Using by‐catch data from wildlife surveys to quantify climatic parameters and timing of phenology for plants and animals using camera traps

Tim R. Hofmeester; Sherry Young; Sonya Juthberg; Navinder J. Singh; Fredrik Widemo; Henrik Andrén; John D. C. Linnell; Joris P. G. M. Cromsigt; Marcus Rowcliffe; Doreen Boyd

doi:10.1002/rse2.136

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References (54)

Tavis Forrester, T. O'Brien, E. Fegraus, P. Jansen, Jonathan Palmer, R. Kays, J. Ahumada, Beth Stern, W. McShea (2016)
An Open Standard for Camera Trap Data
Biodiversity Data Journal
(2016)
RStudio: integrated development for R
O. Sonnentag, K. Hufkens, Cory Teshera-Sterne, A. Young, M. Friedl, B. Braswell, T. Milliman, J. O'keefe, A. Richardson (2012)
Digital repeat photography for phenological research in forest ecosystems
Agricultural and Forest Meteorology, 152
A. Zeileis, Christian Kleiber, W. Krämer, K. Hornik (2003)
Testing and dating of structural changes in practice
Comput. Stat. Data Anal., 44
T. Root, Jeff Price, K. Hall, S. Schneider, C. Rosenzweig, J. Pounds (2003)
Fingerprints of global warming on wild animals and plants
Nature, 421
J. Linnell, R. Andersen (1998)
Timing and synchrony of birth in a hider species, the roe deer Capreolus capreolus
Journal of Zoology, 244
A. Richardson, K. Hufkens, T. Milliman, D. Aubrecht, Min Chen, J. Gray, M. Johnston, T. Keenan, S. Klosterman, M. Kosmala, E. Melaas, M. Friedl, S. Frolking (2018)
Tracking vegetation phenology across diverse North American biomes using PhenoCam imagery
Scientific Data, 5
P. Meek, G. Ballard, A. Claridge, A. Claridge, R. Kays, R. Kays, K. Moseby, T. O'Brien, A. O'connell, J. Sanderson, D. Swann, M. Tobler, S. Townsend (2014)
Recommended guiding principles for reporting on camera trapping research
Biodiversity and Conservation, 23
A. Burton, E. Neilson, Darío Moreira, A. Ladle, Robin Steenweg, J. Fisher, E. Bayne, S. Boutin (2015)
REVIEW: Wildlife camera trapping: a review and recommendations for linking surveys to ecological processes
Journal of Applied Ecology, 52
E. Denny, K. Gerst, A. Miller‐Rushing, G. Tierney, T. Crimmins, C. Enquist, Patrick Guertin, A. Rosemartin, M. Schwartz, K. Thomas, J. Weltzin (2014)
Standardized phenology monitoring methods to track plant and animal activity for science and resource management applications
International Journal of Biometeorology, 58
K. Burnham, David Anderson (2004)
Multimodel Inference
Sociological Methods & Research, 33
E. Post, N. Stenseth (1999)
CLIMATIC VARIABILITY, PLANT PHENOLOGY, AND NORTHERN UNGULATES
Ecology, 80
Robin Steenweg, M. Hebblewhite, R. Kays, J. Ahumada, J. Fisher, Cole Burton, Cole Burton, S. Townsend, C. Carbone, J. Rowcliffe, J. Whittington, J. Brodie, J. Royle, T. Switalski, A. Clevenger, N. Heim, L. Rich (2017)
Scaling-up camera traps: monitoring the planet's biodiversity with networks of remote sensors
Frontiers in Ecology and the Environment, 15
Y. Espmark, R. Langvatn (1985)
Development and Habituation of Cardiac and Behavioral Responses in Young Red Deer Calves (Cervus elaphus) Exposed to Alarm Stimuli
Journal of Mammalogy, 66
L. Mills, L. Mills, Eugenia Bragina, Alexander Kumar, Alexander Kumar, Marqueta Zimova, Marqueta Zimova, Diana Lafferty, Diana Lafferty, Jennifer Feltner, Jennifer Feltner, Brandon Davis, Brandon Davis, Klaus Hackländer, Klaus Hackländer, P. Alves, P. Alves, J. Good, J. Melo‐Ferreira, A. Dietz, A. Abramov, N. Lopatina, K. Fay (2018)
Winter color polymorphisms identify global hot spots for evolutionary rescue from climate change
Science, 359
J. Bubnicki, M. Churski, D. Kuijper (2016)
trapper: an open source web‐based application to manage camera trapping projects
Methods in Ecology and Evolution, 7
O. Hjeljord, Nils Hovik, Helge Pedersen (1990)
Choice of feeding sites by moose during summer, the influence of forest structure and plant phenology
