Models of primary sex ratios at a major flatback turtle rookery show an anomalous masculinising trend

详细信息    查看全文

• 作者：Jessica L Stubbs ; Michael R Kearney ; Scott D Whiting&#8230
• 关键词：Temperature ; dependent sex determination ; Thermosensitive period ; Flatback turtle ; Natator depressus ; Sex ratio ; Sand temperature ; Climate change ; Cape Domett ; Western Australia
• 刊名：Climate Change Responses
• 出版年：2014
• 出版时间：December 2014
• 年：2014
• 卷：1
• 期：1
• 全文大小：1969KB
• 参考文献：1.Pieau C, Dorizzi M, Richard-Mercier N: Temperature-dependent sex determination and gonadal differentiation in reptiles. Cell Mol Life Sci 1999, 55:887鈥?00.PubMed CrossRef
  2.Valenzuela N, Lance VA: Temperature-Dependent Sex Determination. Washington D C: Smithsonian Institution Press; 2004.
  3.Grayson KL, Mitchell NJ, Monks JM, Keall SN, Wilson J, Nelson NJ: Sex ratio bias and extinction risk in an isolated population of tuatara (Sphenodon punctatus). PLoS One 2014, 9:1鈥?0.
  4.Ewert MA, Etchberger CR, Nelson CE: Turtle Sex-Determining Modes and TSD Patterns, And Some TSD Pattern Correlates. In Temperature-Dependent Sex Determination In Vertebrates. Edited by Valenzuela N, Lance VA. Washington: Smithsonian Books; 2004:21鈥?2.
  5.Fuller W, Godley B, Hodgson D, Reece S, Witt M, Broderick A: Importance of spatio-temporal data for predicting the effects of climate change on marine turtle sex ratios. Mar Ecol Prog Ser 2013, 488:267鈥?74.CrossRef
  6.Delmas V: A mechanistic model of temperature-dependent sex determination in a chelonian: the European pond turtle. Funct Ecol 2007, 22:84.
  7.Standora EA, Spotila JR: Temperature dependent sex determination in sea turtles. Copeia 1985, 1985:711鈥?22.CrossRef
  8.Mitchell NJ, Kearney MR, Nelson NJ, Porter WP: Predicting the fate of a living fossil: how will global warming affect sex determination and hatching phenology in tuatara? P Roy Soc Lond B Bio 2008, 275:2185鈥?193.CrossRef
  9.Hays GC, Broderick AC, Glen F, Godley BJ: Climate change and sea turtles: a 150-year reconstruction of incubation temperatures at a major marine turtle rookery. Glob Change Biol 2003, 9:642鈥?46.CrossRef
  10.Hawkes LA, Broderick AC, Godfrey MH, Godley BJ: Investigating the potential impacts of climate change on a marine turtle population. Glob Change Biol 2007, 13:923鈥?32.CrossRef
  11.Fuentes M, Porter W: Using a microclimate model to evaluate impacts of climate change on sea turtles. Ecol Model 2013, 251:150鈥?57.CrossRef
  12.Maulany RI, Booth DT, Baxter GS: Emergence success and sex ratio of natural and relocated nests of Olive Ridley turtles from Alas Purwo National park, East Java, Indonesia. Copeia 2012, 2012:738鈥?47.CrossRef
  13.Janzen FJ: Climate change and temperature-dependent sex determination in reptiles. Proc Natl Acad Sci U S A 1994, 91:7487鈥?490.PubMed Central PubMed CrossRef
  14.Booth D, Freeman C: Sand and nest temperatures and an estimate of hatchling sex ratio from the Heron Island green turtle (Chelonia mydas) rookery, Southern Great Barrier Reef. Coral Reefs 2006, 25:629鈥?33.CrossRef
  15.Georges A, Beggs K, Young JE, Doody JS: Modelling development of reptile embryos under fluctuating temperature regimes. Physiol Biochem Zool 2005, 78:18鈥?0.PubMed CrossRef
