V. Almpanidou, E. Katragkou, and A. D. Mazaris, The efficiency of phenological shifts as 681 an adaptive response against climate change: a case study of loggerhead sea turtles (Caretta 682 caretta) in the Mediterranean. Mitigation and Adaptation Strategies for Global Change 23, vol.683, pp.1143-1158, 2018.

M. J. Angilletta, R. B. Huey, and M. R. Frazier, Thermodynamic effects on organismal 685 performance: is hotter better?, Physiological and Biochemical Zoology, vol.83, pp.197-206, 2010.

J. M. Refsnider and F. J. Janzen, Behavioural plasticity may compensate for climate change 1000 in a long-lived reptile with temperature-dependent sex determination, Biological Conservation, vol.1001, pp.90-95, 2012.

J. M. Refsnider and F. J. Janzen, Temperature-dependent sex determination under rapid 1003 anthropogenic environmental change: Evolution at a turtle's pace?, Journal of Heredity, vol.107, pp.61-70, 2015.

J. M. Refsnider, D. A. Warner, and F. J. Janzen, Does shade cover availability limit nest-site 1006 choice in two populations of a turtle with temperature-dependent sex determination, Journal 1007 of Thermal Biology, vol.38, pp.152-158, 2013.

T. L. Root, J. T. Price, K. R. Hall, S. H. Schneider, C. Rosenzweigk et al., 1009 Fingerprints of global warming on wild animals and plants, Nature, vol.421, pp.57-60, 2003.

V. S. Saba, C. A. Stock, J. R. Spotila, F. V. Paladino, and P. Santidria?n-tomillo, Projected 1011 response of an endangered marine turtle population to climate change, Nature Climate Change, vol.1012, issue.2, pp.814-820, 2012.

P. Santidrián-tomillo, M. Genovart, F. V. Paladino, J. R. Spotila, and D. Oro, Climate 1014 change overruns resilience conferred by temperature-dependent sex determination in sea 1015 turtles and threatens their survival, Global Change Biology, vol.21, pp.2980-2988, 2015.

P. Santidrián-tomillo, D. Oro, F. V. Paladino, R. Piedra, A. E. Sieg et al., , 2014.

, High beach temperatures increased female-biased primary sex ratios but reduced output of 1018 female hatchlings in the leatherback turtle, Biological Conservation, vol.176, pp.71-79

P. Santidrián-tomillo, V. S. Saba, C. D. Lombard, J. M. Valiulis, N. J. Robinson et al., , p.1020

F. V. Spotila, J. R. Fernandez, C. Rivas, M. L. Tucek, J. Nel et al., Global 1021 analysis of the effect of local climate on the hatchling output of leatherback turtles, p.16789, 2015.

L. Schwanz and F. Janzen, Climate change and temperature-dependent sex determination: 1024 can individual plasticity in nesting phenology prevent extreme sex ratios? Physiological and 1025, Biochemical Zoology, vol.81, pp.826-834, 2008.

K. Sella and M. M. Fuentes, Exposure of Marine Turtle Nesting Grounds to Coastal 1027 Construction: implications for management, Journal of Ocean and Coastal Management, vol.169, pp.1028-182, 2019.

B. M. Shamblin, A. B. Bolten, F. A. Abreu-grobois, K. A. Bjorndal, L. Cardona et al., , p.1030

C. Clusa, M. Monzón-argüello, C. Nairn, C. J. Nielsen, J. T. Nel et al., , p.1031

K. R. Vilaça, S. T. Türkozan, O. Yilmaz, C. Dutton, and P. H. , Geographic patterns of 1032 genetic variation in a broadly distributed marine vertebrate: New insights into loggerhead 1033 turtle stock structure from expanded mitochondrial DNA Sequences, PLoS One, vol.9, p.85956, 2014.

J. B. Socolar, P. N. Epanchin, S. R. Beissinger, and M. W. Tingley, Phenological shifts 1035 conserve thermal niches in North American birds and reshape expectations for climate-driven 1036 range shifts, PNAS, vol.114, pp.12976-12981, 2017.

J. L. Stubbs, M. R. Kearney, S. D. Whiting, and N. J. Mitchell, Models of primary sex ratios 1038 at a major flatback turtle rookery show an anomalous masculinising trend, Climate Change 1039 Responses, vol.1, pp.1-17, 2014.

J. N. Tedeschi, W. J. Kennington, J. L. Tomkins, O. Berry, S. Whiting et al., , p.1041

N. J. Mitchell, Heritable variation in heat shock gene expression: a potential mechanism 1042 for adaptation to thermal stress in embryos of sea turtles, Proceedings of the Royal Society B: 1043 Biological Sciences, vol.283, 2016.

