Mercury and Selenium in Blood and Epidermis of Bottlenose Dolphins (Tursiops truncatus) from Sarasota Bay, FL: Interaction and Relevance to Life History and Hematologic Parameters
Blood and epidermal biopsies from free-ranging Tursiops truncatus captured and released during either summer or winter health assessments in Sarasota Bay, FL, were evaluated for concentrations of mercury, selenium, stable isotopes (δ 13 C and δ 15 N), and blood glutathione peroxidase activity in con...
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| Published in | EcoHealth Vol. 5; no. 3; pp. 360 - 370 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Springer-Verlag
01.09.2008
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1612-9202 1612-9210 1612-9210 |
| DOI | 10.1007/s10393-008-0164-2 |
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| Abstract | Blood and epidermal biopsies from free-ranging
Tursiops truncatus
captured and released during either summer or winter health assessments in Sarasota Bay, FL, were evaluated for concentrations of mercury, selenium, stable isotopes (δ
13
C and δ
15
N), and blood glutathione peroxidase activity in conjunction with routine hematology and serum chemistry panels. Major objectives were to: 1) quantify and describe relationships among mercury, selenium, glutathione peroxidase, and stable isotopes of C and N in blood and epidermis; 2) elucidate major parameters that influence blood mercury and glutathione peroxidase activity; 3) relate measures of tissue mercury, selenium, and glutathione peroxidase to specific ecological, hematological, morphological, or life history parameters, including season, sex, age, and trophic level. Mercury in both tissues examined is almost exclusively methylmercury. Epidermal concentrations of mercury and selenium reflect their respective amounts in blood, albeit at several times blood concentrations of mercury. The strong association between blood mercury and serum selenium, in conjunction with a lack of significant correlation between blood mercury and glutathione peroxidase, implies that a substantial proportion of blood mercury is affiliated with another selenium-containing moiety or is related to recent dietary intakes (e.g., trophic level, intensive fish consumption). Circulating blood mercury may be described in terms of serum selenium concentration, along with interaction terms among serum selenium, blood δ
15
N, and age. Current selenium concentrations in Sarasota Bay dolphins appear adequate for maintenance of blood glutathione peroxidase activity. However, dolphins evidently are subject to seasonal exacerbation of oxidative stress, which might render them more vulnerable to toxic effects of mercury. |
|---|---|
| AbstractList | Blood and epidermal biopsies from free-ranging Tursiops truncatus captured and released during either summer or winter health assessments in Sarasota Bay, FL, were evaluated for concentrations of mercury, selenium, stable isotopes (δ13C and δ15N), and blood glutathione peroxidase activity in conjunction with routine hematology and serum chemistry panels. Major objectives were to: 1) quantify and describe relationships among mercury, selenium, glutathione peroxidase, and stable isotopes of C and N in blood and epidermis; 2) elucidate major parameters that influence blood mercury and glutathione peroxidase activity; 3) relate measures of tissue mercury, selenium, and glutathione peroxidase to specific ecological, hematological, morphological, or life history parameters, including season, sex, age, and trophic level. Mercury in both tissues examined is almost exclusively methylmercury. Epidermal concentrations of mercury and selenium reflect their respective amounts in blood, albeit at several times blood concentrations of mercury. The strong association between blood mercury and serum selenium, in conjunction with a lack of significant correlation between blood mercury and glutathione peroxidase, implies that a substantial proportion of blood mercury is affiliated with another selenium-containing moiety or is related to recent dietary intakes (e.g., trophic level, intensive fish consumption). Circulating blood mercury may be described in terms of serum selenium concentration, along with interaction terms among serum selenium, blood δ15N, and