Ecography, 13
Per Capita, E. Dawson, Myfan Jordan (1995)
About the authors
Machine Vision and Applications, 1
Anja Struyf, M. Hubert, P. Rousseeuw (1997)
Clustering in an object-oriented environment
, 1
Timothy Brown, K. Hultine, H. Steltzer, E. Denny, Michael Denslow, Joel Granados, S. Henderson, D. Moore, S. Nagai, M. SanClements, A. Sánchez-Azofeifa, O. Sonnentag, D. Tazik, A. Richardson (2016)
Using phenocams to monitor our changing Earth: toward a global phenocam network
Frontiers in Ecology and the Environment, 14
S. Hoem, C. Melis, J. Linnell, R. Andersen (2007)
Fighting behaviour in territorial male roe deer Capreolus capreolus: the effects of antler size and residence
European Journal of Wildlife Research, 53
A. Zeileis, F. Leisch, K. Hornik, Christian Kleiber (2002)
Strucchange: An R package for testing for structural change in linear regression models
Journal of Statistical Software, 7
M. Visser, C. Both (2005)
Shifts in phenology due to global climate change: the need for a yardstick
Proceedings of the Royal Society B: Biological Sciences, 272
R. Bowyer, V. Ballenberghe, J. Kie, J. Maier (1999)
Birth-Site Selection by Alaskan Moose: Maternal Strategies for Coping with a Risky Environment
Journal of Mammalogy, 80
T. Hofmeester, J. Rowcliffe, P. Jansen (2017)
A simple method for estimating the effective detection distance of camera traps
Remote Sensing in Ecology and Conservation, 3
Alexej Sirén, M. Somos-Valenzuela, C. Callahan, Jillian Kilborn, Timothy Duclos, Cassie Tragert, T. Morelli (2018)
Looking beyond wildlife: using remote cameras to evaluate accuracy of gridded snow data
Remote Sensing in Ecology and Conservation, 4
(2014)
From birth to independence : birth , growth , neonatal mortality , hiding behaviour and dispersal . Pp . 257 – 284 in
F. Badeck, A. Bondeau, Kristin Böttcher, D. Doktor, W. Lucht, J. Schaber, S. Sitch (2004)
Responses of spring phenology to climate change
New Phytologist, 162
(1998)
Mating system , mating tactics and the function of male territoriality in roe deer . Pp . 221 – 256 in
E. Post, C. Pedersen, C. Wilmers, M. Forchhammer (2008)
Warming, plant phenology and the spatial dimension of trophic mismatch for large herbivores
Proceedings of the Royal Society B: Biological Sciences, 275
L. Mills, M. Zimova, Jared Oyler, Steven Running, J. Abatzoglou, Paul Lukacs (2013)
Camouflage mismatch in seasonal coat color due to decreased snow duration
Proceedings of the National Academy of Sciences, 110
A. Hertel, S. Steyaert, A. Zedrosser, A. Mysterud, H. Lodberg-Holm, Henriette Gelink, J. Kindberg, J. Swenson (2016)
Bears and berries: species-specific selective foraging on a patchily distributed food resource in a human-altered landscape
Behavioral Ecology and Sociobiology, 70
S. Pedersen, M. Odden, H. Pedersen (2017)
Climate change induced molting mismatch? Mountain hare abundance reduced by duration of snow cover and predator abundance
Ecosphere, 8
Additional supporting information
J. Milner, C. Bonenfant, A. Mysterud, J. Gaillard, S. Csányi, N. Stenseth (2006)
Temporal and spatial development of red deer harvesting in Europe: biological and cultural factors
Journal of Applied Ecology, 43
S. Hamel, S. Killengreen, J. Henden, N. Eide, Lars Roed‐Eriksen, R. Ims, N. Yoccoz (2013)
Towards good practice guidance in using camera‐traps in ecology: influence of sampling design on validity of ecological inferences
Methods in Ecology and Evolution, 4
J. Morisette, A. Richardson, A. Knapp, J. Fisher, E. Graham, J. Abatzoglou, B. Wilson, D. Breshears, G. Henebry, J. Hanes, L. Liang (2009)
Tracking the rhythm of the seasons in the face of global change: phenological research in the 21st century.
Frontiers in Ecology and the Environment, 7
W. Nijland, N. Coops, Sean Coogan, C. Bater, M. Wulder, S. Nielsen, G. McDermid, G. Stenhouse (2013)