R. S. Telemeco, K. C. Abbott, and F. J. Janzen, Modeling the effects of climate-change 1045 induced shifts in reproductive phenology on temperature-dependent traits, American 1046 Naturalist, vol.181, pp.637-648, 2013.

J. J. Tewksbury, R. B. Huey, and C. A. Deutsch, Putting the Heat on Tropical Animals, Science, vol.320, p.1296, 1048.

R. A. Valverde, S. Wingard, F. Gómez, M. T. Tordoir, and C. M. Orrego, Field lethal 1050 incubation temperature of olive ridley sea turtle Lepidochelys olivacea embryos at a mass 1051 nesting rookery, Endangered Species Research, vol.12, pp.77-86, 2010.

M. E. Visser, Keeping up with a warming world; assessing the rate of adaptation to 1053 climate change, Proceedings of the Royal Society B: Biological Sciences, vol.275, pp.649-659, 2008.

M. E. Visser, L. Te-marvelde, and M. E. Lof, Adaptive phenological mismatches of birds 1055 and their food in a warming world, Journal of Ornithology, vol.153, pp.75-84, 2012.

B. P. Wallace, A. D. Dimatteo, B. J. Hurley, E. M. Finkbeiner, A. B. Bolten et al., , p.1057

M. Y. Hutchinson, B. J. Abreu-grobois, F. A. Amorocho, D. Bjorndal, K. A. Bourjea et al., , p.1058

B. W. Bowen, R. B. Dueñas, P. Casale, B. C. Choudhury, A. Costa et al., , p.1059

A. Girard, A. Girondot, M. Godfrey, M. H. Hamann, M. López-mendilaharsu et al., , p.1060

M. A. Marcovaldi, J. A. Mortimer, J. A. Musick, R. Nel, J. A. Seminoff et al., , p.1061

B. Witherington and R. B. Mast, Regional management units for marine turtles: a novel 1062 framework for prioritizing conservation and research across multiple scales, PLoS One, vol.5, p.15465, 2010.

G. Walther, Community and ecosystem responses to recent climate change, 2010.

, Philosophical Transactions of the Royal Society B-Biological Sciences, vol.365, pp.2019-2024

J. F. Weishampel, D. A. Bagley, and L. M. Ehrhart, Earlier nesting by loggerhead sea turtles 1067 following sea surface warming, Global Change Biology, vol.10, pp.1424-1427, 2004.

J. F. Weishampel, D. A. Bagley, L. M. Ehrhart, and A. C. Weishampel, Nesting phenologies 1069 of two sympatric sea turtle species related to sea surface temperatures, Endangered Species 1070 Research, vol.12, pp.41-47, 2010.

C. Wold, The status of sea turtles under international environmental law and 1072 international environmental agreements, Journal of International Wildlife Law and Policy, vol.5, pp.1073-1084, 2002.

A. Wood, D. T. Booth, and C. J. Limpus, Sun exposure, nest temperature and loggerhead 1075 turtle hatchlings: Implications for beach shading management strategies at sea turtle 1076 rookeries, Journal of Experimental Marine Biology and Ecology, vol.451, pp.105-114, 2014.

L. Woolgar, S. Trocini, and N. Mitchell, Key parameters describing temperature-1078 dependent sex determination in the southernmost population of loggerhead sea turtles, Journal 1079 of Experimental Marine Biology and Ecology, vol.449, pp.77-84, 2013.

L. I. Wright, K. L. Stokes, W. J. Fuller, B. J. Godley, A. Mcgowan et al., , p.1081

A. C. Broderick, Turtle mating patterns buffer against disruptive effects of climate 1082 change, Proceedings of the Royal Society B: Biological Sciences, vol.279, pp.2122-2127, 2012.

C. L. Yntema and N. Mrosovsky, Sexual differentiation in hatchling loggerheads (Caretta 1084 caretta) incubated at different controlled temperatures, Herpetologica, vol.36, pp.33-36, 1980.

C. L. Yntema and N. Mrosovsky, Critical periods and pivotal temperatures for sexual 1086 differentiation in loggerhead sea turtles, Canadian Journal of Zoology-Revue Canadienne de 1087 Zoologie, vol.60, pp.1012-1016, 1982.

, Legend: Locations of the seven nesting sites studied (red dots) within four Regional 1093

, Northwest Atlantic 1094, p.1095

, Brazil) and Southwest Indian, 1096.

