Memory and resource tracking drive blue whale migrations.

In terrestrial systems, the green wave hypothesis posits that migrating animals can enhance foraging opportunities by tracking phenological variation in high-quality forage across space (i.e., resource waves). To track resource waves, animals may rely on proximate cues and/or memory of long-term ave...

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Main Authors: Abrahms, Briana, Hazen, Elliott, Aikens, Ellen, Savoca, Matthew, Goldbogen, Jeremy, Bograd, Steven, Jacox, Michael, Irvine, Ladd, Palacios, Daniel, Mate, Bruce
Format: Article in Journal/Newspaper
Language:unknown
Published: eScholarship, University of California 2019
Subjects:
marine megafauna
migration
movement ecology
resource wave
spatial memory
Animal Migration
Animals
Balaenoptera
California
Ecosystem
Memory
Movement
Blue whale
Online Access:https://escholarship.org/uc/item/4cx8f8dq
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spelling ftcdlib:oai:escholarship.org:ark:/13030/qt4cx8f8dq 2024-02-11T10:02:35+01:00 Memory and resource tracking drive blue whale migrations. Abrahms, Briana Hazen, Elliott Aikens, Ellen Savoca, Matthew Goldbogen, Jeremy Bograd, Steven Jacox, Michael Irvine, Ladd Palacios, Daniel Mate, Bruce 2019-03-19 application/pdf https://escholarship.org/uc/item/4cx8f8dq unknown eScholarship, University of California qt4cx8f8dq https://escholarship.org/uc/item/4cx8f8dq public Proceedings of the National Academy of Sciences of USA, vol 116, iss 12 marine megafauna migration movement ecology resource wave spatial memory Animal Migration Animals Balaenoptera California Ecosystem Memory Movement article 2019 ftcdlib 2024-01-22T19:06:12Z In terrestrial systems, the green wave hypothesis posits that migrating animals can enhance foraging opportunities by tracking phenological variation in high-quality forage across space (i.e., resource waves). To track resource waves, animals may rely on proximate cues and/or memory of long-term average phenologies. Although there is growing evidence of resource tracking in terrestrial migrants, such drivers remain unevaluated in migratory marine megafauna. Here we present a test of the green wave hypothesis in a marine system. We compare 10 years of blue whale movement data with the timing of the spring phytoplankton bloom resulting in increased prey availability in the California Current Ecosystem, allowing us to investigate resource tracking both contemporaneously (response to proximate cues) and based on climatological conditions (memory) during migrations. Blue whales closely tracked the long-term average phenology of the spring bloom, but did not track contemporaneous green-up. In addition, blue whale foraging locations were characterized by low long-term habitat variability and high long-term productivity compared with contemporaneous measurements. Results indicate that memory of long-term average conditions may have a previously underappreciated role in driving migratory movements of long-lived species in marine systems, and suggest that these animals may struggle to respond to rapid deviations from historical mean environmental conditions. Results further highlight that an ecological theory of migration is conserved across marine and terrestrial systems. Understanding the drivers of animal migration is critical for assessing how environmental changes will affect highly mobile fauna at a global scale. Article in Journal/Newspaper Blue whale University of California: eScholarship
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language unknown
topic marine megafauna
migration
movement ecology
resource wave
spatial memory
Animal Migration
Animals
Balaenoptera
California
Ecosystem
Memory
Movement
spellingShingle marine megafauna
migration
movement ecology
resource wave
spatial memory
Animal Migration
Animals
Balaenoptera
California
Ecosystem
Memory
Movement
Abrahms, Briana
Hazen, Elliott
Aikens, Ellen
Savoca, Matthew
Goldbogen, Jeremy
Bograd, Steven
Jacox, Michael
Irvine, Ladd
Palacios, Daniel
Mate, Bruce
Memory and resource tracking drive blue whale migrations.
topic_facet marine megafauna
migration
movement ecology
resource wave
spatial memory
Animal Migration
Animals
Balaenoptera
California
Ecosystem
Memory
Movement
description In terrestrial systems, the green wave hypothesis posits that migrating animals can enhance foraging opportunities by tracking phenological variation in high-quality forage across space (i.e., resource waves). To track resource waves, animals may rely on proximate cues and/or memory of long-term average phenologies. Although there is growing evidence of resource tracking in terrestrial migrants, such drivers remain unevaluated in migratory marine megafauna. Here we present a test of the green wave hypothesis in a marine system. We compare 10 years of blue whale movement data with the timing of the spring phytoplankton bloom resulting in increased prey availability in the California Current Ecosystem, allowing us to investigate resource tracking both contemporaneously (response to proximate cues) and based on climatological conditions (memory) during migrations. Blue whales closely tracked the long-term average phenology of the spring bloom, but did not track contemporaneous green-up. In addition, blue whale foraging locations were characterized by low long-term habitat variability and high long-term productivity compared with contemporaneous measurements. Results indicate that memory of long-term average conditions may have a previously underappreciated role in driving migratory movements of long-lived species in marine systems, and suggest that these animals may struggle to respond to rapid deviations from historical mean environmental conditions. Results further highlight that an ecological theory of migration is conserved across marine and terrestrial systems. Understanding the drivers of animal migration is critical for assessing how environmental changes will affect highly mobile fauna at a global scale.
format Article in Journal/Newspaper
author Abrahms, Briana
Hazen, Elliott
Aikens, Ellen
Savoca, Matthew
Goldbogen, Jeremy
Bograd, Steven
Jacox, Michael
Irvine, Ladd
Palacios, Daniel
Mate, Bruce
author_facet Abrahms, Briana
Hazen, Elliott
Aikens, Ellen
Savoca, Matthew
Goldbogen, Jeremy
Bograd, Steven
Jacox, Michael
Irvine, Ladd
Palacios, Daniel
Mate, Bruce
author_sort Abrahms, Briana
title Memory and resource tracking drive blue whale migrations.
title_short Memory and resource tracking drive blue whale migrations.
title_full Memory and resource tracking drive blue whale migrations.
title_fullStr Memory and resource tracking drive blue whale migrations.
title_full_unstemmed Memory and resource tracking drive blue whale migrations.
title_sort memory and resource tracking drive blue whale migrations.
publisher eScholarship, University of California
publishDate 2019
url https://escholarship.org/uc/item/4cx8f8dq
genre Blue whale
genre_facet Blue whale
op_source Proceedings of the National Academy of Sciences of USA, vol 116, iss 12
op_relation qt4cx8f8dq
https://escholarship.org/uc/item/4cx8f8dq
op_rights public
_version_ 1790598608867819520

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