编辑信息 |
Editors-in-Chief University of Turku Department of Biology, TURKU, Finland Email Mikko Nikinmaa Fish physiology, oxidative stress, temperature, hypoxia, transcriptional regulation, gene expression, evolution physiology, ecophysiology, metals, respiration University of California Davis Department of Environmental Toxicology, Davis, California, United States Email Ronald Tjeerdema Environmental metabolomics, nuclear magnetic resonance, mitochondrial oxidative phosphorylation, multiple stressors, toxicokinetics, comparative biotransformation, early life stage bioassays, petroleum hydrocarbons, oil spill dispersants, pesticides, hazardous algal blooms, fish, invertebratesReview Editor Gothenburg University Department of Biological and Environmental Sciences, Goteborg, Sweden Email Malin Celander Detoxification mechanisms, biotransformation, efflux, mixture effects, chemical interactions, cytochrome P450, nuclear receptors, gene regulation, protein functions, fish, hepatic cellsAssociate Editors Leiden University Institute of Environmental Sciences, Leiden, Netherlands Email Willie Peijnenburg Risk assessment; Ecological risk assessment; Environmental fate and effect assessment; Nanoparticles; Bioavailability; Metals; Organics; Quantitative structure-activity relationships (QSARs); Transformation of chemical substances; Biodegradation; Abiotic transformationsResearch Center for Eco-Environmental Sciences,State Key Laboratory of Environmental Chemistry and Ecotoxicology,Chinese Academy of Sciences (CAS), Beijing, China Email Qunfang Zhou emerging chemicals, endocrine disrupting effects, neurotoxicity, developmental toxicity, carcinogenesis, nanotoxicity, hemotatoxicity, adipogenesis Editorial Board ![Augustine Arukwe](data:image/jpeg;base64,/9j/4AAQSkZJRgABAQEAZABkAAD//gAeTEVBRCBUZWNobm9sb2dpZXMgSW5jLiBWMS4wMf/bAEMACAYGBwYFCAcHBwkJCAoMFA0MCwsMGRITDxQdGh8eHRocHCAkLicgIiwjHBwoNyksMDE0NDQfJzk9ODI8LjM0Mv/bAEMBCQkJDAsMGA0NGDIhHCEyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMv/AABEIAGQAZAMBIgACEQEDEQH/xAAcAAABBAMBAAAAAAAAAAAAAAAHAAMFBgECBAj/xAA/EAABAwIEAwUEBwQLAAAAAAABAgMEABEFBhIhMUFRBxMiYXEygZGhFCNCscHR8BUkM1IlNFNiZHKSo7PC8f/EABkBAAMBAQEAAAAAAAAAAAAAAAIDBAABBf/EACURAAICAgIBBAIDAAAAAAAAAAABAhEDMRIhBBQiMkEzwWFxsf/aAAwDAQACEQMRAD8AMEd8u6kOICH2/wCIgG4/zA80nkfXzp+tJMcuaVtkJfb2bUeFuaT1B+XGtWXg83qsUqBstJ2KVdD+B5jcbGiBHDxrFZvWKxwxWK55+IRMMhuSpr6WWEcVqPE9AOZ5VVJecHpCFKjAxGTulS0guqHW24T77n0rjaRkm9FytethccQb+lBfGH8SmqK047OKR9lTpA+CbVDwsYzHhUsKh4q/e4OlxzvEq9Qo0DyxT2M9PNrR6APGtDVYynnBvHj9DmMpi4khNy3e6XRzKD+B39RwtJFGnfYpprpmhAAJPAC9B/tjld7hUNJP8SUSPQIP50WMQc7uIQDZS/uoFdtM4suYRHSP7Vfp7IrM0dgyNrmlXCXlKN7UqXQ49x1zPNKLnftgd4B4k8nB08z5+6umsframixhDiXUhaSSDtvx/wDRwrb04024gtLLyRcWu4kcx1HnUbmOcvD8vS5DQJdKAhvTx1K2H31jgP8ANOLpxPGVrcJXFiqKI6SfDf7S/U/daq3KxIqJKTf0rXFpbbDQQV7gADz86q68dEdzeN3iBtcK3qabbLMSSJz9pOLXoWAQTUzg0VqQdazpIuCVC9qrcOdGnFPdKNzuUqFlJ9auGCvRkNFEg8dk1Ol7uypt8eiYewSLHjtTMNl6pbRDiFo2UlXKrzgOKIxrCm5IAS6CW3kJOyFjjby4EetVhmKw2yFBBsU7jqKdy5Ibw/GcSitrBD7KXgOi0kJPyUPhVcFxZBk9ytk7PcDkg24J8NAfthb14/hhJukxVWHSy7UcXhpQL+vvoIdr22MYOesRw/7ppz0Tw2DhTCQaVZWs6uI+FKlDj2xSpVinCzB/Q60Ls2YtKfzorCkSltYe2lCe5QrT3jpTrUfOwIooqvy40FswNuI7Q8WnuA2bQtpKTwSLJCSPUGl5G0kMxJX2QmMYniEh5cZMxwsoIKEHxaeXHifjVRlS3EyW2nVtOaiQ6pZIseR41aXXWG1EuqIJ3Ok2NQkp2BJmttIQVvrVYFRH5VNLI+VUVRwqrTI/DQp+T9WktrKygAeLUenlt99PY5JfYxBLCZbiFI21A2ubne/OxBF6smCQWoUwqUttKr6UDbffeu/PGUnZmNKfY7tDrhNk32Vq3vtvQppuw3FqNWR+XpeIxorcz9pPPpUCC06bJtzIPA+6r1lhS3M0BSgU3irXuLbEp+PrQ+w/KrpYTDEVSZDarrWh06ED+8m253+FW7JKo2CZpVgwS9IkyGD9aVEoaQjfYcgVHhTIu5ITkTUH0EKWfqz6Ggp2vp/pjBh/gl/8qqNEtXhvQL7VpofzezGBv9FhoR71KUo/eKqkRQKg1+zg0kP6e8tvqK/+u1Ko9dys2pUniXR8il8Ee2hwpVqOHlWaeRmD6XoedpyI7UJt5MYJlODSqQEe0kG+nV18ulqIZ41Te0mC5KysXmwSY7gUQP5Tt95TQyXQUX2gB4g4864br0IJ43piG2wtlwosrkTzrpkp71WlVtNxuBXc2xAjRv6o2onieCvjcVM0itdvZCRo+IrdDEbvVDVYEm9vyq1YmxmGDltpU+f9IQ08lxloAam7cTeufDkYBJkNpEufCWdlabLHwNvvrrxhjEoqUpROblwiqyS43ocSPntQOmM7iWTA86Nz8JWmUUd8E7r5qqx5OwtsNqx10EyZTfdpum2hGoqI95t8KEeXsEfnZkYgMqKW3XBrUPspvdR9wBNegEMtw4jcdtOltpASkHkB+vnTMMHdk/kZElRzupU/JQ0j2lG1BHtcgNwu0F1LSbByIysnqbEX+VH/AAyL4jKc9pXsjy60F+2toDO0NzT7cBPyWsfjVDJIbBaUb0qeUlN+NqVLGnshpepApy9ccRzW2Deuu/GnAJmeY48eRqv5vxGFEy5OYlPhLj8VwNtp3KthuB0BKQT51NvyGYzDj8h1DTLaSpa1myUgcST0oBYrnmFjXaE86+4UYTIjmAlxY9hJsQ5bl4gD6HyrVZvsqsuRcuC+laTvba9qYOJtBspWSed+tPY5h0iFPcYfBS6NwRwUOoPMfnVWlMOpVqBNunSkOtFCtdouWEpjPWdRICVJBUAakMTlo0AJWt1RI8PHfpQ9iuSAQhKikcTYVdcKcZhwnJsgW7pBWNZupRtt86Dgkw1kbCt2b4CxCwNGMKdakSpyLhxs3Dab+wPPbfzsOVW8oLriUDmd/SgfkfMeL4DkX6bGKHmGJ5Q4w9fSUuJ2ItwIUg/6qtkXtigslK5mESUm1iWXUqA9xAqlKkRzdsLCBpGw2HhHpQM7eAUY/gzo4KiOJ+C7/jREwvtLytiaABiP0ZZ30yUFHz4fOqP23JblNYLiEV5l5lIdb1trC+JSeW3KhbNDYGdaeZN/SlWVEXpUuxx65wl8qaAO3IU1mnNkDKeE/TJpK3F3SzHT7Tqug8vOhHjPa29FWuPl6MyoJNjJkDVq80pHLzPwod4xmTFcflqm4pLU+8RpBIACR0A5DyFObExiS