  16.Pendoley K, Bell C, McCracken R, Ball K, Sherborne J, Oates J, Becker P, Vitenbergs A, Whittock P: Reproductive biology of the flatback turtle Natator depressus in Western Australia. End Spec Res 2014, 23:115鈥?23.CrossRef
  17.Limpus C: The flatback turtle, Chelonia depressa , in Queensland: reproductive periodicity, philopatry and recruitment. Aust Wildlife Res 1984, 11:579鈥?87.CrossRef
  18.Hewavisenthi S, Parmenter C: Hydric environment and sex determination in the flatback turtle ( Natator depressus Garman) (Chelonia: Cheloniidae). Aust J Zool 2000, 48:653鈥?59.CrossRef
  19.Hewavisenthi S, Parmenter C: Thermosensitive period for sexual differentiation of the gonads of the flatback turtle ( Natator depressus Garman). Aust J Zool 2002, 50:521鈥?27.CrossRef
  20.Box T: A Mechanistic Approach To Predicting Hatchling Sex Ratios Of The Flatback Turtle ( Natator Depressus ). In Honours thesis. Western Australia: The University of Western Australia, Animal Biology; 2010.
  21.Whiting A, Thomson A, Chaloupka M, Limpus C: Seasonality, abundance and breeding biology of one of the largest populations of nesting flatback turtles, Natator depressus : Cape Domett, Western Australia. Aust J Zool 2009, 56:297鈥?03.CrossRef
  22.Kearney M, Shamakhy A, Tingley R, Karoly D, Hoffmann A, Briggs P, Porter W: Microclimate modelling at macro scales: a test of a general microclimate model integrated with gridded continental-scale soil and weather data. Meth Ecol Evol 2014, 5:273鈥?86.CrossRef
  23.Jones DA, Wang W, Fawcett R: High-quality spatial climate data-sets for Australia. Aust Meteorol Oceanogr J 2009, 58:233.
  24.Wibbels T, Hillis-Star Z, Phillips B: Female-biased sex ratios of hatchling hawksbill sea turtles from a Caribbean nesting beach. J Herpetol 1999, 33:142鈥?44.CrossRef
  25.Hanson J, Wibbels T, Martin R: Predicted female bias in sex ratios of hatchling loggerhead sea turtles from a Florida nesting beach. Can J Zool 1998, 76:1850鈥?861.CrossRef
  26.Rotstayn LD, Jeffrey SJ, Collier MA, Dravitzki SM, Hirst AC, Syktus JI, Wong KK: Aerosol- and greenhouse gas-induced changes in summer rainfall and circulation in the Australasian region: a study using single-forcing climate simulations. Atmos Chem Phys 2012, 12:6377鈥?404.CrossRef
  27.Ackerman RA: The Nest Environment And The Embryonic Development Of Sea Turtles. In The Biology of Sea Turtles. Edited by Lutz PL, Musick JA, Wyneken J. Florida: CRC Press; 1997:83鈥?06.
  28.Broderick AC, Godley BJ, Hays GC: Metabolic heating and the prediction of sex ratios for green turtles ( Chelonia mydas ). Physiol Biochem Zool 2001, 74:161鈥?70.PubMed CrossRef
  29.Zbinden J, Margaritoulis D, Arlettaz R: Metabolic heating in Mediterranean loggerhead sea turtle clutches. J Exp Mar Biol Ecol 2006, 334:151鈥?57.CrossRef
  30.Sandoval S, G贸mez-Mu帽oz V, Guti茅rrez J, Porta-G谩ndara M脕: Metabolic heat estimation of the sea turtle Lepidochelys olivacea embryos. J Therm Biol 2011, 36:138鈥?41.CrossRef
  31.Woolgar L, Trocini S, Mitchell N: Key parameters describing temperature-dependent sex determination in the southernmost population of loggerhead sea turtles. J Exp Mar Biol Ecol 2013, 449:77鈥?4.CrossRef
  32.Mrosovsky N, Pieau C: Transitional range of temperature, pivotal temperatures and thermosensitive stages for sex determination in reptiles. Amphibia-Reptilia 1991, 12:169鈥?79.CrossRef
