Migratory herbivorous waterfowl track satellite-derived green wave index

Many migrating herbivores rely on plant biomass to fuel their life cycles and have adapted to following changes in plant quality through time. The green wave hypothesis predicts that herbivorous waterfowl will follow the wave of food availability and quality during their spring migration. However, t...

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Published in:PLoS ONE
Main Authors: Shariatinajafabadi, Mitra, Wang, Tiejun, Skidmore, A.K., Toxopeus, A.G., Kölzsch, Andrea, Nolet, Bart, Exo, K-M., Griffin, L.
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
international
Greenland
Svalbard
Online Access:https://pure.knaw.nl/portal/en/publications/2829f8df-8bc6-465f-9a53-0b501eae5c13
https://doi.org/10.1371/journal.pone.0108331
https://hdl.handle.net/20.500.11755/2829f8df-8bc6-465f-9a53-0b501eae5c13
https://pure.knaw.nl/ws/files/704618/5679_Shariatinajafabadi.pdf
id ftknawnlpublic:oai:pure.knaw.nl:publications/2829f8df-8bc6-465f-9a53-0b501eae5c13
record_format openpolar
spelling ftknawnlpublic:oai:pure.knaw.nl:publications/2829f8df-8bc6-465f-9a53-0b501eae5c13 2024-09-15T18:09:35+00:00 Migratory herbivorous waterfowl track satellite-derived green wave index Shariatinajafabadi, Mitra Wang, Tiejun Skidmore, A.K. Toxopeus, A.G. Kölzsch, Andrea Nolet, Bart Exo, K-M. Griffin, L. 2014 application/pdf https://pure.knaw.nl/portal/en/publications/2829f8df-8bc6-465f-9a53-0b501eae5c13 https://doi.org/10.1371/journal.pone.0108331 https://hdl.handle.net/20.500.11755/2829f8df-8bc6-465f-9a53-0b501eae5c13 https://pure.knaw.nl/ws/files/704618/5679_Shariatinajafabadi.pdf eng eng https://pure.knaw.nl/portal/en/publications/2829f8df-8bc6-465f-9a53-0b501eae5c13 info:eu-repo/semantics/openAccess Shariatinajafabadi , M , Wang , T , Skidmore , A K , Toxopeus , A G , Kölzsch , A , Nolet , B , Exo , K-M & Griffin , L 2014 , ' Migratory herbivorous waterfowl track satellite-derived green wave index ' , PLoS One , vol. 9 , no. 9 , e108331 . https://doi.org/10.1371/journal.pone.0108331 international article 2014 ftknawnlpublic https://doi.org/10.1371/journal.pone.010833120.500.11755/2829f8df-8bc6-465f-9a53-0b501eae5c13 2024-07-22T23:43:54Z Many migrating herbivores rely on plant biomass to fuel their life cycles and have adapted to following changes in plant quality through time. The green wave hypothesis predicts that herbivorous waterfowl will follow the wave of food availability and quality during their spring migration. However, testing this hypothesis is hampered by the large geographical range these birds cover. The satellite-derived normalized difference vegetation index (NDVI) time series is an ideal proxy indicator for the development of plant biomass and quality across a broad spatial area. A derived index, the green wave index (GWI), has been successfully used to link altitudinal and latitudinal migration of mammals to spatio-temporal variations in food quality and quantity. To date, this index has not been used to test the green wave hypothesis for individual avian herbivores. Here, we use the satellite-derived GWI to examine the green wave hypothesis with respect to GPS-tracked individual barnacle geese from three flyway populations (Russian n = 12, Svalbard n = 8, and Greenland n = 7). Data were collected over three years (2008–2010). Our results showed that the Russian and Svalbard barnacle geese followed the middle stage of the green wave (GWI 40–60%), while the Greenland geese followed an earlier stage (GWI 20–40%). Despite these differences among geese populations, the phase of vegetation greenness encountered by the GPS-tracked geese was close to the 50% GWI (i.e. the assumed date of peak nitrogen concentration), thereby implying that barnacle geese track high quality food during their spring migration. To our knowledge, this is the first time that the migration of individual avian herbivores has been successfully studied with respect to vegetation phenology using the satellite-derived GWI. Our results offer further support for the green wave hypothesis applying to long-distance migrants on a larger scale. Article in Journal/Newspaper Greenland Svalbard Royal Netherlands Academy of Arts and Sciences Research Portal (KNAW) PLoS ONE 9 9 e108331
institution Open Polar
collection Royal Netherlands Academy of Arts and Sciences Research Portal (KNAW)
op_collection_id ftknawnlpublic
language English
topic international
spellingShingle international
Shariatinajafabadi, Mitra
Wang, Tiejun
Skidmore, A.K.