+Z+0fMGZ3no8uUGoJN0xGQAjqNR4qttufhVOecKudarIS6pROxFYJChsQa4mwy05fzHHksN4LjqlKjDaPK+3HPS/wDLUji2U8ShhTrTJlxxv3rAvpHmPPrwqglO/CrvlrOs2NhKsJKne88KGXUKspLf2k3624epo+MMiqXX8nYzcSOhS0sJWksBXUkU3jWIGU23AjAqU4oBQHPyq9ZhjxcWw2RMjYeuO4yz3qHFoJJsLkKV9oEA7ne/wrjyxlpzDssPZ0kNIW7f9zZdFwUk2ufXf3CgXjSU1HY55FKNkzEbwzCclycqyZGjFpcMSmWigkFSCSkEjYE6Tx60P7pdQlaTdKhcen6NYjTpbmbY+N4o4VtOSEh5ZFgEXsbDkAOXlWSyqJ3jFwVMOrZJ80qI/C9U5Y0TNUcbrSmSVtmwHECnGpKtNwQAeKQL1uqQkJJKSFJ4g/aqMbe0yL8ATw6eVIdWayW+jMO+NTSLnpSrpbQC2kjmKVbijWVy51GmnyS3SpUIYwgBQIPSnw0hLQIFKlWOGqAFKN+QpIGl5JGxvSpUSMEDL2MTp2BYvh8h9S44jOAJJ4eE1f8ALX7z2JYah3xJ0LFj5OKtSpVavnAF6HUYLhzmS3ULitq+pUoEjcGx3FBbDLrZeSok2WePoKVKg8j9s59HRChszcagRHgSy/JbbWAbXSVAH5V2Z7wSFgWZHI0FK0taEKAUsqsSevupUq8ucn6qMb6p/wCodH8T/tfsai7sJpUqVWx0CtH/2Q==) Augustine ArukweNorwegian University of Science and Technology, Trondheim, Norway Endocrine disruption, Cytochrome P450s, AhR-ER interactions, Developmental toxicology, Emerging contaminants, GenomicsCarlos BarataInstitute of Environmental Assessment and Water Research, Barcelona, Spain Analytical chemistry; Aquatic toxicology; Environmental risk assessment; Toxicogenomics![Mace Barron](data:image/png;base64,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Mace BarronNational Health and Environmental Effects Research Laboratory Gulf Ecology Division, Gulf Breeze, Florida, United States Petroleum ecotoxicology and chemistry, photoenhanced toxicity, bioaccumulation, QSAR, predictive ecotoxicology, mode of actionThomas BraunbeckHeidelberg University, Heidelberg, Germany![Karen Burnett](data:image/jpeg;base64,/9j/4AAQSkZJRgABAQEASABIAAD//gAeTEVBRCBUZWNobm9sb2dpZXMgSW5jLiBWMS4wMf/bAEMACAYGBwYFCAcHBwkJCAoMFA0MCwsMGRITDxQdGh8eHRocHCAkLicgIiwjHBwoNyksMDE0NDQfJzk9ODI8LjM0Mv/bAEMBCQkJDAsMGA0NGDIhHCEyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMv/AABEIAGQAZAMBIgACEQEDEQH/xAAcAAABBQEBAQAAAAAAAAAAAAAGAAMEBQcCAQj/xAA7EAACAQMCAwYDBgQFBQAAAAABAgMABBEFEgYhMRMiQVFhcTKBkQcUI0KhsRXB0fAkM1Jy8RZiksLh/8QAGgEAAwEBAQEAAAAAAAAAAAAAAwQFAQIABv/EACURAAICAgICAgIDAQAAAAAAAAABAhEDBBIhMVETQSJhBVKBof/aAAwDAQACEQMRAD8ANsUttO7a9xyq9ZCGdtebTTrLioj3MaOysQCB4mscq8mqLZzPOkSFmKk4J5nAAHUk9APWhHU/tB0CyYxtcSXUg6i3Xu/+Rxn5VT8aS6rrl0NO02Zkt+QZN/xk5zuwOfUYHQetD1xwLbaParPqd001y/NYEO1c+p6/tSOXcSlSKGLUbVsKrHjbRNWult47aSNn5AGEsSfIYzRBbanplpchBew2se3LRTOUYfJudZhYwDT5x9yjiSVuQlwxKeoJqvv2Fzcq972kwY7DMDhl559v0oK23YeWqqN6huYLhBJBNFIh/Mjgj6inuQ/l61hEA1fhkpqVlcObUvjtU6A/6XHT65FaRonGUGrWO7YVu05Spz2r5EeYP/OKdxbEJr9iOXVlBhZJNHEpZ2wBXSd5Qw6Gha5vZLm4to94YySrhemefPPyovC93y5dBR4zsBOHFdjWPSlT2KVbZzRJxS207g1y46+lccjaIs5VU5kj1oB4l11IpGgiQdoTgOTk1f8AEOqJZWckwYtIFPPPw1lEl8bm7a4+M9AOnr+9KZ8qapDmvip2wy0iRba3kuXx25Hj+gqFPG+pXKyzsGUtgsfE+AHtVMupmRlj7RcDLMf0H6VMiu5NY1C1tYO5HGSzN+mR5cqj5LXbLeKFqkE9nw6kqzNjveBJ8B0/c1Q3HDIa0uMqctICF/2/3ij23064stK++TKwTI/DPXaPE1AMmLpZLmMi3kwUYDIOcnw9zS8crsaeFceiHoWgqumTxzhdroFdGXIYdMEUM6low0LU/wAJHW1YbY9gJ7M9SB55NaZaGOWHEeAem7PgxyCfnuqu1Sw7dJLeeGRAfAHDA+amiQzSUumLTxprtFFpF7ZQkyyLmfcCWwQoHuaNLG6W8jLDacdSDWarFc6ZqHZrI4HxAspUkfQfWjzhsKbIALhgoMmOmfSrmtm5qiJtYeHZcYpU5tpU3YkSttMzxs8ewZGeRI8qlYpFaFZ3RnXGcaQ2yxdmGXbvYHx9DWTXt/HHKQsKruPIA9K2H7SzJa6M0qIXaXKDl0AFYDM0vbAzA5cciemPMUjmpSoo4LcbCvhZU1HUIvvMQeMknYDjOOnyrUzcW2lRh7DSbeQK2ZPucqyOh/7gMkUDfZ7olpqsEkUzuoYALsOCfPnWq23DGlaBYSTRWkKtjdvXAY/Qe3n86lZ3HlRb11JQTOtO1xNZ06SaNWkhRAGUrknnzBHU1FbWbDVLxLF9OuEZO6FZSowOnLw8af4KWGOwu1RV7OS5cqR4j+lN33Amn39+JbiOYEHcskMrDHp1/rS680Mya8Deo2f8Kt2mtS/ZDcJI5BzGcY9/SqeXihQyRO8m11ADEjA9M+HtRy+mpFozafPPJOChQSS83xjlk1g15eGbVrrTJ+48UpAYePqP76V3j7Fsn1QbzIZJFVpZGhmJXv8A5WPl4VccJpOZJw3+Wg2sBzGQeXOg/T9TW5smVpsPEoIB599f64NaPw3byR6YssgXdOxkwvIAH09gKsaXsjb349MtMUq7xSqjyJdEjFLFe0s0DkG4gl9oVs83DWUbaFmQ5x06gfSvnjXb0ST9h2XZyRHvgdC3mPL28etfU+q2EeqabcWUpISZSMjwPhXzxxxwNq2h3M19LH21m8n+cnQZ8x4Utmg3K0OYJpRpkzgDWI9Pu4xKwCOORJ8a0Di7jm0sbBLPtXMs4POMBjGo/N7+lZt9n2m22o30P3xd8aSrGyZxncSAf2ru94fv4eKLi0vbNViM5RJGLbWG7u8wDjIqbOEJZey5hnJYUvf/AA1DgHXdOn4cjVLr/ExZ3xbSWfn8QA5n5UXwa4IblYLhMdou+GQrt3Dy5+OOeKG+ENKbR9KY2tppUBOA8iTsxf1J6n51YXVnfahqEPbwwJBFJkSxOSzkg55Ech05+dLZJJ20MqpdTJmuahs0u6lV8FVJLZ6etfOsUkutcQo0H4knMNJ0BxyyfTHOth431mPQdIFjHEJHvUkhbefgQrgsPryrLVvk0rTdmmwIklyTGZeu1enXxNd6/hi+xS8fQ5pd5961lreNERtrgShviwDg/P8AnW+6VbG10q1gPxJEoOfA1m32ecFlpjqd/H+ChXYrLjew5g+wIFasAMY9qta8eMT5/an8kjzbSr3FKj8hXidkgDOeVLoMkch4+FZgC5Rrho5bkFtrs8hYE+XU11FqG2EhFLEk5RnyCPSlvkY78L9hve8R6ZZMUe47Rx1WIbj+nKhvU+KBqtpPZLYIY5lKEzNuyCOeRjxqhneN0GyGNcdQARUVQu4d4r4ZFe5No1YlFlINKl4YU3ccv4DlVXK81O7KnPj0q5S7m1zXjqmnSq6Kd0kZyCUY56+hJHSqnimdo9NggLlg8vLJ8gf51RaPq0+kXy3MDYYfEh/Mvt+tJ5cfmSKerlqos3jSbX8LcI4xvA3bVxmrnuxKoyAo5AUE8L8Xza3cpbWtqN5HM7gAP5/pRpFYyNdmWeTeE+FQMKPlUyfTplPJNN9mSfaUJLzX5bE20zy9hD2LA4RFJZmz5nkg+tV3D+kWWn3i3GpRNdJCo7OLPIvn4j/xRXxi5Xiec55BEUH5eX99apQQSw6DwPh9ara+NRimRNjK3NoM7bjS2GEWxdIhjbiTJA9umasTxdpICEzSgt4dkeXvWcrIFOzujJ8eVPmUbD3