  33.Pieau C, Dorizzi M: Oestrogens and temperature-dependent sex determination in reptiles: all is in the gonads. J Endocrin 2004, 181:367鈥?77.CrossRef
  34.Pieau C, Dorizzi M, Richard-Mercier N, Desvages G: Sexual differentiation of gonads as a function of temperature in the turtle Emys orbicularis : endocrine function, intersexuality and growth. J Exp Zool 1998, 281:400鈥?08.PubMed CrossRef
  35.Blamires S, Guinea M: The Influence Of Temperature On Egg Mortality, Emergence Success And Hatchling Sex Ratio For Flatback Sea Turtles ( Natator Depressus) At Fog Bay, Northern Territory, Australia. In Sea Turtles of the Indo-Pacific: Research Management and Conservation. Edited by Pilcher N, Ismail G. London: ASEAN Academic Press; 2000.
  36.Pittart S: Genetic Population Structure Of The Flatback Turtle ( Natator depressus ): A Nuclear And Mitochondrial DNA Analysis. In Honours thesis. The University of Canberra: Institute for Applied Ecology; 2010.
  37.Matsuzawa Y, Sato K, Sakamoto W, Bjorndal K: Seasonal fluctuations in sand temperature: effects on the incubation period and mortality of loggerhead sea turtle ( Caretta caretta ) pre-emergent hatchlings in Minabe. Japan Mar Biol 2002, 140:639鈥?46.CrossRef
  38.Hamann M, Limpus C, Read MA: Vulnerability Of Marine Reptiles To Climate Change In The Great Barrier Reef, Climate Change And The Great Barrier Reef A Vulnerability Assessment. In Climate Change and the Great Barrier Reef a vulnerability assessment. Edited by Johnson JE, Marshall PA. Australia: Great Barrier Reef Marine Park Authority and Australian Greenhouse Office; 2007.
  39.Hawkes LA, Broderick AC, Godfrey MH, Godley BJ: Climate Change And Marine Turtles. End Spec Res 2009, 7:137鈥?54.CrossRef
  40.Refsnider JM, Janzen FJ: Behavioural plasticity may compensate for climate change in a long-lived reptile with temperature-dependent sex determination. Biol Conserv 2012, 152:90鈥?5.CrossRef
  41.Doody JS, Guarino F, Georges A, Corey B, Murray G, Ewert MW: Nest site choice compensates for climate effects on sex ratios in a lizard with environmental sex determination. Evol Ecol Res 2006, 20:307鈥?30.CrossRef
  42.Hulin V, Delmas V, Girondot M, Godfrey M, Guillon J-M: Temperature-dependent sex determination and global change: are some species at greater risk? Oecologia 2009, 160:493鈥?06.PubMed CrossRef
  43.Mitchell NJ, Janzen FJ: Temperature-dependent sex determination and contemporary climate change. Sex Devel 2010, 4:129鈥?40.CrossRef
  44.Broderick AC, Godley BJ, Reece S, Downie JR: Incubation periods and sex ratios of green turtles: highly female biased hatchling production in the eastern Mediterranean. Mar Ecol Prog Ser 2000, 202:273鈥?81.CrossRef
  45.Fuentes M, Hamann M, Limpus CJ: Past, current and future thermal profiles of green turtle nesting grounds: implications from climate change. J Exp Mar Biol Ecol 2010, 383:56鈥?4.CrossRef
  46.Jensen M, Abrue-Grobois F, Frydenberg J, Loeschcke V: Microsatellites provide insight into contrasting mating patterns in arribada vs. non鈥恆rribada olive ridley sea turtle rookeries. Mol Ecol 2006, 15:2567鈥?575.PubMed CrossRef
  47.Harry JL, Limpus CJ: Low-Temperature Protection of Marine Turtle Eggs During Long-Distance Relocation. Wildl Res 1989, 16:317鈥?20.CrossRef
