Investigating the potential impacts of climate change on a marine turtle population
about
Temperature-Dependent Sex Determination under Rapid Anthropogenic Environmental Change: Evolution at a Turtle's Pace?Under what conditions do climate-driven sex ratios enhance versus diminish population persistence?Phenological response of sea turtles to environmental variation across a species' northern rangeFactors affecting hatch success of hawksbill sea turtles on Long Island, Antigua, West IndiesGlobal conservation priorities for marine turtlesPredicting the fate of a living fossil: how will global warming affect sex determination and hatching phenology in tuatara?Resilience of marine turtle regional management units to climate change.Forecasting range expansion into ecological traps: climate-mediated shifts in sea turtle nesting beaches and human development.Breeding sex ratios in adult leatherback turtles (Dermochelys coriacea) may compensate for female-biased hatchling sex ratiosClimate change and pollution speed declines in zebrafish populationsTransgenerational plasticity mitigates the impact of global warming to offspring sex ratios.Loggerhead sea turtle environmental sex determination: implications of moisture and temperature for climate change based predictions for species survival.Climate change and marine vertebrates.Juvenile recruitment in loggerhead sea turtles linked to decadal changes in ocean circulation.The ecology and evolution of temperature-dependent reaction norms for sex determination in reptiles: a mechanistic conceptual model.Climate Impacts on Sea Turtle Breeding Phenology in Greece and Associated Foraging Habitats in the Wider Mediterranean RegionThe Maternal Legacy: Female Identity Predicts Offspring Sex Ratio in the Loggerhead Sea Turtle.Female-Bias in a Long-Term Study of a Species with Temperature-Dependent Sex Determination: Monitoring Sex Ratios for Climate Change ResearchPhysiologically grounded metrics of model skill: a case study estimating heat stress in intertidal populationsThe broad footprint of climate change from genes to biomes to people.Climate change increases the production of female hatchlings at a northern sea turtle rookery.Climate change and nesting behaviour in vertebrates: a review of the ecological threats and potential for adaptive responses.Temperature-dependent sex determination in fish revisited: prevalence, a single sex ratio response pattern, and possible effects of climate change.Loggerhead sea turtle embryos (Caretta caretta) regulate expression of stress response and developmental genes when exposed to a biologically realistic heat stress.Nesting lizards (Bassiana duperreyi) compensate partly, but not completely, for climate change.Northward dispersal of sea kraits (Laticauda semifasciata) beyond their typical rangeWarm water and cool nests are best. How global warming might influence hatchling green turtle swimming performance.Direct impacts of climatic warming on heat stress in endothermic species: seabirds as bioindicators of changing thermoregulatory constraints.Forecasting the viability of sea turtle eggs in a warming world.Historical versus contemporary climate forcing on the annual nesting variability of loggerhead sea turtles in the Northwest Atlantic Ocean.Plasticity and genetic adaptation mediate amphibian and reptile responses to climate changeShading and watering as a tool to mitigate the impacts of climate change in sea turtle nestsSeasonal heterogeneity of ocean warming: a mortality sink for ectotherm colonizersAn Immunohistochemical Approach to Identify the Sex of Young Marine Turtles.Developmental temperatures and phenotypic plasticity in reptiles: a systematic review and meta-analysis.Climate change and temperature-linked hatchling mortality at a globally important sea turtle nesting site.Male hatchling production in sea turtles from one of the world's largest marine protected areas, the Chagos Archipelago.Strong male-biased operational sex ratio in a breeding population of loggerhead turtles (Caretta caretta) inferred by paternal genotype reconstruction analysis.Natural beaches produce more hatchling marine turtles than developed beaches, despite regional differences in hatching success.Sporadic nesting reveals long distance colonisation in the philopatric loggerhead sea turtle (Caretta caretta).