Vegetation phenology can be captured with digital repeat photography and linked to variability of root nutrition in Hedysarum alpinum
Applied Vegetation Science, 16
A. Buse, S. Dury, R. Woodburn, C. Perrins, J. Good (1999)
Effects of elevated temperature on multi‐species interactions: the case of Pedunculate Oak, Winter Moth and Tits
Functional Ecology, 13
D. Jachowski, T. Katzner, Jane Rodrigue, W. Ford (2015)
Monitoring landscape‐level distribution and migration Phenology of Raptors using a volunteer camera‐trap network
Wildlife Society Bulletin, 39
T. Hofmeester, J. Cromsigt, J. Odden, Henrik Andrén, J. Kindberg, J. Linnell (2019)
Framing pictures: A conceptual framework to identify and correct for biases in detection probability of camera traps enabling multi‐species comparison
Ecology and Evolution, 9
J. Price, S. Allen, C. Faucheux, T. Althnaian, J. Mount (2005)
Deer antlers: a zoological curiosity or the key to understanding organ regeneration in mammals?
Journal of Anatomy, 207
C. Melis, S. Hoem, J. Linnell, R. Andersen (2005)
Age-specific reproductive behaviours in male roe deerCapreolus capreolus
Acta Theriologica, 50
F. Plard, J. Gaillard, T. Coulson, A. Hewison, D. Delorme, C. Warnant, C. Bonenfant, Georgina Mace (2014)
Mismatch Between Birth Date and Vegetation Phenology Slows the Demography of Roe Deer
PLoS Biology, 12
A. Richardson, B. Braswell, D. Hollinger, J. Jenkins, S. Ollinger (2009)
Near-surface remote sensing of spatial and temporal variation in canopy phenology.
Ecological applications : a publication of the Ecological Society of America, 19 6
(2019)
R Core Team
Sabine Pfeffer, R. Spitzer, Andrew Allen, T. Hofmeester, G. Ericsson, F. Widemo, Navinder Singh, J. Cromsigt (2018)
Pictures or pellets? Comparing camera trapping and dung counts as methods for estimating population densities of ungulates
Remote Sensing in Ecology and Conservation, 4
K. P. Burnham, D. R. Anderson (2004)
Multimodel inference: understanding AIC and BIC in model selection
, 33
F. Rovero, F. Zimmermann, D. Berzi, P. Meek (2013)
"Which camera trap type and how many do I need?" A review of camera features and study designs for a range of wildlife research applications
Hystrix-italian Journal of Mammalogy, 24
R. Team (2014)
R: A language and environment for statistical computing.
MSOR connections, 1
J. D. C. Linnell, L. K. Wahlström, J. M. Gaillard (1998)
The European roe deer: the biology of success
D. Welbourne, A. Claridge, D. Paull, A. Lambert (2016)
How do passive infrared triggered camera traps operate and why does it matter? Breaking down common misconceptions
Remote Sensing in Ecology and Conservation, 2
H. Wam, A. Felton, C. Stolter, L. Nybakken, O. Hjeljord (2017)
Moose selecting for specific nutritional composition of birch places limits on food acceptability
Ecology and Evolution, 8
Bruna Alberton, R. Torres, L. Cancian, Bruno Borges, J. Almeida, G. Mariano, J. Santos, L. Morellato (2017)
Introducing digital cameras to monitor plant phenology in the tropics: applications for conservation
Perspectives in Ecology and Conservation, 15

Publisher: Wiley
eISSN: 2056-3485
DOI: 10.1002/rse2.136
Publisher site: See Article on Publisher Site

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Using by‐catch data from wildlife surveys to quantify climatic parameters and timing of phenology for plants and animals using camera traps

Using by‐catch data from wildlife surveys to quantify climatic parameters and timing of phenology for plants and animals using camera traps

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Using by‐catch data from wildlife surveys to quantify climatic parameters and timing of phenology for plants and animals using camera traps

Using by‐catch data from wildlife surveys to quantify climatic parameters and timing of phenology for plants and animals using camera traps

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