Natural tissue concentrations in adult Ambystoma maculatum and larval DNA damage from exposure to arsenic and chromium

Steven Gardner, George Cline, Nixon Mwebi, James Rayburn

Research output: Contribution to journalArticlepeer-review

7 Scopus citations

Abstract

Arsenic (As) and chromium (Cr) are two contaminants that are detected in aquatic and terrestrial habitats. Using the spotted salamander, Ambystoma maculatum, to assess impacts from these contaminants may be advantageous as adults live and breed in such environments. Adult amphibians typically exhibit elevated tissue concentrations of contaminants present in their environment, while larval stages were found to exhibit increased sensitivity to pollutants. From January through March of 2015, during the spring breeding season, 5 adults and approximately 32 egg masses were collected from a local breeding site. Field levels of As and Cr ranged from 5.99 to 8.88 µg/L and 1.45 to 2 µg/L, respectively, while mean adult As tissue concentrations were 56.74 µg/g dry weight for heart, 0.92 µg/g for liver, and 1.21 µg/g for tail tissue. Mean tissue concentrations for Cr were 87.64 µg/g for heart, 1.47 µg/g for liver, and 6.92 µg/g for tail. Developing larvae that were collected from the field and exposed in a lab setting for 12 d to 0.2 or 20 mg/L of either As or Cr displayed little DNA damage attributed to As, but marked damage due to exposure to 20 mg/L Cr when assessed using the comet assay. Exposure to a mixture of either 0.25:0.1 or 25:10 mg/L As and Cr resulted in significant DNA damage at the lower concentration of 0.25:0.1 mg/L. As adult spotted salamanders were found to possess high concentrations of these contaminants in cardiac tissue, and larvae were shown to be susceptible to DNA damage from increased exposures, assessing impacts and potential declines of amphibian populations exposed to As and Cr is needed.

Original languageEnglish
Pages (from-to)512-524
Number of pages13
JournalJournal of Toxicology and Environmental Health - Part A: Current Issues
Volume81
Issue number12
DOIs
StatePublished - Jun 18 2018
Externally publishedYes

Funding

All animal protocols were approved by JSU Institutional Animal Care and Use Committee (IACUC) NIH # A3890– 01. Specimens were collected under permit number 7698, License number 2014056727868680. The authors acknowledge Southern Environmental Testing for analyzing samples for arsenic, the Department of Biology and the Department of Chemistry and Geosciences, as well as the Faculty Research Grant at Jacksonville State University, for funding of this research, and B. George, Dr. J. Gryko, Dr. A. Nichols, Dr. M. Hammissou, and Dr. C. Murdock for technical assistance with this project. This work was partially supported by the Jacksonville State University Faculty Research Grant. All animal protocols were approved by JSU Institutional Animal Care and Use Committee (IACUC) NIH # A3890?01. Specimens were collected under permit number 7698, License number 2014056727868680. The authors acknowledge Southern Environmental Testing for analyzing samples for arsenic, the Department of Biology and the Department of Chemistry and Geosciences, as well as the Faculty Research Grant at Jacksonville State University, for funding of this research, and B. George, Dr. J. Gryko, Dr. A. Nichols, Dr. M. Hammissou, and Dr. C. Murdock for technical assistance with this project. This work was partially supported by the Jacksonville State University Faculty Research Grant.

FundersFunder number
Jacksonville State University
Southern Environmental Testing
National Institutes of Health2014056727868680, A3890, 7698
Jackson State University

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