S. Nek and . Africa,

N. Mrosovsky, S. Kamel, A. F. Rees, and D. Margaritoulis, Pivotal temperature for loggerhead turtles (Caretta caretta) from Kyparissia Bay, Greece. Canadian Journal of Zoology-Revue Canadienne de Zoologie, vol.80, pp.2118-2124, 2002.

C. L. Yntema and N. Mrosovsky, Sexual differentiation in hatchling loggerheads (Caretta caretta) incubated at different controlled temperatures, Herpetologica, vol.36, pp.33-36, 1980.

C. L. Yntema and N. Mrosovsky, Critical periods and pivotal temperatures for sexual differentiation in loggerhead sea turtles, Canadian Journal of Zoology-Revue Canadienne de Zoologie, vol.60, pp.1012-1016, 1982.

N. Mrosovsky, Pivotal temperatures for loggerhead turtles (Caretta caretta) from northern and southern nesting beaches, Canadian Journal of Zoology-Revue Canadienne de Zoologie, vol.66, pp.661-669, 1988.

M. A. Marcovaldi, M. H. Godfrey, and N. Mrosovsky, Estimating sex ratios of loggerhead turtles in Brazil from pivotal incubation durations, Canadian Journal of Zoology-Revue Canadienne de Zoologie, vol.75, pp.755-770, 1997.

J. A. Maxwell, Incubation temperature and sex determination in Caretta caretta fron Tongaland, Department of Zoology, vol.Master., p.193, 1987.

. Ipcc, Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, Synthesis Report, 2014.

M. Girondot and Y. Kaska, A model to predict the thermal reaction norm for the embryo growth rate from field data, Journal of Thermal Biology, vol.45, pp.96-102, 2014.

M. Girondot and Y. Kaska, Nest temperatures in a loggerhead-nesting beach in Turkey is more determined by sea surface temperature than air temperature, Journal of Thermal Biology, vol.47, pp.13-18, 2014.

F. Sar? and Y. Kaska, Loggerhead sea turtle hatchling sex ratio differences between two nesting beaches in Turkey, Israel Journal of Ecology & Evolution, vol.61, pp.115-129, 2016.

J. Monsinjon, I. Jribi, A. Hamza, A. Ouerghi, Y. Kaska et al., Embryonic growth rate thermal reaction norm of Mediterranean Caretta caretta embryos from two different thermal habitats, Turkey and Libya, Chelonian Conservation and Biology, vol.16, pp.172-179, 2017.

Y. Kaska, Ç. Ilgaz, A. Özdemir, E. Baskale, O. Türkozan et al., Sex ratio estimations of loggerhead sea turtle hatchlings by histological examination and nest temperatures at Fethiye beach, Turkey, Naturwissenschaften, vol.93, pp.338-343, 2006.

B. J. Godley, A. C. Broderick, J. R. Downie, F. Glen, J. D. Houghton et al., Thermal conditions in nests of loggerhead turtles: Further evidence suggesting female skewed sex ratios of hatchling production in the Mediterranean, Journal of Experimental Marine Biology and Ecology, vol.263, pp.45-63, 2001.

A. M. Leblanc, K. K. Drake, K. L. Williams, M. G. Frick, T. Wibbels et al., Nest temperatures and hatchling sex ratios from loggerhead turtle nests incubated under natural field conditions in Georgia, United States, Chelonian Conservation and Biology, vol.11, pp.108-116, 2012.

M. M. Fuentes, J. Monsinjon, M. Lopez, P. Lara, A. Santos et al., Sex ratio estimates for species with temperaturedependent sex determination differ according to the proxy used, Ecological Modelling, vol.365, pp.55-67, 2017.

K. P. Burnham, A. , and D. R. , Model selection and multimodel inference: A practical information-theoretic approach, 2002.

C. J. Limpus, P. C. Reed, and J. D. Miller, Temperature dependent sex determination in Queensland sea turtles: Intraspecific variation in Caretta caretta, Biology of Australian frogs and reptiles, pp.343-351, 1985.

C. J. Limpus, P. Reed, and J. D. Miller, Islands and turtles: the influence of choice of nesting beach on sex ratio, Proceedings of the Inaugural Great Barrier Reef Conference, pp.397-402, 1983.

A. Georges, C. J. Limpus, and R. Stoutjesdijk, Hatchling sex in the marine turtle Caretta caretta is determined by proportion of development at a temperature, not daily duration of exposure, Journal of Experimental Zoology, vol.270, pp.432-444, 1994.