Articles citing this paper
Compensatory growth in tadpoles after transient salinity stress
Zoe E. Squires A B , Paul C. E. Bailey A , Richard D. Reina A and Bob B. B. M. Wong A C
+ Author Affiliations
- Author Affiliations
A School of Biological Sciences, Monash University, Vic. 3800, Australia.
B Present address: Department of Zoology, The University of Melbourne, Vic. 3000, Australia.
C Corresponding author. Email: bob.wong@sci.monash.edu.au
Marine and Freshwater Research 61(2) 219-222 https://doi.org/10.1071/MF09123
Submitted: 28 May 2009 Accepted: 6 August 2009 Published: 25 February 2010
37 articles found in Crossref database.
Anuran developmental plasticity loss: the cost of constant salinity stress
Kearney Brian D.,
Byrne Phillip G., Reina Richard D.
Australian Journal of Zoology. 2015 63(5). p.331
Anuran larval developmental plasticity and survival in response to variable salinity of ecologically relevant timing and magnitude
Kearney Brian D.,
Pell Rebecca J.,
Byrne Phillip G., Reina Richard D.
Journal of Experimental Zoology Part A: Ecological Genetics and Physiology. 2014 321(10). p.541
Physiological benefits and latent effects of an algal-salamander symbiosis
Small Daniel P., Bishop Cory D.
Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology. 2020 246 p.110715
Effects of elevated salinity on Cuban treefrogOsteopilus septontrionalisaldosterone levels, growth, and development
Lukens Erin, Wilcoxen Travis E.
Marine and Freshwater Behaviour and Physiology. 2020 53(3). p.99
Effect of salinity on locomotor performance and thermal extremes of metamorphic Andean Toads (Rhinella spinulosa) from Monte Desert, Argentina
Sanabria Eduardo,
Quiroga Lorena,
Vergara Cristina,
Banchig Mariana,
Rodriguez Cesar, Ontivero Emanuel
Journal of Thermal Biology. 2018 74 p.195
Consequences of compensatory growth in an amphibian
Hector K. L.,
Bishop P. J., Nakagawa S.
Journal of Zoology. 2012 286(2). p.93
Caging, but not air deprivation, slows tadpole growth and development in the amphibian Xenopus laevis
Rose Christopher S.
Journal of Experimental Zoology Part A: Ecological Genetics and Physiology. 2014 321(7). p.365
Intraspecific interference retards growth and development of cane toad tadpoles, but those effects disappear by the time of metamorphosis
Crossland M. R., Shine R.
Royal Society Open Science. 2023 10(11).
Water quality limitations for tadpoles of the Wood Frog in the northern Great Plains, Canada
Donald David B.
Environmental Monitoring and Assessment. 2021 193(10).
Global review reveals how disparate study motivations, analytical designs, and focal ions limit understanding of salinization effects on freshwater animals
Walker Richard H.,
Belvin Abigail C.,
Mouser Joshua B.,
Pennino Amanda,
Plont Stephen,
Robinson Christopher D.,
Smith Lucy B.,
Thapa Jyoti,
Zipper Carl E.,
Angermeier Paul L., Entrekin Sally A.
Science of The Total Environment. 2023 892 p.164061
Short- and long-term consequences of developmental saline stress: impacts on anuran respiration and behaviour
Kearney Brian D.,
Byrne Phillip G., Reina Richard D.
Royal Society Open Science. 2016 3(2). p.150640
Influence of density and salinity on larval development of salt‐adapted and salt‐naïve frog populations
Albecker Molly A.,
Pahl Matthew,
Smith Melanie,
Wilson Jefferson G., McCoy Michael W.
Ecology and Evolution. 2020 10(5). p.2436
Effects of naphthenic acid exposure on development and liver metabolic processes in anuran tadpoles
Melvin Steven D.,
Lanctôt Chantal M.,
Craig Paul M.,
Moon Thomas W.,
Peru Kerry M.,
Headley John V., Trudeau Vance L.
Environmental Pollution. 2013 177 p.22
Effects of salinity stress on Bufo balearicus and Bufo bufo tadpoles: Tolerance, morphological gill alterations and Na+/K+-ATPase localization
Bernabò Ilaria,
Bonacci Antonella,
Coscarelli Francesca,
Tripepi Manuela, Brunelli Elvira
Aquatic Toxicology. 2013 132-133 p.119
Naphthenic Acid Fraction Compounds Reduce the Reproductive Success of Wood Frogs (Rana Sylvatica)
Robinson Chloe,
Elvidge Chris K.,
Frank Richard A.,
Headley John V.,
Hewitt L. Mark,
Little Alexander G.,
Robinson Stacey A.,
Trudeau Vance L.,
Vander Meulen Ian J., Orihel Diane Michelle
SSRN Electronic Journal . 2022
Variations of salinity during reproduction and development affect ontogenetic trajectories in a coastal amphibian
Lorrain-Soligon Léa,
Bizon Timothé,
Robin Frédéric,
Jankovic Marko, Brischoux François
Environmental Science and Pollution Research. 2024 31(8). p.11735
Effects of Large Temperature Fluctuations on Hatching and Subsequent Development of the Diamondback Moth (Lepidoptera: Plutellidae)
Xing Kun,
Ma Chun-Sen,
Zhao Fei, Han Jv-Cai
Florida Entomologist. 2015 98(2). p.651
Full compensation of growth in salt‐tolerant tadpoles after release from salinity stress
Hsu W.‐T.,
Wu C.‐S.,
Hatch K. A.,
Chang Y.‐M., Kam Y.‐C.
Journal of Zoology. 2018 304(2). p.141
Effects of developmental stress on animal phenotype and performance: a quantitative review
Eyck Harrison J.F.,
Buchanan Katherine L.,
Crino Ondi L., Jessop Tim S.