Toxopeus, A.G.
Kölzsch, Andrea
Nolet, Bart
Exo, K-M.
Griffin, L.
Migratory herbivorous waterfowl track satellite-derived green wave index
topic_facet international
description Many migrating herbivores rely on plant biomass to fuel their life cycles and have adapted to following changes in plant quality through time. The green wave hypothesis predicts that herbivorous waterfowl will follow the wave of food availability and quality during their spring migration. However, testing this hypothesis is hampered by the large geographical range these birds cover. The satellite-derived normalized difference vegetation index (NDVI) time series is an ideal proxy indicator for the development of plant biomass and quality across a broad spatial area. A derived index, the green wave index (GWI), has been successfully used to link altitudinal and latitudinal migration of mammals to spatio-temporal variations in food quality and quantity. To date, this index has not been used to test the green wave hypothesis for individual avian herbivores. Here, we use the satellite-derived GWI to examine the green wave hypothesis with respect to GPS-tracked individual barnacle geese from three flyway populations (Russian n = 12, Svalbard n = 8, and Greenland n = 7). Data were collected over three years (2008–2010). Our results showed that the Russian and Svalbard barnacle geese followed the middle stage of the green wave (GWI 40–60%), while the Greenland geese followed an earlier stage (GWI 20–40%). Despite these differences among geese populations, the phase of vegetation greenness encountered by the GPS-tracked geese was close to the 50% GWI (i.e. the assumed date of peak nitrogen concentration), thereby implying that barnacle geese track high quality food during their spring migration. To our knowledge, this is the first time that the migration of individual avian herbivores has been successfully studied with respect to vegetation phenology using the satellite-derived GWI. Our results offer further support for the green wave hypothesis applying to long-distance migrants on a larger scale.
format Article in Journal/Newspaper
author Shariatinajafabadi, Mitra
Wang, Tiejun
Skidmore, A.K.
Toxopeus, A.G.
Kölzsch, Andrea
Nolet, Bart
Exo, K-M.
Griffin, L.
author_facet Shariatinajafabadi, Mitra
Wang, Tiejun
Skidmore, A.K.
Toxopeus, A.G.
Kölzsch, Andrea
Nolet, Bart
Exo, K-M.
Griffin, L.
author_sort Shariatinajafabadi, Mitra
title Migratory herbivorous waterfowl track satellite-derived green wave index
title_short Migratory herbivorous waterfowl track satellite-derived green wave index
title_full Migratory herbivorous waterfowl track satellite-derived green wave index
title_fullStr Migratory herbivorous waterfowl track satellite-derived green wave index
title_full_unstemmed Migratory herbivorous waterfowl track satellite-derived green wave index
title_sort migratory herbivorous waterfowl track satellite-derived green wave index
publishDate 2014
url https://pure.knaw.nl/portal/en/publications/2829f8df-8bc6-465f-9a53-0b501eae5c13
https://doi.org/10.1371/journal.pone.0108331
https://hdl.handle.net/20.500.11755/2829f8df-8bc6-465f-9a53-0b501eae5c13
https://pure.knaw.nl/ws/files/704618/5679_Shariatinajafabadi.pdf
genre Greenland
Svalbard
genre_facet Greenland
Svalbard
op_source Shariatinajafabadi , M , Wang , T , Skidmore , A K , Toxopeus , A G , Kölzsch , A , Nolet , B , Exo , K-M & Griffin , L 2014 , ' Migratory herbivorous waterfowl track satellite-derived green wave index ' , PLoS One , vol. 9 , no. 9 , e108331 . https://doi.org/10.1371/journal.pone.0108331
op_relation https://pure.knaw.nl/portal/en/publications/2829f8df-8bc6-465f-9a53-0b501eae5c13
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1371/journal.pone.010833120.500.11755/2829f8df-8bc6-465f-9a53-0b501eae5c13
container_title PLoS ONE
container_volume 9
container_issue 9
container_start_page e108331
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