  48.Miller J, Limpus C: Ontogeny Of Marine Turtle Gonads. In The Biology of Sea Turtles. Volume 2nd edition. Edited by Lutz P, Musick J, Wyneken J. Boca Raton, FL: CRC Press; 2003:199鈥?24.
  49.Ceriani S, Wyneken J: Comparative morphology and sex identification of the reproductive system in formalin-preserved sea turtle specimens. Zoology 2008, 11:179鈥?87.CrossRef
  50.Miller J, Limpus C: Incubation Period and Sexual Differentiation in the Green Turtle Chelonia mydas L. In Proceedings Of The Melbourne Herpetological Symposium. Edited by Banks C, Martin A. Melbourne: The Royal Melbourne Zoological Gardens; 1980.
  51.Dallwitz MJ, Higgins JP: Devar: A Computer Program For Estimating Development Rate As A Function Of Temperature. In 1993rd edition. http://鈥媎elta-intkey.鈥媍om/鈥媎evar/鈥?/span> ; 1992.
  52.Girondot M: Statistical description of temperature-dependent sex determination using maximum likelihood. Evol Ecol Res 1999, 1:479鈥?86.
  53.Georges A: The Influence Of Fluctuating Temperatures On Hatchling Sex Ratios - A Model And Proposed Test Using Caretta Caretta . In Proceedings of the Australian Marine Turtle Conservation Workshop; Gold Coast. Edited by James R. Australian Nature Conservation Agency; 1994:156鈥?62.
  54.Porter WP, Mitchell JW: System and method for calculating the spatial-temporal and other effects of climate and other environmental conditions on animals. US Patent 7 2006, 155:377.
  55.Marshall T, Holmes J, Rose C: Soil Physics. 3rd edition. New York: Cambridge University Press; 1996.CrossRef
  56.Smits K, Sakaki T, Linsuwat A, Illangasekare TH: Thermal conductivity of sands under varying moisture and porosity in drainage-wetting cycles. Vadose Zone J 2010, 9:172鈥?80.CrossRef
  57.Houlder DJ, Hutchinson MF, Nix HA, McMahon JP: ANUCLIM User Guide, Version 5.0. In Book ANUCLIM User Guide, Version 5.0. Canberra: Centre for Resource and Environmental Studies, Australian National University; 1999.
  58.CSIRO: Climate Change in Australia, Technical Report. Climate Change in Australia, Technical Report. Canberra: CSIRO and the Australian Bureau of Meteorology; 2007.
  
• 作者单位：Jessica L Stubbs (1)
  Michael R Kearney (2)
  Scott D Whiting (3)
  Nicola J Mitchell (1)
  
  1. School of Animal Biology, The University of Western Australia, 35 Stirling Highway, Crawley, WA, 6009, Australia
  2. Department of Zoology, The University of Melbourne, Melbourne, VIC, 3010, Australia
  3. Marine Science Program, Western Australian Department of Parks and Wildlife, Locked Bag 104, Bentley Delivery Centre, Bentley, WA, 6983, Australia
  
• 刊物类别：Ecology; Applied Ecology; Landscape Ecology; Plant Ecology; Evolutionary Biology; Fish & Wildlife Bi
• 刊物主题：Ecology; Applied Ecology; Landscape Ecology; Plant Ecology; Evolutionary Biology; Fish & Wildlife Biology & Management;
• 出版者：BioMed Central
• ISSN：2053-7565

文摘

Background Quantifying primary sex ratios is essential for assessing how global warming will influence the population dynamics of species with temperature-dependent sex determination (TSD). Process-explicit (mechanistic) models can accurately estimate primary sex ratios but require the resolution of the key physiological parameters that influence sex determination and validation of the model by testing predictions against empirical data.