
_version_ 1810437959159119872

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