Access the full text.
Sign up today, get DeepDyve free for 14 days.
R. Carroll, Craig Davis, S. Fuhlendorf, R. Elmore, Sarah DuRant, J. Carroll (2018)
Avian parental behavior and nest success influenced by temperature fluctuations.Journal of thermal biology, 74
(2002)
Nest microclimate during incubation
C. Olson, C. Vleck, D. Adams (2008)
Decoupling morphological development from growth in periodically cooled zebra finch embryosJournal of Morphology, 269
V. Cahalane, R. Allen (1953)
The Whooping CraneJournal of Wildlife Management, 17
S. Hope, R. Kennamer, Schuyler Montfrans, W. Hopkins (2019)
Incubation temperature and social context affect the nest exodus of precocial ducklingsBehavioral Ecology
Des Smith, S. Converse, K. Gibson, A. Moehrenschlager, W. Link, G. Olsen, K. Maguire (2011)
Decision Analysis for Conservation Breeding: Maximizing Production for Reintroduction of Whooping Cranes, 75
(2020)
Introduction to multi-criteria decision
P. Monaghan, R. Nager (1997)
Why don't birds lay more eggs?Trends in ecology & evolution, 12 7
G.F. Gabel, T.A. Mahan (1996)
Cranes: their biology, husbandry and conservation
(2016)
Prenatal acoustic
(2003)
JAGS. A program for analysis
J.B. French, S.J. Converse, J.E. Austin (2019)
Whooping cranes: biology and conservation. Biodiversity of the world: conservation from genes to landscapes
D.H. Erickson, S. Derrickson (1981)
Crane Research around the World
(2020)
loo: Efficient leave-oneout cross-validation and WAIC for Bayesian models
(2013)
A hierarchical nest survival model
Henrik Berntsen, C. Bech (2016)
Incubation temperature influences survival in a small passerine birdJournal of Avian Biology, 47
J. Weston (1983)
Embryonic development.Science, 220 4604
(2018)
Avian parental
Y. Heezik, Peter Lei, R. Maloney, E. Sancha (2005)
Captive breeding for reintroduction: influence of management practices and biological factors on survival of captive kaki (black stilt)Zoo Biology, 24
H. Araki, Becky Cooper, M. Blouin (2007)
Genetic Effects of Captive Breeding Cause a Rapid, Cumulative Fitness Decline in the WildScience, 318
Importance of evolution and incubation in avian reproduction
T. Brichieri-Colombi, N. Lloyd, J. McPherson, A. Moehrenschlager (2018)
Limited contributions of released animals from zoos to North American conservation translocationsConservation Biology, 33
(1972)
Pathogenesis of the avian embryo
(2002)
incubation: behaviour, environment and evolution
D.C. Deeming (2002c)
Avian incubation: behaviour, environment and evolution
Andrew Katsis, Mzuri Davies, K. Buchanan, S. Kleindorfer, M. Hauber, Mylene Mariette (2018)
Prenatal exposure to incubation calls affects song learning in the zebra finchScientific Reports, 8
(2007)
PRENATAL EXPOSURE TO
(2019)
Advances in conservation
(2013)
Guidelines for Reintroductions and Other Conservation Translocations. Version 1.0
S. DuRant, William Hopkins, G. Hepp (2011)
Embryonic Developmental Patterns and Energy Expenditure Are Affected by Incubation Temperature in Wood Ducks (Aix sponsa)Physiological and Biochemical Zoology, 84
K. Ralls, J. Ballou, A. Templeton (1988)
Estimates of Lethal Equivalents and the Cost of Inbreeding in MammalsConservation Biology, 2
Patterns and signi fi cance of egg turning
S. Iacus, Davide Torre (2003)
Fractals and Statistics: An R Package Called Ifs
(2002)
Importance of evolution
(2016)
Female gonadal
A. Nord, Jan‐Åke Nilsson (2011)
Incubation Temperature Affects Growth and Energy Metabolism in Blue Tit NestlingsThe American Naturalist, 178
(1983)
Artificial incubation of falcon eggs. J
H. Robertson, R. Colbourne, A. Nelson, A. Zo'o, G. Lynn, I. Westbrooke (2006)
At what age should brown kiwi (Apteryx mantelli) eggs be collected for artificial incubation
(2002)
Nest microclimate during
Gretchen Jehle, A. Adams, J. Savidge, S. Skagen (2004)
NEST SURVIVAL ESTIMATION: A REVIEW OF ALTERNATIVES TO THE MAYFIELD ESTIMATOR, 106
S. DuRant, W. Hopkins, Amanda Wilson, G. Hepp (2012)
Incubation temperature affects the metabolic cost of thermoregulation in a young precocial birdFunctional Ecology, 26
N. French, P. Hocking (2009)
Incubation and hatching.
