Comparative copper sensitivity between life stages of common subantarctic marine invertebrates

Holan, Jessica R.; King, Catherine K.; Davis, Andrew R.

doi:10.1002/etc.4009

Cited by 23 publications

(9 citation statements)

References 38 publications

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“…For many species, 4 d was the minimum duration required to see a substantial effect on mortality, and was reported in the present study, because this is commonly used in tests with temperate species. A test duration of 10 d has previously been used in tests with Antarctic and subantarctic species (e.g., Payne et al ; Marcus Zamora et al ; Holan et al , , ), and provides a good compromise between the shortest duration required to consistently see a response, and the extended duration that is appropriate for cold‐climate species with slow metabolic rates. For some cold‐climate species, even longer test durations (up to 4 wk) have been used (e.g., Sfiligoj et al ; Brown et al ) and may have provided more sensitive results, but, to be in keeping with the premise of the rapid method, these durations were impractical and beyond the scope of our study.…”

Section: Discussionmentioning

confidence: 99%

Sensitivity of a Large and Representative Sample of Antarctic Marine Invertebrates to Metals

Kefford

King

Wasley

et al. 2019

Enviro Toxic and Chemistry

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There are limited data on the sensitivity to contaminants of marine organisms in polar regions. Consequently, assessments of the risk of contaminants to marine biota in polar environments typically include extrapolations from temperate and/or tropical species. This is problematic because the taxonomic composition of organisms differs between polar and temperate/tropical waters, and both the toxicity of chemicals and the physiology of organisms are very different at the stable low temperatures experienced in polar marine systems. Collecting high‐quality sensitivity data for a wide range of marine polar organisms using traditional toxicity assessment approaches is a time‐consuming and difficult process, especially in remote and hostile environments. We applied a rapid toxicity testing approach, which allowed a much larger number of species to be tested than would be possible with traditional toxicity test methods, albeit with lower replications and fewer exposure concentrations. With this rapid approach, sensitivity estimates are less precise, but more numerous. This is important when constructing species sensitivity distributions (SSDs), which aim to represent the sensitivity of communities. We determined the approximate sensitivity (4‐ and 10‐d median lethal concentration [LC50] values) of a large and representative sample of Antarctic marine invertebrates to copper (Cu), zinc (Zn), and cadmium (Cd). Up to 88 LC50 values (from 88 different taxa) were used in the construction of SSDs. The hazardous concentrations for 1% of taxa (HC1) based on 10‐d LC50 values were 37, 346, and 792 μg/L for Cu, Zn, and Cd, respectively. Our results provide a basis for estimating the risk of exposure to metals for a large representative sample of marine polar invertebrates. Environ Toxicol Chem 2019;38:1560–1568. © 2019 SETAC

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Section: Discussionmentioning

confidence: 99%

Sensitivity of a Large and Representative Sample of Antarctic Marine Invertebrates to Metals

Kefford

King

Wasley

et al. 2019

Enviro Toxic and Chemistry

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“…Test methodologies based on previous work were used for 7 species: Zaus sp., T. angulatus , Laevilitorina caliginosa , M. hamiltoni , G. trapesina , and O. ohlini (Holan et al 2016, 2017, 2018, 2019), and E. gigas (Lewis et al 2016). For the remaining 4 species, test methodologies were developed during the present study (full test method details are available in King et al 2020).…”

Section: Methodsmentioning

confidence: 99%

Using an expert judgment response matrix to assess the risk of groundwater discharges from remediated fuel spill sites to the marine environment at sub‐Antarctic Macquarie Island, Australia