age. Current selenium concentrations in Sarasota Bay dolphins appear adequate for maintenance of blood glutathione peroxidase activity. However, dolphins evidently are subject to seasonal exacerbation of oxidative stress, which might render them more vulnerable to toxic effects of mercury. [PUBLICATION ABSTRACT] Blood and epidermal biopsies from free-ranging Tursiops truncatus captured and released during either summer or winter health assessments in Sarasota Bay, FL, were evaluated for concentrations of mercury, selenium, stable isotopes (d(13)C and d(15)N), and blood glutathione peroxidase activity in conjunction with routine hematology and serum chemistry panels. Major objectives were to: 1) quantify and describe relationships among mercury, selenium, glutathione peroxidase, and stable isotopes of C and N in blood and epidermis; 2) elucidate major parameters that influence blood mercury and glutathione peroxidase activity; 3) relate measures of tissue mercury, selenium, and glutathione peroxidase to specific ecological, hematological, morphological, or life history parameters, including season, sex, age, and trophic level. Mercury in both tissues examined is almost exclusively methylmercury. Epidermal concentrations of mercury and selenium reflect their respective amounts in blood, albeit at several times blood concentrations of mercury. The strong association between blood mercury and serum selenium, in conjunction with a lack of significant correlation between blood mercury and glutathione peroxidase, implies that a substantial proportion of blood mercury is affiliated with another selenium-containing moiety or is related to recent dietary intakes (e.g., trophic level, intensive fish consumption). Circulating blood mercury may be described in terms of serum selenium concentration, along with interaction terms among serum selenium, blood d(15)N, and age. Current selenium concentrations in Sarasota Bay dolphins appear adequate for maintenance of blood glutathione peroxidase activity. However, dolphins evidently are subject to seasonal exacerbation of oxidative stress, which might render them more vulnerable to toxic effects of mercury. Blood and epidermal biopsies from free-ranging Tursiops truncatus captured and released during either summer or winter health assessments in Sarasota Bay, FL, were evaluated for concentrations of mercury, selenium, stable isotopes (δ 13 C and δ 15 N), and blood glutathione peroxidase activity in conjunction with routine hematology and serum chemistry panels. Major objectives were to: 1) quantify and describe relationships among mercury, selenium, glutathione peroxidase, and stable isotopes of C and N in blood and epidermis; 2) elucidate major parameters that influence blood mercury and glutathione peroxidase activity; 3) relate measures of tissue mercury, selenium, and glutathione peroxidase to specific ecological, hematological, morphological, or life history parameters, including season, sex, age, and trophic level. Mercury in both tissues examined is almost exclusively methylmercury. Epidermal concentrations of mercury and selenium reflect their respective amounts in blood, albeit at several times blood concentrations of mercury. The strong association between blood mercury and serum selenium, in conjunction with a lack of significant correlation between blood mercury and glutathione peroxidase, implies that a substantial proportion of blood mercury is affiliated with another selenium-containing moiety or is related to recent dietary intakes (e.g., trophic level, intensive fish consumption). Circulating blood mercury may be described in terms of serum selenium concentration, along with interaction terms among serum selenium, blood δ 15 N, and age. Current selenium concentrations in Sarasota Bay dolphins appear adequate for maintenance of blood glutathione peroxidase activity. However, dolphins evidently are subject to seasonal exacerbation of oxidative stress, which might render them more vulnerable to toxic effects of mercury. Blood and epidermal biopsies from free-ranging Tursiops truncatus captured and released during either summer or winter health assessments in Sarasota Bay, FL, were evaluated for concentrations of mercury, selenium, stable isotopes (d(13)C and d(15)N), and blood glutathione peroxidase