Biological Responses of Pacific Herring Embryos to Crude Oil Are Quantifiable at Exposure Levels Below Conventional Limits of Quantitation for PAHs in Water and Tissues

Biological Responses of Pacific Herring Embryos to Crude Oil Are Quantifiable at Exposure Levels Below Conventional Limits of Quantitation for PAHs in Water and Tissues

Pacific herring ( ), a cornerstone of marine food webs, generally spawn on marine macroalgae in shallow nearshore areas that are disproportionately at risk from oil spills. Herring embryos are also highly susceptible to toxicity from chemicals leaching from oil stranded in intertidal and subtidal zo...

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Bibliographic Details
Published in:Environmental science & technology Vol. 57; no. 48; pp. 19214 - 19222
Main Authors: Incardona, John P, Linbo, Tiffany L, Cameron, James R, French, Barbara L, Bolton, Jennie L, Gregg, Jacob L, Donald, Carey E, Hershberger, Paul K, Scholz, Nathaniel L
Format: Journal Article
Language:English
Published: United States American Chemical Society 05-12-2023
Subjects:
Algae
Animals
Cardiomyocytes
Cardiotoxicity
Clupea pallasii
Coastal ecosystems
Congestive heart failure
Crude oil
CYP1A protein
Cytochrome P450
Developmental stages
Ecosystem
Embryo, Nonmammalian - metabolism
Embryo, Nonmammalian - pathology
Embryos
Exposure
Fishes - metabolism
Food chains
Food webs
Gene expression
Hatching
Heart
Hypertrophy
Leaching
Marine ecosystems
Morphometry
Oil spills
Petroleum - toxicity
Petroleum Pollution
Polycyclic aromatic hydrocarbons
Polycyclic Aromatic Hydrocarbons - toxicity
Potassium
Quantitation
Seaweeds
Stranding
Structure-function relationships
Tissues
Ventricle
Water
Water Pollutants, Chemical - metabolism
Water Pollutants, Chemical - toxicity
AOP
forage fish
heart development
NRDA
biomarkers
petroleum pollution
fish embryology
morphometrics
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Summary:Pacific herring ( ), a cornerstone of marine food webs, generally spawn on marine macroalgae in shallow nearshore areas that are disproportionately at risk from oil spills. Herring embryos are also highly susceptible to toxicity from chemicals leaching from oil stranded in intertidal and subtidal zones. The water-soluble components of crude oil trigger an adverse outcome pathway that involves disruption of the physiological functions of cardiomyocytes in the embryonic herring heart. In previous studies, impaired ionoregulation (calcium and potassium cycling) in response to specific polycyclic aromatic hydrocarbons (PAHs) corresponds to lethal embryolarval heart failure or subtle chamber malformations at the high and low ends of the PAH exposure range, respectively. Sublethal cardiotoxicity, which involves an abnormal outgrowth (ballooning) of the cardiac ventricular chamber soon after hatching, subsequently compromises juvenile heart structure and function, leading to pathological hypertrophy of the ventricle and reduced individual fitness, measured as cardiorespiratory performance. Previous studies have not established a threshold for these sublethal and delayed-in-time effects, even with total (∑)PAH exposures as low as 29 ng/g of wet weight (tissue dose). Here, we extend these earlier findings showing that (1) gene expression provides an oil exposure metric that is more sensitive than typical quantitation of PAHs via GC-MS and (2) heart morphometrics in herring embryos provide a similarly sensitive measure of toxic response. Early life stage injury to herring (impaired heart development) thus occurs below the quantitation limits for PAHs in both water and embryonic tissues as a conventional basis for assessing oil-induced losses to coastal marine ecosystems.
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ISSN:0013-936X
1520-5851
DOI:10.1021/acs.est.3c04122