htxj++dNKTXQn8cX2Hf8A1lpn5Y7ph5iL/wC0qzto4wejfIUq3kZwRa/cZXXmR2Zxybl9Rimzp8sXeUrjGSAen866u9V0LTYmkn1e8aQEhYjh2LY/3efjQiePLVYmePS5kuWyp/xJIT1zjx8aEozflDFphSkDljmRB4Z3ZyPHpmhfiDii10om2tUS6uwMbo3yifTqaGdV4g1TVXbt7lhGTyVCQPTPPJxVORuXHIHrRliOHILha61xMIbuO0kaB8rE+3CcviXJ8QSPrV1w9wgL25vba43JqFoyjsTzUj1HiKqeAuLRod6bO/Zjpd0V7YcyYnzhZVHpzBHiD7Vr17YCz4o03WLXvF1EVwYzkSIeat65yP0qfuOcG/RR04wkv2OaHYR2VwFigSAgYIRRg0ZRKWAB61FubJFJmiGAO8BUyKeMRiQnGVBHzqV5fY3OVxVAbxdo08tx/ErVVcKoSZSM4xzB+n7UKrZW0jKZp4xuycKuCP1rWlkTsmjcL3iTg/tWdcSfxDhWxur5Gs7qySZDFFICsjF22hD+U4AYgnwFUdXM2ljYjmxJJyZSPFp7yPBHO5K4ALJu5n9aYWwaNW2lpEGMkIT4Zq103iex1e1SdIIOhEg7IF0JHRsnu+/KnpLq2lY5YqCD8Chf/blT6jk9CTcPFlIYGQ7TGfmppVcy3umdwS3AjKqAF2RDl9aVbU/6mfh7MVIIaY7mPXOT196axljn83WlSp6PgFj8f4eAd7HhTT8nNKlQ2di+CXunBAyCOtbn9ld/cajwvPFctu/h90kVu/5ljcMShPiAQceWTSpUpupPAM6zan0aVcSMbdlzgEY5e1JEUqiEd0NSpVA+yr9D5hRuZXnWQ/bTfTpqel6YrAWogacr/qcllyfYLge586VKqP8AHpPIhLab4GPT3M+n3QurWZ4piPiU/wB5or0LV7rU7ZmuSpZR1Axn3pUqsJ9kjOlwsG+Kp5G1xwXOFjQDHtn+dKlSocm7YaCXFH//2Q==) Karen BurnettCollege of Charleston, Charleston, South Carolina, United States Immunology, cell biology and cell signaling, genetics, transcriptomicsKevin ChipmanUniversity of Birmingham School of Biosciences, Birmingham, United Kingdom![D.E. Hinton](data:image/jpeg;base64,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) D.E. HintonDuke University, Durham, North Carolina, United States Fish pathobiology, developmental toxicology, later life consequences, carcinogenesis, structure function, stereology, metals, nanomaterials, PAHs, mixtures![David M. Janz](data:image/jpeg;base64,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) David M. JanzUniversity of Saskatchewan, Saskatoon, Saskatchewan, Canada Aquatic ecotoxicology, mechanisms of developmental and reproductive toxicity in fishes, reproductive endocrinology, fish physiologyMark HahnWoods Hole Oceanographic Institution, Woods Hole, Massachusetts, United States![Margaret James](data:image/jpeg;base64,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Margaret JamesUniversity of Florida Department of Medicinal Chemistry, Gainesville, Florida, United States Xenobiotic biotransformation in aquatic animals, phase II metabolism, PCBs, organochlorine pesticides, endocrine disruptors, steroid – xenobiotic interactionsK.M. KleinowLouisiana State University, Baton Rouge, Louisiana, United