activity in conjunction with routine hematology and serum chemistry panels. Major objectives were to: 1) quantify and describe relationships among mercury, selenium, glutathione peroxidase, and stable isotopes of C and N in blood and epidermis; 2) elucidate major parameters that influence blood mercury and glutathione peroxidase activity; 3) relate measures of tissue mercury, selenium, and glutathione peroxidase to specific ecological, hematological, morphological, or life history parameters, including season, sex, age, and trophic level. Mercury in both tissues examined is almost exclusively methylmercury. Epidermal concentrations of mercury and selenium reflect their respective amounts in blood, albeit at several times blood concentrations of mercury. The strong association between blood mercury and serum selenium, in conjunction with a lack of significant correlation between blood mercury and glutathione peroxidase, implies that a substantial proportion of blood mercury is affiliated with another selenium-containing moiety or is related to recent dietary intakes (e.g., trophic level, intensive fish consumption). Circulating blood mercury may be described in terms of serum selenium concentration, along with interaction terms among serum selenium, blood d(15)N, and age. Current selenium concentrations in Sarasota Bay dolphins appear adequate for maintenance of blood glutathione peroxidase activity. However, dolphins evidently are subject to seasonal exacerbation of oxidative stress, which might render them more vulnerable to toxic effects of mercury.Blood and epidermal biopsies from free-ranging Tursiops truncatus captured and released during either summer or winter health assessments in Sarasota Bay, FL, were evaluated for concentrations of mercury, selenium, stable isotopes (d(13)C and d(15)N), and blood glutathione peroxidase activity in conjunction with routine hematology and serum chemistry panels. Major objectives were to: 1) quantify and describe relationships among mercury, selenium, glutathione peroxidase, and stable isotopes of C and N in blood and epidermis; 2) elucidate major parameters that influence blood mercury and glutathione peroxidase activity; 3) relate measures of tissue mercury, selenium, and glutathione peroxidase to specific ecological, hematological, morphological, or life history parameters, including season, sex, age, and trophic level. Mercury in both tissues examined is almost exclusively methylmercury. Epidermal concentrations of mercury and selenium reflect their respective amounts in blood, albeit at several times blood concentrations of mercury. The strong association between blood mercury and serum selenium, in conjunction with a lack of significant correlation between blood mercury and glutathione peroxidase, implies that a substantial proportion of blood mercury is affiliated with another selenium-containing moiety or is related to recent dietary intakes (e.g., trophic level, intensive fish consumption). Circulating blood mercury may be described in terms of serum selenium concentration, along with interaction terms among serum selenium, blood d(15)N, and age. Current selenium concentrations in Sarasota Bay dolphins appear adequate for maintenance of blood glutathione peroxidase activity. However, dolphins evidently are subject to seasonal exacerbation of oxidative stress, which might render them more vulnerable to toxic effects of mercury. Blood and epidermal biopsies from free-ranging Tursiops truncatus captured and released during either summer or winter health assessments in Sarasota Bay, FL, were evaluated for concentrations of mercury, selenium, stable isotopes ( delta 13C and delta 15N), and blood glutathione peroxidase activity in conjunction with routine hematology and serum chemistry panels. Major objectives were to: 1) quantify and describe relationships among mercury, selenium, glutathione peroxidase, and stable isotopes of C and N in blood and epidermis; 2) elucidate major parameters that influence blood mercury and glutathione peroxidase activity; 3) relate measures of tissue mercury, selenium, and glutathione peroxidase to specific ecological, hematological, morphological, or life history parameters, including season, sex, age, and trophic level. Mercury in both tissues examined is almost