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Ecological insights from three decades of animal movement tracking across a changing Arctic.
Science. 2020 11 06; 370(6517):712-715
Publication Type
Journal Article
Research Support, U.S. Gov't, Non-P.H.S.
Sarah C Davidson
Gil Bohrer
Eliezer Gurarie
Scott LaPoint
Peter J Mahoney
Natalie T Boelman
Jan U H Eitel
Laura R Prugh
Lee A Vierling
Jyoti Jennewein
Emma Grier
Ophélie Couriot
Allicia P Kelly
Arjan J H Meddens
Ruth Y Oliver
Roland Kays
Martin Wikelski
Tomas Aarvak
Joshua T Ackerman
José A Alves
Erin Bayne
Bryan Bedrosian
Jerrold L Belant
Andrew M Berdahl
Alicia M Berlin
Dominique Berteaux
Joël Bêty
Dmitrijs Boiko
Travis L Booms
Bridget L Borg
Stan Boutin
W Sean Boyd
Kane Brides
Stephen Brown
Victor N Bulyuk
Kurt K Burnham
David Cabot
Michael Casazza
Katherine Christie
Erica H Craig
Shanti E Davis
Tracy Davison
Dominic Demma
Christopher R DeSorbo
Andrew Dixon
Robert Domenech
Götz Eichhorn
Kyle Elliott
Joseph R Evenson
Klaus-Michael Exo
Steven H Ferguson
Wolfgang Fiedler
Aaron Fisk
Jérôme Fort
Alastair Franke
Mark R Fuller
Stefan Garthe
Gilles Gauthier
Grant Gilchrist
Petr Glazov
Carrie E Gray
David Grémillet
Larry Griffin
Michael T Hallworth
Autumn-Lynn Harrison
Holly L Hennin
J Mark Hipfner
James Hodson
James A Johnson
Kyle Joly
Kimberly Jones
Todd E Katzner
Jeff W Kidd
Elly C Knight
Michael N Kochert
Andrea Kölzsch
Helmut Kruckenberg
Benjamin J Lagassé
Sandra Lai
Jean-François Lamarre
Richard B Lanctot
Nicholas C Larter
A David M Latham
Christopher J Latty
James P Lawler
Don-Jean Léandri-Breton
Hansoo Lee
Stephen B Lewis
Oliver P Love
Jesper Madsen
Mark Maftei
Mark L Mallory
Buck Mangipane
Mikhail Y Markovets
Peter P Marra
Rebecca McGuire
Carol L McIntyre
Emily A McKinnon
Tricia A Miller
Sander Moonen
Tong Mu
Gerhard J D M Müskens
Janet Ng
Kerry L Nicholson
Ingar Jostein Øien
Cory Overton
Patricia A Owen
Allison Patterson
Aevar Petersen
Ivan Pokrovsky
Luke L Powell
Rui Prieto
Petra Quillfeldt
Jennie Rausch
Kelsey Russell
Sarah T Saalfeld
Hans Schekkerman
Joel A Schmutz
Philipp Schwemmer
Dale R Seip
Adam Shreading
Mónica A Silva
Brian W Smith
Fletcher Smith
Jeff P Smith
Katherine R S Snell
Aleksandr Sokolov
Vasiliy Sokolov
Diana V Solovyeva
Mathew S Sorum
Grigori Tertitski
J F Therrien
Kasper Thorup
T Lee Tibbitts
Ingrid Tulp
Brian D Uher-Koch
Rob S A van Bemmelen
Steven Van Wilgenburg
Andrew L Von Duyke
Jesse L Watson
Bryan D Watts
Judy A Williams
Matthew T Wilson
James R Wright
Michael A Yates
David J Yurkowski
Ramunas Žydelis
Mark Hebblewhite
Author Affiliation
Department of Civil, Environmental and Geodetic Engineering, The Ohio State University, Columbus, OH, USA.
Science. 2020 11 06; 370(6517):712-715
Publication Type
Journal Article
Research Support, U.S. Gov't, Non-P.H.S.
Animal Migration
Arctic Regions
Ecological Parameter Monitoring
The Arctic is entering a new ecological state, with alarming consequences for humanity. Animal-borne sensors offer a window into these changes. Although substantial animal tracking data from the Arctic and subarctic exist, most are difficult to discover and access. Here, we present the new Arctic Animal Movement Archive (AAMA), a growing collection of more than 200 standardized terrestrial and marine animal tracking studies from 1991 to the present. The AAMA supports public data discovery, preserves fundamental baseline data for the future, and facilitates efficient, collaborative data analysis. With AAMA-based case studies, we document climatic influences on the migration phenology of eagles, geographic differences in the adaptive response of caribou reproductive phenology to climate change, and species-specific changes in terrestrial mammal movement rates in response to increasing temperature.
PubMed ID
33154141 View in PubMed
Less detail

Patterns of migrating soaring migrants indicate attraction to marine wind farms.
Biol Lett. 2016 Dec;12(12)
Publication Type
Henrik Skov
Mark Desholm
Stefan Heinänen
Johnny A Kahlert
Bjarke Laubek
Niels Einar Jensen
Ramunas Žydelis
Bo Præstegaard Jensen
Biol Lett. 2016 Dec;12(12)
Publication Type
Animal Migration
Flight, Animal
Oceans and Seas
Power Plants
Raptors - physiology
Remote Sensing Technology
Monitoring of bird migration at marine wind farms has a short history, and unsurprisingly most studies have focused on the potential for collisions. Risk for population impacts may exist to soaring migrants such as raptors with K-strategic life-history characteristics. Soaring migrants display strong dependence on thermals and updrafts and an affinity to land areas and islands during their migration, a behaviour that creates corridors where raptors move across narrow straits and sounds and are attracted to islands. Several migration corridors for soaring birds overlap with the development regions for marine wind farms in NW Europe. However, no empirical data have yet been available on avoidance or attraction rates and behavioural reactions of soaring migrants to marine wind farms. Based on a post-construction monitoring study, we show that all raptor species displayed a significant attraction behaviour towards a wind farm. The modified migratory behaviour was also significantly different from the behaviour at nearby reference sites. The attraction was inversely related to distance to the wind farm and was primarily recorded during periods of adverse wind conditions. The attraction behaviour suggests that migrating raptor species are far more at risk of colliding with wind turbines at sea than hitherto assessed.
Cites: J Environ Manage. 2015 Jan 1;147:34-4525261750
PubMed ID
28003522 View in PubMed
Less detail