StatesK.R. CooperRutgers The State University of New Jersey, New Brunswick, New Jersey, United StatesBodil KorsgaardUniversity of Southern Denmark, Odense, Denmark![Gerald LeBlanc](data:image/jpeg;base64,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) Gerald LeBlancNorth Carolina State University, Raleigh, North Carolina, United States Environmental endocrine toxicology, mixtures toxicology, crustacean toxicology![Jae-Seong Lee, PhD](data:image/jpeg;base64,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) Jae-Seong Lee, PhDSung Kyun Kwan University College of Natural Science, Suwon, Korea, Republic ofMolecular ecotoxicology, comparative genomics, rotifers, copepods, killifish, oxidative stress, mechanistic toxicity, lipid metabolism, microplastics, emerging chemicals, ocean acidification![Peeter Pärt](data:image/jpeg;base64,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) Peeter PärtEuropean Commission Joint Research Centre Ispra Sector, Ispra, Italy Fish physiology, aquatic toxicology, ecotoxicology, in vitro toxicology, epithelial transport, epithelial biology, gill physiology, bioavailabilityR.J. van BenedenUniversity of Maine, Orono, Maine, United States![Francesco Regoli](data:image/jpeg;base64,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Francesco RegoliPolytechnic University of Marche, Ancona, Italy Marine organisms as bioindicators of chemical pollution and environmental disturbance, with particular emphasis to ecotoxicological effects, molecular and cellular responses, emerging pollutants, trophic transfer of chemicals, oil and chemical spills, vulnerability of polar areas, impact of dredging and off-shore activities, algal toxins, models of ecological risk assessmen![Daniel Schlenk](data:image/jpeg;base64,/9j/4AAQSkZJRgABAQEAYABgAAD//gAeTEVBRCBUZWNobm9sb2dpZXMgSW5jLiBWMS4wMf/bAEMACAYGBwYFCAcHBwkJCAoMFA0MCwsMGRITDxQdGh8eHRocHCAkLicgIiwjHBwoNyksMDE0NDQfJzk9ODI8LjM0Mv/bAEMBCQkJDAsMGA0NGDIhHCEyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMjIyMv/AABEIAGQAZAMBIgACEQEDEQH/xAAbAAABBQEBAAAAAAAAAAAAAAAFAAIDBAYBB//EADoQAAIBAwMCBAUCBAILAAAAAAECAwAEEQUSITFRBhMiQRQyYXGBQpEVUqHRIyQzNENTcoKSscHh8P/EABoBAAIDAQEAAAAAAAAAAAAAAAIDAAQFAQb/xAAmEQACAQIGAwACAwAAAAAAAAAAAQIDEQQSEyExURQiMkFhFTOh/9oADAMBAAIRAxEAPwAHI5BGDmuK5BwTwTUpVSCcYJrjR5UccjmvL27NW7FuxjnI+lLczHgniuqmE6cVTuLgtcpbw7tzN1AzmjpUdR2QE55Fcfd3nw6AKheVgdqj3P8A5qWy0