Sedimentary <scp>DNA</scp> of a human‐impacted lake in Western Canada (Cultus Lake) reveals changes in micro‐eukaryotic diversity over the past ~200 years

Gauthier, Joanna; Walsh, David A.; Selbie, Daniel T.; Domaizon, Isabelle; Gregory‐Eaves, Irene

doi:10.1002/edn3.310

Cited by 8 publications

(4 citation statements)

References 61 publications

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“…Several studies combined the genetic approach with microscopic analysis to assess the long‐term dynamic of diatom communities, while also exploring the similarities, differences and complementarity of the two methods (Anslan et al, 2022; Dulias et al, 2017; Epp et al, 2011; Gauthier et al, 2022; Huang et al, 2020; Kang et al, 2021; Stoof‐Leichsenring et al, 2012; Stoof‐Leichsenring, Dulias, et al, 2020; Stoof‐Leichsenring, Pestryakova, et al, 2020). Beyond the methodological advancements, insights into the response of the diatom communities to environmental changes were also gained from these analyses, including shifts in diatom community structure, diversity, and the occurrence of particular genetic lineages.…”

Section: Phototrophic Organismsmentioning

confidence: 99%

“…Several studies combined the genetic approach with microscopic analysis to assess the long-term dynamic of diatom communities, while also exploring the similarities, differences and complementarity of the two methods (Anslan et al, 2022;Dulias et al, 2017;Epp et al, 2011;Gauthier et al, 2022;Huang et al, 2020;Kang et al, 2021;Stoof-Leichsenring et al, 2012;Stoof-Leichsenring, Dulias, et al, 2020;.…”

Section: Diatoms and Chrysophytesmentioning

confidence: 99%

“…To our knowledge, sedDNA studies specifically targeting chlorophytes are still rare (Fonseca et al, 2022). However, the reconstruction of the long-term dynamic of microbial eukaryotic communities was successful at recovering archived DNA of chlorophytes (Capo et al, 2016(Capo et al, , 2017Gauthier et al, 2022;Ibrahim et al, 2021), providing insight into the response of this specific group of algae to environmental change. In Lake Bourget (France), relative abundance of Chlamydomonas sp.…”

Section: Chlorophytesmentioning

confidence: 99%

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Investigating the effects of anthropogenic stressors on lake biota using sedimentary DNA

et al. 2022

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Analyses of sedimentary DNA (sedDNA) have increased exponentially over the last decade and hold great potential to study the effects of anthropogenic stressors on lake biota over time. Herein, we synthesise the literature that has applied a sedDNA approach to track historical changes in lake biodiversity in response to anthropogenic impacts, with an emphasis on the past c. 200 years. We identified the following research themes that are of particular relevance: (1) eutrophication and climate change as key drivers of limnetic communities; (2) increasing homogenisation of limnetic communities across large spatial scales; and (3) the dynamics and effects of invasive species as traced in lake sediment archives. Altogether, this review highlights the potential of sedDNA to draw a more comprehensive picture of the response of lake biota to anthropogenic stressors, opening up new avenues in the field of paleoecology by unrevealing a hidden historical biodiversity, building new paleo‐indicators, and reflecting either taxonomic or functional attributes. Broadly, sedDNA analyses provide new perspectives that can inform ecosystem management, conservation, and restoration by offering an approach to measure ecological integrity and vulnerability, as well as ecosystem functioning.

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Section: Phototrophic Organismsmentioning

confidence: 99%

Section: Diatoms and Chrysophytesmentioning

confidence: 99%

Section: Chlorophytesmentioning

confidence: 99%

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Investigating the effects of anthropogenic stressors on lake biota using sedimentary DNA

et al. 2022

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“…However, a further obvious application of a sedDNA metabarcoding approach for identifying Chironomidae samples would be exploring truly ancient sedDNA from longer sediment sequences encompassing extended sections of the sedimentation history of lakes. Similar studies targeting plant or mammal DNA have recently been conducted (e.g., Garces-Pastor et al, 2022;Gauthier et al, 2022;Giguet-Covex et al, 2014) and have shown that sedDNA analyses of lake sediment samples can provide information on past vegetation change, species assemblage compositions and past presence of livestock and other grazers in the vicinity of lakes.…”

Section: Discussionmentioning

confidence: 66%

Sediment core DNA-Metabarcoding and chitinous remain identification: Integrating complementary methods to characterise Chironomidae biodiversity in lake sediment archives

Blattner,

Lapellegerie,

Mustaphi

et al. 2024

Preprint

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Chironomidae, so-called non-biting midges, are considered key bioindicators of aquatic ecosystem variability. Data derived from morphologically identifying their chitinous remains in sediments documents chironomid larvae assemblages, which are studied to reconstruct ecosystem changes over time. Recent developments in sedimentary DNA (sedDNA) research have demonstrated that molecular techniques are suitable for determining past and present occurrences of organisms. Nevertheless, sedDNA records documenting alterations in chironomid assemblages remain largely unexplored. To close this gap, we examined the applicability of sedDNA metabarcoding to identify Chironomidae assemblages in lake sediments by sampling and processing three 21 – 35 cm long sediment cores from Lake Sempach in Switzerland. With a focus on developing analytical approaches, we compared an invertebrate-universal (FWH) and a newly designed Chironomidae-specific metabarcoding primer set (CH) to assess their performance in detecting Chironomidae DNA. We isolated and identified chitinous larval remains and compared the morphotype assemblages with the data derived from sedDNA metabarcoding. Results showed a good overall agreement of the morphotype assemblage-specific clustering among the chitinous remains and the metabarcoding datasets. Both methods indicated higher chironomid assemblage similarity between the two littoral cores in contrast to the deep lake core. Moreover, we experienced a pronounced primer bias effect resulting in more Chironomidae detections with the CH primer combination compared to the FWH combination. Overall, we conclude that sedDNA metabarcoding can supplement traditional remain identifications and potentially provide independent reconstructions of past chironomid assemblage changes. Furthermore, it has the potential of more efficient workflows, better sample standardisation and species-level resolution datasets.

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Using Diatoms to Guide Successful Ecological Restoration

Gaiser

2024

Diatom Ecology

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Sedimentary DNA of a human‐impacted lake in Western Canada (Cultus Lake) reveals changes in micro‐eukaryotic diversity over the past ~200 years

Cited by 8 publications

References 61 publications

Investigating the effects of anthropogenic stressors on lake biota using sedimentary DNA

Investigating the effects of anthropogenic stressors on lake biota using sedimentary DNA

Sediment core DNA-Metabarcoding and chitinous remain identification: Integrating complementary methods to characterise Chironomidae biodiversity in lake sediment archives

Using Diatoms to Guide Successful Ecological Restoration

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