exclusively methylmercury. Epidermal concentrations of mercury and selenium reflect their respective amounts in blood, albeit at several times blood concentrations of mercury. The strong association between blood mercury and serum selenium, in conjunction with a lack of significant correlation between blood mercury and glutathione peroxidase, implies that a substantial proportion of blood mercury is affiliated with another selenium-containing moiety or is related to recent dietary intakes (e.g., trophic level, intensive fish consumption). Circulating blood mercury may be described in terms of serum selenium concentration, along with interaction terms among serum selenium, blood delta 15N, and age. Current selenium concentrations in Sarasota Bay dolphins appear adequate for maintenance of blood glutathione peroxidase activity. However, dolphins evidently are subject to seasonal exacerbation of oxidative stress, which might render them more vulnerable to toxic effects of mercury. |
| Author | Knott, Katrina Swor, Rhonda Willetto, Carla Wells, Randall O’Hara, Todd Woshner, Victoria |
| Author_xml | – sequence: 1 givenname: Victoria surname: Woshner fullname: Woshner, Victoria – sequence: 2 givenname: Katrina surname: Knott fullname: Knott, Katrina organization: Wildlife Toxicology Laboratory, Institute of Arctic Biology, University of Alaska Fairbanks – sequence: 3 givenname: Randall surname: Wells fullname: Wells, Randall organization: Chicago Zoological Society, c/o Mote Marine Laboratory – sequence: 4 givenname: Carla surname: Willetto fullname: Willetto, Carla organization: VETS – sequence: 5 givenname: Rhonda surname: Swor fullname: Swor, Rhonda organization: Wildlife Toxicology Laboratory, Institute of Arctic Biology, University of Alaska Fairbanks – sequence: 6 givenname: Todd surname: O’Hara fullname: O’Hara, Todd email: fftmo@uaf.edu organization: Wildlife Toxicology Laboratory, Institute of Arctic Biology, University of Alaska Fairbanks |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/19165553$$D View this record in MEDLINE/PubMed |
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| References | CarmagnolFSinetPMJeromeHSelenium-dependent and non-selenium dependent glutathione peroxidases in human tissue extractsBiochimica et Biophysica Acta198375949571:CAS:528:DyaL3sXltlGqtLs%3D USEPA (United States Environmental Protection Agency) (2005) The National Listing of Fish Advisories (NLFA). Available: http://www.epa.gov/waterscience/fish/advisories/2004/index.html [accessed August 27, 2007] PulsRMineral Levels in Animal Health: Diagnostic Data19942Clearbrook, BCSherpa International WoshnerVMO’HaraTMBrattonGRSuydamRSBeasleyVRConcentrations and interactions of selected essential and non-essential elements in bowhead and beluga whales of Arctic AlaskaJournal of Wildlife Diseases2001376937101:CAS:528:DC%2BD3MXptVKkt7o%3D Brigelius-FlohéRTissue-specific functions of individual glutathione peroxidasesFree Radical Biology & Medicine19992795196510.1016/S0891-5849(99)00173-2 KirubagaranRJoyKPEffects of short-term exposure to methylmercury chloride and its withdrawal on serum levels of thyroid hormones in the catfish Clarias batrachusBulletin of Environmental Contamination and Toxicology19945316617010.1007/BF002051551:CAS:528:DyaK2cXktVartbc%3D DehnLAFollmannEHRosaCDuffyLKThomasDLBrattonGRStable isotope and trace element status of subsistence hunted bowhead (Balaena mysticetus) and beluga whales (Delphinapterus leucas) in Alaska and gray whales (Eschrichtius robustus) in ChukotkaMarine Pollution Bulletin20065230131910.1016/j.marpolbul.2005.09.0011:CAS:528:DC%2BD28Xit1CrtrY%3D WagemannRTrebaczEBoilaGLockhartWLMethylmercury and total mercury in tissues of arctic marine mammalsScience of the Total Environment1998218193110.1016/S0048-9697(98)00192-21:CAS:528:DyaK1cXkvFOrsrg%3D Adams DHR, McMichael H Jr, Henderson GE (2003) Mercury levels in marine and estuarine fishes of Florida 1989–2001. Florida Marine Research Institute Technical Report TR-9, 2nd ed. rev., 57 pp WagemannRKozlowskaHMercury distribution in the skin of beluga (Delphinapterus leucas) and narwhal (Monodon monoceros) from the Canadian Arctic and mercury burdens and excretion by moultingScience of the Total Environment2005351–35233334310.1016/j.scitotenv.2004.06.0281:CAS:528:DC%2BD2MXht1OisbjN