rXL6MF9turfzcsf7Ub0zSEjk+IdA8xAwf5R2HatNaWysQG9I7CrGWFP1ir/ALJGLl9GIk8I3LjLXjkgUPudO1Wx3Y/zEa9vmr2uLSbJrEmTAcjvWXv7NYy4Cgk0Tcl9WYUVGXB51a6lHNlMMrr8wI6fWrW4k555qbXtIEwa5twEuFGeOjj60OsJ/MURsx34ztbr9qCdGMoOcNgbyjJJlsP/ANqaZeMDIp6xe/t0rhj9WcgDNVkkwhobIBJ5pU4QkjIP9KVTbog34mFxkOAPvT1uI8Z8xO3zViP4wc/Mo/5a4usEc7kq88ExepFG6M8YQkOu4DIXPWlpFkkCm6di8r5G49zWQsL43F2E9OSGwc9K2EZAijWPOAck5pkKOjBtPdinLPUS/BqtPb/CBBB6fiisEzb+gJz3oHpzxC3PmSBcn3NFory2hIYMjEHoDScpZ5C3nuV/0m0fUUNupNxYHLYqcX8ExLFgAB0qG4ureVVC4Brr4DjGzAWooPKYqDjtj2rI6rEsTR3CYDbh0raX+zynVX3fasTqmWgk4yc8UdG6kjlZJwYQUjbnPXpXNo4Py81m/wCO+WxRpm9PUYqRfEUZIBuSB9QKT4VS90xOsjReZj2NKgI1qDH+tj/pX+9Kp4FUmsgO3ho54c0w+GnHSQ1tXAxwK7sXoQMUnzqvY10YdGZstFitrWcx3SNecegjAXByRmiml6kPhQLhHVucbVyDTZkWB3YIGZmCj7n/AONT6bHiNbeY7cj1Cr+o3C7FSpqMk0dub+UbEJC/TqaFNfSxS+ZDdl8HBBPv2rSfBxxkcKr4+Zx1qpLpkbAtuRjnOI0JOa7Fr8gtNFzTdXaewld5NrRLlutBLrVrm4kCrM0S993X61rdBsW07w/eLcJmaYAyE8n7VlBpXlM0M49SnaC4xkdRj8VI5bjm5ONy3b3rogTfvb/j5NVNRuEcqm8GQsRsB5zVqLTIlKkbQw6YOaZdwC1ILBclyQccj81y6UtjmVtWMbqlhf2l0TIud/qGDn8VQJuV4w+a30dormQ4yDg5PPtXRYRsvCqT9qGeN03Zo5LDK+zMB5s49m/alW+/hsX+7T9qVD/Ix6/0DxX2Gdqn2roRcdKh81QO9OEy4GD1rGyss3I5LFbqVUPCkjdjr9xVBm8u8fGTtPJPvRMPtfOSCeM9qGX+5ZwzEesEHArRoVLxUXyLn2H01uGC3DOqkKOpANCW16ae4W7cbbVD8i+nNBNQcrFGAGKcnHftmqwZ3QRvHLg+23irlOPYEp9G0t/FFs9i8bNw2ePt0oc2rMpE8KebDg+arc/kdqzXwqqchZQMdNpqRLgW0bxjeAw6YNE4q4xSlbdG2hurCe2M0MaK57AUAvBJezui/qG3PbmqmnM4jZl3BSOB+aJaej/FCRP9l7nvSJel2xyleNyzHbsqYI2k9VPt9K6YiGA6/WrIx1PU9TTevy1k1KjnJsFvcrCOQ59IHPHNKrGPxSoc36BuCIXJzngY/enM7q529D70yKEq+R8o6U549+FOeK0Nrlfcmi3JGMsWycnNV758orHPB7+xFTxhziMKS54UAdftU2saebXTYTNzM8mcfQDpR0aTcrkc1wwRIfMi6dj9qKQPviV0AJ70GWQorqagttXMEghbjngZq4ot7I45ZQ40t6ZCduVGPbpU08iiATOo3Y9qEDXCHPqGHGMClcaokwjjB4Yc11wYyNWy5JrWZfhAQMbSf/VEbQmK3B/m9ZoRIwKrGvQDk96JwZ+GjwOAvWquIi5RQUnZItM/p4OaQlKjBqAkheCP3risGJGRkfWqWmgcxbEyn3pVTUHHPWlQ6SJmZJBby3DLHBGztjoi5rR6Z4Ju7mRZL6T4aLg7QMuR9vat4lpBp9ufhbeOFVHAUcn800zB40lYtj3Ge1blLAQi80t2ZlTGSa9NgK/h3TtPZUtYtrAZLsckmsB4rldvEnwe7KQ2qNt9ssx5/YCvT7mfzZN2OteP65c+b491ZW/T5ca/ZVH96sVYqNNpC8M3OqnIpsh3Ee+aGajYNJtdeG7gc0XkbDbiMAGnIyTYUkZqpGTW6NOUMxkPg7jzMLvo3p9iYwJJhmT+gor8KkRycZ7muSOvCp+aKVRtBww9hix7uMHArXeH9OjurO3WZfTKhHP0rJPJ5VuzDluAB3J4A/JwK9K0rTDbw2kH6oo1U/fHNSlHNyDjJZYpLkB3/hPULYs8QE6JyQvzYoDJG0ZbI2sOCGHOex7V7KIlhRFwSApGc81ntZ8O2+pkkYimIDRS44cdjQ1sEuYclGniW/owEZwgyOaVS3Wm3dlcNBPDIsi9RilVHTl0XM8ez1ydi8eT3qGDDb1I4zilSrfRispakohb0ewzmvKfHKJB4xikjUK0lurPj9Ryev7UqVBV+WOwv9hTdQyZNVGOw5X2pUqz0bJMrtKMsaSe5pUq4WlwT6UoufFelW8gzGZmcjuUUsufyB+1e1aPEkkjswyV6UqVW6PBk4x+xPqTlIUC8b2INVllZ51Q4wBn+lKlT4mfILGCGVVaSJHbb1YZpUqVMsgLn//Z) Daniel