Biblio
“Chronic perfluorooctanesulphonic acid (PFOS) exposure produces estrogenic effects in zebrafish.”, Environ Pollut, vol. 218, 2016.
, “Chronic perfluorooctanesulphonic acid (PFOS) exposure produces estrogenic effects in zebrafish.”, Environ Pollut, vol. 218, pp. 702-708, 2016.
, “Chronic PFOS exposures induce life stage-specific behavioral deficits in adult zebrafish and produce malformation and behavioral deficits in F1 offspring.”, Environ Toxicol Chem, vol. 32, no. 1, pp. 201-6, 2013.
, “Chronic PFOS exposures induce life stage-specific behavioral deficits in adult zebrafish and produce malformation and behavioral deficits in F1 offspring”, Environmental Toxicology and Chemistry, vol. 157, no. 4, pp. 201 - 206, 2013.
, “Chronic zebrafish PFOS exposure alters sex ratio and maternal related effects in F1 offspring”, Environmental Toxicology and Chemistry, vol. 30, no. 9, pp. 2073 - 2080, 2011.
, “Chronic zebrafish PFOS exposure alters sex ratio and maternal related effects in F1 offspring.”, Environ Toxicol Chem, vol. 30, no. 9, pp. 2073-80, 2011.
, “Developmental and behavioral alterations in zebrafish embryonically exposed to valproic acid (VPA): An aquatic model for autism.”, Neurotoxicol Teratol, vol. 66, pp. 8-16, 2018.
, “Developmental bisphenol A exposure impairs sperm function and reproduction in zebrafish.”, Chemosphere, vol. 169, pp. 262-270, 2017.
, “Early life perfluorooctanesulphonic acid (PFOS) exposure impairs zebrafish organogenesis.”, Aquat Toxicol, vol. 150, pp. 124-32, 2014.
, “Early life perfluorooctanesulphonic acid (PFOS) exposure impairs zebrafish organogenesis”, Aquatic Toxicology, vol. 150, pp. 124 - 132, 2014.
, “Early life stage trimethyltin exposure induces ADP-ribosylation factor expression and perturbs the vascular system in zebrafish.”, Toxicology, vol. 302, no. 2-3, pp. 129-39, 2012.
, “Early life stage trimethyltin exposure induces ADP-ribosylation factor expression and perturbs the vascular system in zebrafish”, Toxicology, vol. 302, no. 2-3, pp. 129 - 139, 2012.
, “Optimization of activation, collection, dilution, and storage methods for zebrafish sperm”, Aquaculture, vol. 290, pp. 165–171, 2009.
, “Phenanthrene and fluorene-mediated early developmental toxicity in zebrafish.”, Fresenius Environmental Bulletin, vol. 19, pp. 57–62, 2010.
“Polycyclic aromatic hydrocarbons in water, sediment, soil, and plants of the Aojiang River waterway in Wenzhou, China”, Journal of Hazardous Materials, vol. 173, no. 1-3, pp. 75 - 81, 2010.
, “Polycyclic aromatic hydrocarbons in water, sediment, soil, and plants of the Aojiang River waterway in Wenzhou, China.”, J Hazard Mater, vol. 173, no. 1-3, pp. 75-81, 2010.
, “Reproductive toxicity of low level bisphenol A exposures in a two-generation zebrafish assay: Evidence of male-specific effects.”, Aquat Toxicol, vol. 169, pp. 204-14, 2015.
, “Reproductive toxicity of low level bisphenol A exposures in a two-generation zebrafish assay: Evidence of male-specific effects”, Aquatic Toxicology, vol. 169, pp. 204 - 214, 2015.
, “TBBPA chronic exposure produces sex-specific neurobehavioral and social interaction changes in adult zebrafish”, Neurotoxicology and Teratology, vol. 56, pp. 9 - 15, 2016.
, “TBBPA chronic exposure produces sex-specific neurobehavioral and social interaction changes in adult zebrafish.”, Neurotoxicol Teratol, vol. 56, 2016.
, “TBBPA chronic exposure produces sex-specific neurobehavioral and social interaction changes in adult zebrafish.”, Neurotoxicol Teratol, vol. 56, pp. 9-15, 2016.
, “TBBPA exposure during a sensitive developmental window produces neurobehavioral changes in larval zebrafish.”, Environ Pollut, vol. 216, 2016.
, “TBBPA exposure during a sensitive developmental window produces neurobehavioral changes in larval zebrafish.”, Environ Pollut, vol. 216, pp. 53-63, 2016.
, “TBBPA exposure during a sensitive developmental window produces neurobehavioral changes in larval zebrafish”, Environmental Pollution, vol. 216, pp. 53 - 63, 2016.
, “Toxicity, uptake kinetics and behavior assessment in zebrafish embryos following exposure to perfluorooctanesulphonicacid (PFOS).”, Aquat Toxicol, vol. 98, no. 2, pp. 139-47, 2010.
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