SteelRGDTorrieJHPrinciples and Procedures of Statistics—A Biometrical Approach19802New YorkMcGraw-Hill Book Company JarrettRJMurrellsTJShipleyMJHallTScreening blood glucose values: effects of season and time of dayDiabetologia19842757457710.1007/BF002769701:STN:280:DyaL2M7lsFSgug%3D%3D HawkesWCKeimNCDietary selenium intake modulates thyroid hormone and energy metabolism in menJournal of Nutrition2003133344334481:CAS:528:DC%2BD3sXovFKgsrs%3D WellsRSRhinehartHLHansenLJSweeneyJCTownsendFIStoneRBottlenose dolphins as marine ecosystem sentinels: developing a health monitoring systemEcoHealth2004124625410.1007/s10393-004-0094-6 TrasandeLLandriganPJSchechterCPublic health and economic consequences of methyl mercury toxicity to the developing brainEnvironmental Health Perspectives20051135905961:CAS:528:DC%2BD2MXkvFCjtLk%3D10.1289/ehp.7743 Woshner V, Knott K, Wells R, Willetto C, Swor R, O’Hara T (2006) Mercury and selenium in blood of bottlenose dolphins (Tursiops truncatus): interaction and reference to life history and hematologic parameters. Paper SC/58/E24 presented to the IWC Scientific Committee, June 2006, St. Kitts and Nevis, WI, 9 pp PacynaEGPacynaJMPirroneNEuropean emissions of atmospheric mercury from anthropogenic sources in 1995Atmospheric Environment2001352987299610.1016/S1352-2310(01)00102-91:CAS:528:DC%2BD3MXltVyhsr8%3D PacynaEGPacynaJMGlobal emission of mercury from anthropogenic sources in 1995Water, Air, and Soil Pollution200213714916510.1023/A:10155024305611:CAS:528:DC%2BD38XltlSrsbo%3D CaurantFNavarroMAmiardJCMercury in pilot whales: possible limits to the detoxification processScience of the Total Environment19961869510410.1016/0048-9697(96)05087-51:CAS:528:DyaK28XjsFOksrk%3D FlueckWWhole blood selenium levels and glutathione peroxidase activity in erythrocytes of black-tailed deerJournal of Wildlife Management199155263110.2307/3809237 WoshnerVMO’HaraTMBrattonGRBeasleyVRConcentrations and interactions of selected essential and non-essential elements in ringed seals and polar bears of Arctic AlaskaJournal of Wildlife Diseases2001377117211:CAS:528:DC%2BD3MXptVKkt7s%3D HohnAAScottMDWellsRSSweeneyJCIrvineABGrowth layers in teeth from known-age, free-ranging bottlenose dolphinsMarine Mammal Science1989531534210.1111/j.1748-7692.1989.tb00346.x BarnesDMKircherEAEffects of mercuric chloride on glucose transport in 3T3-L1 adipocytesToxicology in vitro20051920721410.1016/j.tiv.2004.08.0051:CAS:528:DC%2BD2MXksVCiuw%3D%3D JoirisCRHolsbeekLBolbaDGascardCStanevTKomakhidzeATotal and organic mercury in the Black Sea harbour porpoise Phocoena phocoena relictaMarine Pollution Bulletin20014290591110.1016/S0025-326X(01)00049-21:CAS:528:DC%2BD3MXnt1artro%3D MinemuraTCroffordOBInsulin-receptor interaction in isolated fat cells. 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| References_xml | – reference: MinemuraTCroffordOBInsulin-receptor interaction in isolated fat cells. I. The insulin-like properties of p-chloromercuribenzene sulfonic acidJournal of Biological Chemistry1969244518151881:CAS:528:DyaF1MXltV2nt78%3D – reference: Woshner V, Knott K, Wells R, Willetto C, Swor R, O’Hara T (2006) Mercury and selenium in blood of bottlenose dolphins (Tursiops truncatus): interaction and reference to life history and hematologic parameters. Paper SC/58/E24 presented to the IWC Scientific Committee, June 2006, St. Kitts and Nevis, WI, 9 pp – reference: ChenCYuHZhaoJLiBQuLLiuSThe roles of serum selenium and selenoproteins on mercury toxicity in environmental and occupational exposureEnvironmental Health Perspectives20061142973011:CAS:528:DC%2BD28XitVWhsLs%3D10.1289/ehp.7861 – reference: USEPA (United States Environmental Protection Agency) (2005) The National Listing of Fish Advisories (NLFA). Available: http://www.epa.gov/waterscience/fish/advisories/2004/index.html [accessed August 27, 2007] – reference: WangABarberDPfeifferCJProtective effects of selenium against mercury toxicity in cultured Atlantic spotted dolphin (Stenella plagiodon) renal cellsArchives of Environmental Contamination and Toxicology20014140340910.1007/s0024400102661:CAS:528:DC%2BD3MXovFKkur4%3D – reference: WagemannRTrebaczEBoilaGLockhartWLMethylmercury and total mercury in tissues of arctic marine mammalsScience of the Total Environment1998218193110.1016/S0048-9697(98)00192-21:CAS:528:DyaK1cXkvFOrsrg%3D – reference: FrodelloJPVialeDMarchandBMetal concentrations in the milk and tissues of a nursing Tursiops truncatus femaleMarine Pollution Bulletin20024455157610.1016/S0025-326X(02)00067-X1:CAS:528:DC%2BD38XktFOmsr8%3D – reference: KollerLDSouthPJExonJHWithbeckGAMaasJComparison of selenium levels and glutathione peroxidase activity in bovine whole bloodCanadian Journal of Comparative Medicine1984484314331:CAS:528:DyaL2MXjvVWr – reference: Adams DHR, McMichael H Jr, Henderson GE (2003) Mercury levels in marine and estuarine fishes of Florida 1989–2001. Florida Marine Research Institute Technical Report TR-9, 2nd ed. rev., 57 pp – reference: PorcellaDBWatrasCJHuckabeeJWMercury in the environment: biogeochemistryMercury Pollution: Integration and Synthesis1994Boca Raton, FLLewis Publishers, CRC Press Inc319 – reference: AncoraSRossiRDi SimplicioPLusiniLLeonzioCIn vitro study of methylmercury in blood of bottlenose dolphinsArchives of Environmental Contamination and Toxicology20024234835310.1007/s00244-001-0005-61:CAS:528:DC%2BD38XisF2qtbs%3D – reference: BossartGDReidarsonTHDieraufLADuffieldDADieraufLAGullandFMDClinical pathologyCRC Handbook of Marine Mammal Medicine, 2nd ed2001Boca Raton, FLCRC Press383436 – reference: FlueckWWhole blood selenium levels and glutathione peroxidase activity in erythrocytes of black-tailed deerJournal of Wildlife Management199155263110.2307/3809237 – reference: SteelRGDTorrieJHPrinciples and Procedures of Statistics—A Biometrical Approach19802New YorkMcGraw-Hill Book Company – reference: MartojaRBerryJPIdentification of tiemannite as a probable product of demethylation of mercury by selenium in cetaceansVie Milieu198030710 – reference: FilhoDWSellFRibeiroLGhislandiMCarrasquedoFFragaCGComparison between the antioxidant status of terrestrial and diving mammalsComparative Biochemistry and Physiology Part A200213388589210.1016/S1095-6433(02)00253-2 – reference: CarmagnolFSinetPMJeromeHSelenium-dependent and non-selenium dependent glutathione peroxidases in human tissue extractsBiochimica et Biophysica Acta198375949571:CAS:528:DyaL3sXltlGqtLs%3D – reference: JoirisCRHolsbeekLBolbaDGascardCStanevTKomakhidzeATotal and organic mercury in the Black Sea harbour porpoise Phocoena phocoena relictaMarine Pollution Bulletin20014290591110.1016/S0025-326X(01)00049-21:CAS:528:DC%2BD3MXnt1artro%3D – reference: WhangerPDBeilsteinMAThomsonCDRobinsonMFHoweMBlood selenium and glutathione peroxidase activity of populations in New Zealand, Oregon, and South DakotaFASEB Journal19882299630021:CAS:528:DyaL1MXmslek – reference: FairPAHulseyTCVarelaRAGoldsteinJDAdamsJZolmanESHematology, serum chemistry, and cytology findings from apparently healthy Atlantic bottlenose dolphins (Tursiops truncatus) inhabiting the estuarine waters of Charleston, South CarolinaAquatic Mammals20063218219510.1578/AM.32.2.2006.182 – reference: MoriKYoshidaKTaniJHoshikawaSItoSWatanabeCMethylmercury inhibits type II 5′-deiodinase activity in NB41A3 neuroblastoma cellsToxicology Letters20061619610110.1016/j.toxlet.2005.08.0011:CAS:528:DC%2BD2MXhtlWqtLvE – reference: HawkesWCKeimNCDietary selenium intake modulates thyroid hormone and energy metabolism in menJournal of Nutrition2003133344334481:CAS:528:DC%2BD3sXovFKgsrs%3D – reference: DehnLASheffieldGGFollmannEHDuffyLKThomasDLBrattonGRTrace elements in tissues of phocid seals harvested in the Alaskan and Canadian Arctic—influence of age and feeding ecologyCanadian Journal of Zoology20058372674610.1139/z05-0531:CAS:528:DC%2BD2MXhtVyhtrjN – reference: PulsRMineral Levels in Animal Health: Diagnostic Data19942Clearbrook, BCSherpa International – reference: St. AubinDJRidgwaySHWellsRSRhinehartHDolphin thyroid and adrenal hormones: circulating levels in wild and semidomesticated Tursiops truncatus, and influence of sex, age, and seasonMarine Mammal Science19961211310.1111/j.1748-7692.1996.tb00301.x – reference: NishidaMMuraokaKNishikawaKTakagiTKawadaJDifferential effects of methylmercuric chloride and mercuric chloride on the histochemistry of rat thyroid peroxidase and the thyroid peroxidase activity of isolated pig thyroid cellsJournal of Histochemistry and Cytochemistry1989377237271:CAS:528:DyaL1MXit1Kku78%3D – reference: GrayJSBiomagnification in marine systems: the perspective of an