SchlenkUniversity of California Riverside, Riverside, California, United States Biochemical mechanisms that influence susceptibility to environmental stress, anthropogenic and natural chemicals![Helmut Segner](data:image/jpeg;base64,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) Helmut SegnerUniversity of Bern, Bern, Switzerland Aquatic ecotoxicology, cytoprotective systems, hormone-active chemicals![Inna 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Inna SokolovaUniversity of Rostock, Rostock, Germany Environmental physiology and toxicology of marine organisms, adaptation to environmental stressors, effects of environmental change![Jennifer Stauber](data:image/jpeg;base64,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) Jennifer StauberCSIRO Land and Water Lucas Heights, Lucas Heights, Australia Ecotoxicology of metals; Metal bioavailability and toxicity to marine and freshwater biota; Contaminants; Chemicals risk assessment; Environmental regulationJohn StegemanWoods Hole Oceanographic Institution, Woods Hole, Massachusetts, United States![Wen-Xiong Wang](data:image/jpeg;base64,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) Wen-Xiong WangHong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong KongMetals, Ecotoxicology, Pollution, Biogeochemistry, NanotoxicologyKristie WillettUniversity of Mississippi Department of Biomolecular Sciences Division of Pharmacology, Jackson, Mississippi, United States![Chris Wood](data:image/jpeg;base64,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) Chris WoodThe University of British Columbia, Vancouver, British Columbia, Canada Aquatic toxicology; metals; ammonia; environmental acidification; climate change; comparative physiology; fish; crustaceans; environmental regulations![Bingsheng 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Bingsheng ZhouInstitute of Hydrobiology Chinese Academy of Sciences, Wuhan, China Fish; In vitro toxicology; Developmental and reproductive toxicology; Neurotoxicology; Oxidative stress; Molecular response and adverse outcome; Endocrine disruptors; Emerging pollutants; Nanoparticles and toxicity
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