Reduced genetic diversity of freshwater amphipods in rivers with increased levels of anthropogenic organic micropollutants

Švara, Vid; Michalski, Stefan G.; Krauß, Martin; Schulze, Tobias; Geuchen, Stephan; Brack, Werner; Luckenbach, Till

doi:10.1111/eva.13387

Cited by 12 publications

(4 citation statements)

References 117 publications

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“…Various forms of pollution can significantly alter the genetic composition of populations and influence genetic variation through 4 primary mechanisms: (i) increased mutation rates; (ii) directional selection favoring tolerant genotypes; (iii) genetic bottlenecks; and (iv) altered migration patterns ( Mussali-Galante et al 2014 ). Numerous studies have examined contaminant exposure effects on the genetics of both terrestrial ( Grzywacz et al 2012 , Giska et al 2015 , Renault et al 2023 ) and aquatic ( Gouin et al 2019 , 2023 , Švara et al 2022 ) populations. In addition to toxicants, natural phenomena like mutations, selection, stochastic processes, and migration can modify the genetic variability of populations ( Mussali-Galante et al 2014 ).…”

Section: Introductionmentioning

confidence: 99%

Limited genetic variability and spatial population structure in grasshoppers between natural and metal-contaminated areas in Egypt

Soliman,

Almadiy,

Al-Akeel

et al. 2024

Journal of Insect Science

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Pollutants in an environment can have long-term implications for the species living there, resulting in local adaptations with implications for their genetic structure. Heavy metal pollutants infiltrate soils and groundwater, bioaccumulate in food webs, and negatively impact biota. In this study, we investigated the degree to which the genetic structure and variability of the slender green-winged grasshopper (Aiolopus thalassinus (Fabricius) (Orthoptera: Acrididae)) were impacted by heavy metal pollution and distance. We used the random amplified polymorphic DNA-polymerase chain reaction (RAPD-PCR) method to examine the genetic variability of populations in 3 heavy metal-polluted and 3 unpolluted locations across varying geographical distances in Egypt. The heavy metal concentrations of cadmium, copper, lead, and zinc were measured from the grasshopper tissue and soils. Sixty-nine unique and polymorphic bands were produced by 4 primers. Cluster and principal component analyses separated the populations inside and outside Cairo into 2 main branches, which were further divided into smaller branches corresponding to their geographical regions. We found no differences in the Shannon genetic diversity index between populations or with increasing heavy metal concentrations in either the soil or the grasshopper tissue. Our results showed a greater genetic variation among populations than between populations within the same location, indicating populations within locations were less differentiated than those between locations. The moderate correlation between genetic similarity and spatial distance suggests geographical isolation influenced grasshopper population differentiation. Based on the RAPD analysis, environmental pollutants and geographical distances impact the A. thalassinus population structure, potentially restricting gene flow between sites even at small spatial scales.

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Section: Introductionmentioning

confidence: 99%

Limited genetic variability and spatial population structure in grasshoppers between natural and metal-contaminated areas in Egypt

Soliman,

Almadiy,

Al-Akeel

et al. 2024

Journal of Insect Science

View full text Add to dashboard Cite

show abstract

“…Further, many species are directly affected and adjust their feeding behaviour in response to changes in the composition of their food source (leaf litter), with cascading effects on the aquatic food web (van Riel et al, 2006;Woodward et al, 2008;Little et al, 2020). Finally, amphipods are sensitive to a wide range of toxicants, and are thus commonly used by stakeholders and ecotoxicologists for field and laboratory based studies (McCahon and Pascoe, 1988;Felten et al, 2008;Bundschuh and Schulz, 2011;Feckler et al, 2012Feckler et al, , 2014Kosfeld et al, 2020;Fu et al, 2020;Rothe et al, 2022;Švara et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

“…However, for Europe and adjacent regions there is a major discrepancy between field assays, which are commonly performed on a range of (native) species, especially of the genus Gammarus (e.g., Bundschuh et al, 2013;Feckler et al, 2014;Eisenring et al, 2016;Burdon et al, 2019;Arlos et al, 2020;Lauper et al, 2022;Švara et al, 2022), and laboratory-based studies, which are most commonly performed on the non-native model organism Hyalella azteca (Saussure, 1858) (e.g., Borgmann et al, 2005;Cothran et al, 2013;James and McClintock, 2017;Kosfeld et al, 2020;Fu et al, 2020). The latter is easy to maintain in the lab, as is common for other model organisms such as Daphnia magna Straus, 1820, Caenorhabditis elegans (Maupas, 1900) or Danio rerio (F.Hamilton, 1822), yet may not be necessarily representative of amphipods inhabiting small tributary streams, which are commonly affected by environmental pollutants (e.g., Munz et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

“…Consequently, they are frequently used in toxicity tests (Geffard et al, 2010). Neither of these species has been easily cultivated (but see Pöckl, 1995), and thus most past studies and assessments of chemical compounds relied purely on wild-caught individuals (e.g., McCahon and Pascoe, 1988;Bundschuh et al, 2013;Mehennaoui et al, 2016;Arambourou et al, 2017;Straub et al, 2017;Lauper et al, 2022;Švara et al, 2022) or again on more tolerant model organism such as H. azteca, representing a species complex native only to North and Central America (e.g., Wang et al, 2004;Borgmann et al, 2005;Fu et al, 2020). This is problematic for two reasons.…”

Section: Introductionmentioning

confidence: 99%

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Optimizing laboratory cultures of Gammarus fossarum (Crustacea: Amphipoda) as a study organism in environmental sciences and ecotoxicology

Alther

Krähenbühl

Bucher

et al. 2023

Science of The Total Environment

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Population-level variation in pesticide tolerance predicts survival under field conditions in mayflies

Rackliffe

Hoverman

2022

Ecotoxicology

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Reduced genetic diversity of freshwater amphipods in rivers with increased levels of anthropogenic organic micropollutants

Cited by 12 publications

References 117 publications

Limited genetic variability and spatial population structure in grasshoppers between natural and metal-contaminated areas in Egypt

Limited genetic variability and spatial population structure in grasshoppers between natural and metal-contaminated areas in Egypt

Optimizing laboratory cultures of Gammarus fossarum (Crustacea: Amphipoda) as a study organism in environmental sciences and ecotoxicology

Population-level variation in pesticide tolerance predicts survival under field conditions in mayflies

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