(2020)
loo: Efficient leave-one
Diane Colombelli‐Négrel, M. Hauber, J. Robertson, F. Sulloway, H. Hoi, M. Griggio, S. Kleindorfer (2012)
Embryonic Learning of Vocal Passwords in Superb Fairy-Wrens Reveals Intruder Cuckoo NestlingsCurrent Biology, 22
A. Ar, H. Rahn (1980)
Water in the Avian Egg Overall Budget of IncubationIntegrative and Comparative Biology, 20
(2011)
Incubation temperature
Diane Colombelli‐Négrel, S. Kleindorfer (2017)
Prenatal environment affects embryonic response to songBiology Letters, 13
H. Quastler (1964)
GENETIC EFFECTS.New York state journal of medicine, 64
Megan Brown, S. Converse, Jane Chandler, Charles Shafer, Janine Brown, C. Keefer, N. Songsasen (2016)
Female gonadal hormones and reproductive behaviors as key determinants of successful reproductive output of breeding whooping cranes (Grus americana).General and comparative endocrinology, 230-231
G. Hepp, R. Kennamer (2012)
Warm Is Better: Incubation Temperature Influences Apparent Survival and Recruitment of Wood Ducks (Aix sponsa)PLoS ONE, 7
(2018)
rjags: Bayesian Graphical Models using MCMC
Mylene Mariette, K. Buchanan (2016)
Prenatal acoustic communication programs offspring for high posthatching temperatures in a songbirdScience, 353
P. Hoeck, M. Wolak, Richard Switzer, C. Kuehler, A. Lieberman (2015)
Effects of inbreeding and parental incubation on captive breeding success in Hawaiian crowsBiological Conservation, 184
S. DuRant, W. Hopkins, Dana Hawley, G. Hepp (2012)
Incubation temperature affects multiple measures of immunocompetence in young wood ducks (Aix Sponsa)Biology Letters, 8
S. Black, Kelly Swan (2019)
Advances in Conservation Breeding and Management of Whooping Cranes (Grus americana)Whooping Cranes: Biology and Conservation
Megan Brown, C. Keefer, N. Songsasen (2019)
Factors affecting captive whooping crane egg fertility: A retrospective analysisThe Journal of Wildlife Management
(2002)
Patterns and significance of egg
Embryonic development and utilisation of egg components
(2010)
Slight differences in incubation
S. Converse, Jane Chandler, G. Olsen, Charles Shafer (2010)
EVALUATING PROPAGATION METHOD PERFORMANCE OVER TIME WITH BAYESIANUPDATING: AN APPLICATION TO INCUBATOR TESTING
W. Burnham (1983)
Artificial Incubation of Falcon EggsJournal of Wildlife Management, 47
S. DuRant, S. DuRant, William Hopkins, G. Hepp, Jeffrey Walters (2013)
Ecological, evolutionary, and conservation implications of incubation temperature‐dependent phenotypes in birdsBiological Reviews, 88
Des Smith, A. Moehrenschlager, Nancy Christensen, Dwight Knapik, K. Gibson, S. Converse (2012)
Archive eggs: a research and management tool for avian conservation breedingWildlife Society Bulletin, 36
M. Runge, S. Converse, J. Lyons, David Smith (2020)
Structured Decision Making: Case Studies in Natural Resource Management
R. Team (2014)
R: A language and environment for statistical computing.MSOR connections, 1
C. Mirande, G. Gee, A. Burke, P. Whitlock (1996)
Egg and semen production
(2019)
Factors affecting Whooping Crane egg fertility : a retrospective analysis
B. Hopkins, S. DuRant, G. Hepp, W. Hopkins (2011)
Incubation temperature influences locomotor performance in young wood ducks (Aix sponsa).Journal of experimental zoology. Part A, Ecological genetics and physiology, 315 5
A. Nord, Jan‐Åke Nilsson (2016)
Long-term consequences of high incubation temperature in a wild bird populationBiology Letters, 12
A. Gelman, Yu-Sung Su (2006)
Data Analysis Using Regression and Multilevel/Hierarchical Models
G. Hepp, R. Kennamer, Maribeth Johnson (2006)
Maternal effects in Wood Ducks: incubation temperature influences incubation period and neonate phenotypeFunctional Ecology, 20
S. Converse, J. Royle, P. Adler, R. Urbanek, J. Barzen (2013)
A hierarchical nest survival model integrating incomplete temporally varying covariatesEcology and Evolution, 3
(2018)
rjags: Bayesian Graphical Models using MCMC. R package version 4–8
Peter McDougall, Denis Réale, Daniel Sol, S. Reader (2006)
Wildlife conservation and animal temperament: causes and consequences of evolutionary change for captive, reintroduced, and wild populationsAnimal Conservation, 9
K. Hill (2004)
LONG-TERM CONSEQUENCES
S. DuRant, G. Hepp, Ignacio Moore, B. Hopkins, William Hopkins (2010)
Slight differences in incubation temperature affect early growth and stress endocrinology of wood duck (Aix sponsa) ducklingsJournal of Experimental Biology, 213
N. Snyder, S. Derrickson, S. Beissinger, J. Wiley, T. Smith, W. Toone, B. Miller (1996)
Limitations of Captive Breeding in Endangered Species RecoveryConservation Biology, 10
H. Milne, F. McNulty (1968)
The Whooping CraneJournal of Animal Ecology, 37
J. French, S. Converse, J. Austin (2019)
Whooping Cranes Past and PresentWhooping Cranes: Biology and Conservation
Animal Conservation – Wiley
Published: Feb 1, 2022
Keywords: avian conservation breeding; captive breeding; data‐logger eggs; artificial incubation; Whooping Crane; cost; trade‐offs
You can share this free article with as many people as you like with the url below! We hope you enjoy this feature!
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.