Cryptic Species in Ecotoxicology

Jourdan, Jonas; Bundschuh, Mirco; Copilaș‐Ciocianu, Denis; Fišer, Cene; Grabowski, Michał; Hupało, Kamil; Jemec Kokalj, Anita; Kabus, Jana; Römbke, Jörg; Soose, Laura J.; Oehlmann, Jörg

doi:10.1002/etc.5696

Cited by 11 publications

(3 citation statements)

References 295 publications

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“…By combining the strengths of two molecular biology methods, PCR amplification and sequencing, DNA barcoding offers a quick and accurate approach to identify different groups. Interestingly, at the species level, DNA barcoding can be used to characterize novel, unknown species, or cryptic species [9], two or more species that are classified as a single, as they are superficially morphologically similar and hence cannot be identified using classical taxonomy [10,11]. Notably, the highest cryptic diversity so far has been found in animals, particularly in invertebrates [9,[12][13][14].…”

Section: Introductionmentioning

confidence: 99%

DNA Barcoding as a Plant Identification Method

Letsiou,

Madesis,

Vasdekis

et al. 2024

Applied Sciences

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In the last two decades, plant taxonomy has bloomed, following the development of a novel technique, namely, DNA barcoding. DNA barcodes are standardized sequences, ideally unique, coding or non-coding, either from the genome of the organism or from its organelles, that are used to identify/classify an organismal group; in short, the method includes amplification of the DNA barcode, sequencing and comparison with a reference database containing the relevant sequences from different species. In plants, the use a universal DNA barcode, such as COI, which is used in animals, has not been achieved so far. This review provides a comprehensive overview of the progress made in DNA barcoding within the field of plant taxonomy. It highlights the success of various barcode loci, the emergence of super barcodes from the chloroplast genome, and the overall impact of next-generation sequencing technologies on the field. The discussion of different approaches reflects the ongoing efforts to refine and optimize DNA barcoding techniques for plants, contributing to the advancement in our understanding of plant biodiversity.

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Section: Introductionmentioning

confidence: 99%

DNA Barcoding as a Plant Identification Method

Letsiou,

Madesis,

Vasdekis

et al. 2024

Applied Sciences

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“…However, one major challenge is often not yet addressed: In most cases modelling approaches are applied to species identified by morphological rather than molecular differences. This leaves the large part of cryptic biological diversity unconsidered ( Bickford et al, 2007 ; Fišer, Robinson & Malard, 2018 Jourdan et al, 2023 ). The fact that we have characterised niches mainly for morphologically determined species so far bears the risk of overestimating the sensitivity to environmental conditions.…”

Section: Introductionmentioning

confidence: 99%

“…1 ). This is especially crucial for ecotoxicological data, as studies indicate that cryptic species can differ in their tolerance to pollutants ( Feckler et al, 2012 ; Major et al, 2013 ; Soucek et al, 2013 ; Feckler et al, 2014 ; Monteiro et al, 2018 Jourdan et al, 2023 ). This raises the question if there actually are differences in the Grinnellian niches between the cryptic species and if so, if this can influence the persistence in a changing environment.…”

Section: Introductionmentioning

confidence: 99%

Uncovering the Grinnellian niche space of the cryptic species complex Gammarus roeselii

Kabus

Cunze

Dombrowski

et al. 2023

PeerJ

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Background The discovery of cryptic species complexes within morphologically established species comes with challenges in the classification and handling of these species. We hardly know to what extent species within a species complex differ ecologically. Such knowledge is essential to assess the vulnerability of individual genetic lineages in the face of global change. The abiotic conditions, i.e., the Grinnellian niche that a genetic lineage colonizes, provides insights into how diverse the ecological requirements of each evolutionary lineage are within a species complex. Material and Methods We sampled the cryptic species complex of the amphipod Gammarus roeselii from Central Germany to Greece and identified genetic lineages based on cytochrome c oxidase subunit I (COI) barcoding. At the same time, we recorded various abiotic parameters and local pollution parameters using a series of in vitro assays to then characterize the Grinnellian niches of the morphospecies (i.e., Gammarus roeselii sensu lato) as well as each genetic lineage. Local pollution can be a significant factor explaining current and future distributions in times of increasing production and release of chemicals into surface waters. Results We identified five spatially structured genetic lineages in our dataset that differed to varying degrees in their Grinnellian niche. In some cases, the niches were very similar despite the geographical separation of lineages, supporting the hypothesis of niche conservatism while being allopatrically separated. In other cases, we found a small niche that was clearly different from those of other genetic lineages. Conclusion The variable niches and overlaps of different dimensions make the G. roeselii species complex a promising model system to further study ecological, phenotypic and functional differentiation within this species complex. In general, our results show that the Grinnellian niches of genetically distinct molecular operational taxonomic units (MOTUs) within a cryptic species complex can differ significantly between each other, calling for closer inspection of cryptic species in a conservational and biodiversity context.

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Ecological Theory and Concepts in Ecotoxicology

Bundschuh

2023

Enviro Toxic and Chemistry

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Cryptic Species in Ecotoxicology

Cited by 11 publications

References 295 publications

DNA Barcoding as a Plant Identification Method

DNA Barcoding as a Plant Identification Method

Uncovering the Grinnellian niche space of the cryptic species complex Gammarus roeselii

Ecological Theory and Concepts in Ecotoxicology

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