King

Wasley

Holan

et al. 2021

Integr Envir Assess & Manag

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This study assesses toxicity of groundwater from remediated fuel spill sites, as the final phase of an environmental risk assessment of contaminated sites at sub‐Antarctic Macquarie Island, Tasmania, Australia. To complement previous terrestrial ecotoxicological research, we determine risk to marine environments from residual biodegraded hydrocarbon contaminants in groundwater discharges. Direct toxicity assessments were conducted on 7 composite groundwater test solutions, adjusted to ambient seawater salinity. Eleven native marine invertebrates (from varied taxa: gastropods, bivalves, flatworms, amphipods, copepods, isopods) were exposed and observed for up to 21 d. Lethal time estimates (LT10, LT50) showed sensitivity was time dependent (LT10s = 4–15 d) and variable between species. Three species showed no response to any test solution, and most species did not respond for up to 5 d. Data were interpreted using an expert judgment response matrix with multiple lines of evidence to predict risk. No consistent patterns in the relative toxicity of test solutions, based on polar or nonpolar hydrocarbon concentrations, were identified. Although toxicity was observed in some species, this was only under worst‐case conditions of undiluted, continuous, extended exposure. Natural dynamics of the site, including low groundwater discharge rates, high rainfall, and a highly energetic receiving environment, ensure groundwater is rapidly diluted and dispersed. In this context, and based on site conditions at the time of testing, these toxicity assessments provide robust evidence that residual contamination in groundwater at remediated sites at Macquarie Island is unlikely to represent a risk to the adjacent marine communities tested. Integr Environ Assess Manag 2021;17:785–801. © 2020 The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC)

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“…It is commonly recognized that early-life stages are usually more sensitive than adult organisms of the same species, but exceptions do exist. Holan et al (2018) found adult individuals of the marine bivalve Gaimardia trapesina to be more sensitive than juveniles when exposed to copper (Holan et al 2018). Since one of the overarching goals of the derivation of EQS is to protect species at a population level, there is no clear reason for not including acute EC 10 values in the derivation of the AA-EQS.…”

Section: Using Acute Ec 10 Values For Eqs Derivationmentioning

confidence: 99%

Neonicotinoid Insecticides from a Marine Perspective: Acute and Chronic Copepod Testing and Derivation of Environmental Quality Standards

Moeris

Vanryckeghem

Demeestere

et al. 2021

Enviro Toxic and Chemistry

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Neonicotinoid insecticides have become of global concern for the aquatic environment. Harpacticoid copepods are amongst the most sensitive organisms to neonicotinoids. Here, we exposed the brackish copepod Nitocra spinipes to four neonicotinoid insecticides, i.e. clothianidin (CLO), imidacloprid (IMI), thiacloprid (TCP) and thiamethoxam (TMX) to investigate acute toxicity on adults (96-h exposure) and effects on larval development (7-d exposure). We used these results in combination with publicly available ecotoxicity data to derive Environmental Quality Standards (EQS). These EQS were ultimately used in a single-substance and mixture risk assessment for the Belgian part of the North Sea. Acute toxicity testing revealed that immobilization is a more sensitive endpoint than mortality, with 96h-EC 50 values of 6.9, 7.2, 25 and 120 µg L-1 for CLO, TCP, IMI and TMX, respectively. In addition, the larval development tests resulted in 7d-NOECs of 2.5, 2.7, 4.2 and >99 µg L-1 for CLO, TCP, IMI and TMX, This article is protected by copyright. All rights reserved. Accepted Article respectively. The derived saltwater Annual Average (AA-)EQS were 0.05, 0.0048, 0.002 and 0.016 µg L-1 for CLO, TCP, IMI and TMX, respectively. Finally, the risk characterization revealed some exceedances of the AA-EQS in Belgian harbors for IMI (number of exceedances, n = 2/4), TCP (n = 1/4), TMX (n = 1/4) and the mixture of the four neonicotinoids (n = 4/4), but not at the open sea. At the open sea site, the toxic unit sum relative to the AA-EQS was 0.72 and 0.22, suggesting no mixture risk, albeit with a relatively small margin of safety. Including short-term EC 10 (96h) values of N. spinipes for the AA-EQS derivation led to a refinement of the AA-EQS for CLO and TMX, suggesting their use for the AA-EQS derivation since one of the overarching goals of the definition of EQS is to protect species at the population level.

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Comparative copper sensitivity between life stages of common subantarctic marine invertebrates

Cited by 23 publications

References 38 publications

Sensitivity of a Large and Representative Sample of Antarctic Marine Invertebrates to Metals

Sensitivity of a Large and Representative Sample of Antarctic Marine Invertebrates to Metals

Using an expert judgment response matrix to assess the risk of groundwater discharges from remediated fuel spill sites to the marine environment at sub‐Antarctic Macquarie Island, Australia

Neonicotinoid Insecticides from a Marine Perspective: Acute and Chronic Copepod Testing and Derivation of Environmental Quality Standards

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