The common ecotoxicology laboratory strain of Hyalella azteca is genetically distinct from most wild strains sampled in eastern North America. Other Scholarly Work

Major, Kaley, Soucek, David J, Giordano, Rosanna et al. (2013). The common ecotoxicology laboratory strain of Hyalella azteca is genetically distinct from most wild strains sampled in eastern North America. . ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY, 32(11), 2637-2647. 10.1002/etc.2355

cited authors

  • Major, Kaley; Soucek, David J; Giordano, Rosanna; Wetzel, Mark J; Soto-Adames, Felipe

abstract

  • The amphipod Hyalella azteca is commonly used as a model for determining safe concentrations of contaminants in freshwaters. The authors sequenced the mitochondrial cytochrome c oxidase subunit I (COI) gene for representatives of 38 populations of this species complex from US and Canadian toxicology research laboratories and eastern North American field sites to determine their genetic relationships. With 1 exception, all US and Canadian laboratory cultures sampled were identified as conspecific. In 22 wild populations spanning 5 US states and 1 Canadian province, the commonly occurring laboratory species was found only in northern Florida, USA. Therefore, the diversity of the H. azteca species complex detected in the wild is not accurately represented in North American laboratories, questioning the reliability of H. azteca cultures currently in use to accurately predict the responses of wild populations in ecotoxicological assays. The authors also examined the utility of different COI nucleotide fragments presently in use to determine phylogenetic relationships in this group and concluded that saturation in DNA sequences leads to inconsistent relationships between clades. Amino acid sequences for COI were not saturated and may allow a more accurate phylogeny estimate. Hyalella azteca is crucial for developing water-quality regulations; therefore, laboratories should know and standardize the strain(s) they use to confidently compare toxicity tests across laboratories and determine whether they are an appropriate surrogate for their regions.

publication date

  • November 1, 2013

keywords

  • Amphipoda
  • Animals
  • Canada
  • DNA Barcoding, Taxonomic
  • Electron Transport Complex IV
  • Fresh Water
  • Phylogeny
  • Reproducibility of Results
  • Sequence Analysis, Protein
  • Species Specificity
  • Toxicity Tests
  • United States

Digital Object Identifier (DOI)

Medium

  • Print-Electronic

start page

  • 2637

end page

  • 2647

volume

  • 32

issue

  • 11