Biological Reviews. 2019 94(3). p.1143
Effects of Salinity on the Egg Fertilization, Hatching, and Tadpole Growth and Survival Rates of the Thailand Frog (Rana tigerina Dubois, 1981)
Huong Huynh Kim,
Huang Cheng-Ting,
Nam Ho Khanh,
My Nhan Nguyen Thi,
Diep Doan Xuan, Kaiser Horst
Journal of Applied Ichthyology. 2024 2024 p.1
Naphthenic acid fraction compounds reduce the reproductive success of wood frogs (Rana sylvatica) by affecting offspring viability
Robinson C.E.,
Elvidge C.K.,
Frank R.A.,
Headley J.V.,
Hewitt L.M.,
Little A.G.,
Robinson S.A.,
Trudeau V.L.,
Vander Meulen I.J., Orihel D.M.
Environmental Pollution. 2023 316 p.120455
Effects of Salinity and Density on Tadpoles of Two Anurans from the Río Salado, Puebla, Mexico
Woolrich-Piña Guillermo A.,
Smith Geoffrey R., Lemos-Espinal Julio A.
Journal of Herpetology. 2015 49(1). p.17
Sex differences in compensatory and catch-up growth in the mosquitofish Gambusia holbrooki
Livingston Julianne D.,
Kahn Andrew T., Jennions Michael D.
Evolutionary Ecology. 2014 28(4). p.687
Sex reversal and ontogeny under climate change and chemical pollution: are there interactions between the effects of elevated temperature and a xenoestrogen on early development in agile frogs?
Mikó Zsanett,
Nemesházi Edina,
Ujhegyi Nikolett,
Verebélyi Viktória,
Ujszegi János,
Kásler Andrea,
Bertalan Réka,
Vili Nóra,
Gál Zoltán,
Hoffmann Orsolya I.,
Hettyey Attila, Bókony Veronika
Environmental Pollution. 2021 285 p.117464
Impacts of road deicing salts on the early-life growth and development of a stream salmonid: Salt type matters
Hintz William D., Relyea Rick A.
Environmental Pollution. 2017 223 p.409
Alternative competition‐induced digestive strategies yield equal growth, but constrain compensatory growth in red‐eyed treefrog larvae
Bouchard Sarah S.,
O'Leary Chelsea J.,
Wargelin Lindsay J.,
Rodriguez Whitney B.,
Jennings Kadeen X., Warkentin Karen M.
Journal of Experimental Zoology Part A: Ecological Genetics and Physiology. 2015 323(10). p.778
Metabolic costs of altered growth trajectories across life transitions in amphibians
Burraco Pablo,
Valdés Ana Elisa,
Orizaola Germán, Ardia Daniel
Journal of Animal Ecology. 2020 89(3). p.855
Physiological consequences of exposure to salinized roadside ponds on wood frog larvae and adults
Hall Emily M.,
Brady Steven P.,
Mattheus Nichole M.,
Earley Ryan L.,
Diamond Molly, Crespi Erica J.
Biological Conservation. 2017 209 p.98
Physiological Response of Pelophylax nigromaculatus Adults to Salinity Exposure
Park Jun-Kyu, Do Yuno
Animals. 2020 10(9). p.1698
Low salinity increases survival, body weight and development in tadpoles of the Chinese edible frogHoplobatrachus rugulosus
Nakkrasae La-iad,
Phummisutthigoon Sukpaporn, Charoenphandhu Narattaphol
Aquaculture Research. 2016 47(10). p.3109
Freshwater salinization and the evolved tolerance of amphibians
Relyea Rick,
Mattes Brian,
Schermerhorn Candace, Shepard Isaac
Ecology and Evolution. 2024 14(3).
Sensitivity to salinization and acclimation potential of amphibian (Pelophylax perezi) and fish (Lepomis gibbosus) models
Venâncio C.,
Castro B.B.,
Ribeiro R.,
Antunes S.C., Lopes I.
Ecotoxicology and Environmental Safety. 2019 172 p.348
Developmental Stage Affects the Consequences of Transient Salinity Exposure in Toad Tadpoles
Welch Allison M,
Bralley Jordan P,
Reining Ashlyn Q, Infante Allison M
Integrative and Comparative Biology. 2019 59(4). p.1114
Irreversibility of a bad start: early exposure to osmotic stress limits growth and adaptive developmental plasticity
Wu Chi-Shiun,
Gomez-Mestre Ivan, Kam Yeong-Choy
Oecologia. 2012 169(1). p.15
Shifts in sensitivity of amphibian metamorphosis to endocrine disruption: the common frog (Rana temporaria) as a case study
Ruthsatz Katharina,
Dausmann Kathrin H,
Paesler Katharina,
Babos Patricia,
Sabatino Nikita M,
Peck Myron A,
Glos Julian, Cooke Steven
Conservation Physiology. 2020 8(1).
Effects of Salinity on Early Life Stages of the Gulf Coast Toad, Incilius nebulifer (Anura: Bufonidae)
Alexander Laura G.,
Lailvaux Simon P.,
Pechmann Joseph H. K., DeVries Philip J.
Copeia. 2012 2012(1). p.106
“Heat waves” experienced during larval life have species-specific consequences on life-history traits and sexual development in anuran amphibians
Ujszegi János,
Bertalan Réka,
Ujhegyi Nikolett,
Verebélyi Viktória,
Nemesházi Edina,
Mikó Zsanett,
Kásler Andrea,
Herczeg Dávid,
Szederkényi Márk,
Vili Nóra,
Gál Zoltán,
Hoffmann Orsolya I.,
Bókony Veronika, Hettyey Attila
Science of The Total Environment. 2022 835 p.155297