ecologistMarine Pollution Bulletin200245465210.1016/S0025-326X(01)00323-X1:CAS:528:DC%2BD38Xms1Kju74%3D – reference: WoshnerVMO’HaraTMBrattonGRBeasleyVRConcentrations and interactions of selected essential and non-essential elements in ringed seals and polar bears of Arctic AlaskaJournal of Wildlife Diseases2001377117211:CAS:528:DC%2BD3MXptVKkt7s%3D – reference: BarnesDMKircherEAEffects of mercuric chloride on glucose transport in 3T3-L1 adipocytesToxicology in vitro20051920721410.1016/j.tiv.2004.08.0051:CAS:528:DC%2BD2MXksVCiuw%3D%3D – reference: VendittiPDe RosaRPortero-OtinMPamplonaRDi MeoaSCold-induced hyperthyroidism produces oxidative damage in rat tissues and increases susceptibility to oxidantsInternational Journal of Biochemistry & Cell Biology2004361319133110.1016/j.biocel.2003.11.0051:CAS:528:DC%2BD2cXjsVWntrc%3D – reference: CaurantFNavarroMAmiardJCMercury in pilot whales: possible limits to the detoxification processScience of the Total Environment19961869510410.1016/0048-9697(96)05087-51:CAS:528:DyaK28XjsFOksrk%3D – reference: WoshnerVMO’HaraTMBrattonGRSuydamRSBeasleyVRConcentrations and interactions of selected essential and non-essential elements in bowhead and beluga whales of Arctic AlaskaJournal of Wildlife Diseases2001376937101:CAS:528:DC%2BD3MXptVKkt7o%3D – reference: DasKBeansCHolsbeekLMaugerGBerrowSDRogaEMarine mammals from northeast Atlantic: relationship between their trophic status as determined by δ13C and δ15N measurements and their trace metal concentrationsMarine Environmental Research20035634936510.1016/S0141-1136(02)00308-21:CAS:528:DC%2BD3sXjsVeisLw%3D – reference: PacynaEGPacynaJMPirroneNEuropean emissions of atmospheric mercury from anthropogenic sources in 1995Atmospheric Environment2001352987299610.1016/S1352-2310(01)00102-91:CAS:528:DC%2BD3MXltVyhsr8%3D – reference: KoemanJHPeetersWHMKoudstaal-HolCHMTijoePSDe GoeijJJMMercury-selenium correlations in marine mammalsNature197324538538610.1038/245385a01:CAS:528:DyaE2cXls1eisw%3D%3D – reference: WagemannRKozlowskaHMercury distribution in the skin of beluga (Delphinapterus leucas) and narwhal (Monodon monoceros) from the Canadian Arctic and mercury burdens and excretion by moultingScience of the Total Environment2005351–35233334310.1016/j.scitotenv.2004.06.0281:CAS:528:DC%2BD2MXht1OisbjN – reference: DehnLAFollmannEHRosaCDuffyLKThomasDLBrattonGRStable isotope and trace element status of subsistence hunted bowhead (Balaena mysticetus) and beluga whales (Delphinapterus leucas) in Alaska and gray whales (Eschrichtius robustus) in ChukotkaMarine Pollution Bulletin20065230131910.1016/j.marpolbul.2005.09.0011:CAS:528:DC%2BD28Xit1CrtrY%3D – reference: WellsRSRhinehartHLHansenLJSweeneyJCTownsendFIStoneRBottlenose dolphins as marine ecosystem sentinels: developing a health monitoring systemEcoHealth2004124625410.1007/s10393-004-0094-6 – reference: WellsRSTorneroVBorrellAAguilarARowlesTKRhinehartHLIntegrating life-history and reproductive success data to examine potential relationships with organochlorine compounds for bottlenose dolphins (Tursiops truncatus) in Sarasota Bay, FloridaScience of the Total Environment200534910611910.1016/j.scitotenv.2005.01.0101:CAS:528:DC%2BD2MXhtVKhur7L – reference: JarrettRJMurrellsTJShipleyMJHallTScreening blood glucose values: effects of season and time of dayDiabetologia19842757457710.1007/BF002769701:STN:280:DyaL2M7lsFSgug%3D%3D – reference: NigroMLeonzioCIntracellular storage of mercury and selenium in different marine vertebratesMarine Ecology Progress Series199613513714310.3354/meps1351371:CAS:528:DyaK28XkslGrtrw%3D – reference: NEP (United Nations Environment Programme) Chemicals (2002) Global Mercury Assessment. 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Tursiops truncatus
captured and released during either summer or winter health assessments in Sarasota Bay, FL,... Blood and epidermal biopsies from free-ranging Tursiops truncatus captured and released during either summer or winter health assessments in Sarasota Bay, FL,... |
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| Title | Mercury and Selenium in Blood and Epidermis of Bottlenose Dolphins (Tursiops truncatus) from Sarasota Bay, FL: Interaction and Relevance to Life History and Hematologic Parameters |
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