P2860
Q28265913-FA8365CA-891A-4BE0-8E23-7FCDAAB196D3Q28649880-3584DD8B-81A6-42B3-8E31-995C6DD6F0AFQ28708892-5EBFA0BC-6C93-4EB9-A2DC-FD59E8A14572Q28727576-551D648A-2E70-4210-89B8-8B7D93E7AAAFQ28744487-C65C6327-7B4B-4344-9C98-F6FD6D3CD87FQ28756171-520F9FEF-CE12-472C-980A-75975D603CDEQ30602341-60AEED9B-F1F2-40D5-A892-87C032D1979AQ30642506-77B42296-40CF-41BC-A353-72EA317092CEQ30751352-866F7EFA-EE6D-44BF-9B99-DDB71617F499Q30903072-3BF51391-3D71-46D7-90EB-24A430B14419Q30918881-6AAA9207-26B1-41D1-9D02-83865DE8CFD5Q30932909-E11B3AF3-38FB-4801-927A-78AC843C0E86Q31022937-2A0957A7-C6C7-4546-A8C2-D0C65035562AQ31087214-875FE0C5-CFEC-48C5-A5FA-1EDC40E311C8Q31107863-968164D2-CA39-4A8F-A39D-131C3510342AQ31110035-D40CFCFB-9CB7-41BF-9EF8-950BDA45C5AFQ31111600-FA366EEE-8E3A-43CF-9E8C-8C470795D3BDQ31125809-C4DB2D52-2C45-4A7A-80D0-815D0BA81A50Q31136161-69E5D529-E6E3-4F8D-98A7-C792ED7904F2Q31142453-0F245D4F-B2BD-4446-A3FF-796B9424D983Q31146633-6C08CA43-408B-46BA-816F-3B372B1E22E9Q31149439-473BF32B-1557-42CA-953F-9F0C6E6DDE79Q31165980-64B2BA39-8B3A-4EB2-A217-804E41BE1553Q31171667-8D70D705-D5B3-420F-B3CB-56F46476589FQ33419228-7AA25C95-7E07-40E4-9B1F-B4420129589CQ33828963-E2DD7DB3-229A-4177-A7F9-74C75E2446C0Q33986133-17E50558-4675-41C5-B933-4DCB8A57DCB2Q34301168-5F5E6262-E48E-48A2-8C06-00AE2897C13CQ35012306-73A1D4CF-FF6B-4674-B0B3-886258DAC54AQ35067410-E6617EE7-A387-4AEC-95D1-0B4FDBA5AAC4Q35085991-2177D513-819D-4A17-9200-B5D1C7FB10A6Q35648465-CAE34279-823B-4FC6-B4B2-01A92441B629Q35979448-B6049503-E660-4374-9517-CF8F399128F1Q36308751-97E1DC41-43B9-4FE5-B7FD-074DFA66DE74Q36360980-8D26B082-169C-484A-984A-01FEFC03911EQ36407055-A83A67B4-31B0-482D-A56F-806990CEFC84Q36528485-51E9CCBB-97FB-4524-9BBF-A2A5AA6B2817Q37402964-1D23A093-AC25-403A-A77F-013396B323B9Q46395873-3A9AB44C-6CEB-462E-B2F0-AC809FB3851CQ48181106-FDB2BA3C-335B-4867-B530-B11A17853E81
P2860
Investigating the potential impacts of climate change on a marine turtle population
description
im Mai 2007 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в травні 2007
@uk
name
Investigating the potential impacts of climate change on a marine turtle population
@en
Investigating the potential impacts of climate change on a marine turtle population
@nl
type
label
Investigating the potential impacts of climate change on a marine turtle population
@en
Investigating the potential impacts of climate change on a marine turtle population
@nl
prefLabel
Investigating the potential impacts of climate change on a marine turtle population
@en
Investigating the potential impacts of climate change on a marine turtle population
@nl
P2093
P2860
P1476
Investigating the potential impacts of climate change on a marine turtle population
@en
P2093
A. C. BRODERICK
B. J. GODLEY
L. A. HAWKES
M. H. GODFREY
P2860
P304
P356
10.1111/J.1365-2486.2007.01320.X
P577
2007-05-01T00:00:00Z