Effect of marker choice and thermal cycling protocol on zooplankton <scp>DNA</scp> metabarcoding studies

Clarke, Laurence J.; Beard, Jason M.; Swadling, Kerrie M.; Deagle, Bruce E.

doi:10.1002/ece3.2667

Cited by 156 publications

(216 citation statements)

References 48 publications

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“…Indeed, the use of several markers in metabarcoding is rapidly gaining momentum (e.g., Clarke et al, 2017;Harvey et al, 2017;Kelly et al, 2017). It is reassuring that the same general conclusions were reached with both markers used here.…”

Section: Discussionsupporting

confidence: 69%

Under the canopy: Community-wide effects of invasive algae in Marine Protected Areas revealed by metabarcoding

Wangensteen

Cebrián

Palacín

et al. 2018

Marine Pollution Bulletin

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Running title: community-wide effects of invasive algae in MPAs Highlights  Hard-bottom communities dominated by invasive algae were studied with metabarcoding  A size-fractionation method is developed for the metabarcoding of complex samples  A modified primer set is used for the amplification of a COI fragment  A semiquantitave abundance index is proposed for statistical analyses  Results show effects of canopy-forming invasive algae on the underlying communities AbstractWe analysed with multigene (18S and COI) metabarcoding the effects of the proliferation of invasive seaweeds on rocky littoral communities in two Spanish Marine Protected Areas. The invasive algae studied were Caulerpa cylindracea, Lophocladia lallemandii and Asparagopsis armata. They are canopy-forming, landscape-dominant seaweeds, and we were interested in their effects on the underlying communities of meiobenthos and macrobenthos, separated in two size fractions through sieving. A new semiquantitative treatment of metabarcoding data is introduced. The results for both markers showed that the presence of the invasive seaweed had a significant effect on the understory communities for Lophocladia lallemandii and Asparagopsis armata but not for Caulerpa cylindracea. Likewise, changes in MOTU richness and diversity with invasion status varied in magnitude and direction depending on the alga considered. Our results showed that metabarcoding allows monitoring of the less conspicuous, but not least important, effects of the presence of dominant invasive seaweeds.

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Section: Discussionsupporting

confidence: 69%

Under the canopy: Community-wide effects of invasive algae in Marine Protected Areas revealed by metabarcoding

Wangensteen

Cebrián

Palacín

et al. 2018

Marine Pollution Bulletin

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“…Additionally, ribosomal markers often have limited taxonomic resolution, which is less of an issue for the COI barcoding marker (Meusnier et al, 2008;Clarke et al, 2014Clarke et al, , 2017.…”

Section: Discussion Amplification Success Of Mock Communitiesmentioning

confidence: 99%

Validation and Development of COI Metabarcoding Primers for Freshwater Macroinvertebrate Bioassessment

Elbrecht

Leese

2017

Front. Environ. Sci.

203

224

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A central challenge in the present era of biodiversity loss is to assess and manage human impacts on freshwater ecosystems. Macroinvertebrates are an important group for such bioassessments as many taxa show specific responses to environmental conditions. However, generating accurate macroinvertebrate inventories based on primarily larval morphology is difficult and error-prone. Here, DNA metabarcoding provides new opportunities. Its potential to accurately identify invertebrates in bulk samples to the species level has been demonstrated in several case studies. However, DNA based identification is often limited by primer bias, potentially leading to taxa in the sample remaining undetected. Thus, the success of DNA metabarcoding as an emerging technique for bioassessment critically relies on carefully evaluated primers. We used the R package PrimerMiner to obtain and process cytochrome c oxidase I (COI) sequence data for the 15 globally most relevant freshwater invertebrate groups for stream assessment. Using these sequence alignments, we developed four primer combinations optimized for freshwater macroinvertebrates. All primers were evaluated by sequencing 10 mock community samples, each consisting of 52 freshwater invertebrate taxa. Additionally, popular metabarcoding primers from the literature and the developed primers were tested in silico against these 15 relevant invertebrate groups. The developed primers varied in amplification efficiency and the number of detected taxa, yet, all detected more taxa than standard "Folmer" barcoding primers. Two new primer combinations showed even more consistent amplification than a previously tested ribosomal marker (16S) and detected all 42 insect taxa present in the mock community samples. In silico evaluation revealed critical design flaws in some commonly used primers from the literature. We demonstrate a reliable strategy to develop optimized primers using the tool PrimerMiner. The developed primers detected almost all taxa present in the mock samples, and we argue that high base degeneracy is necessary to decrease primer bias as confirmed by experimental results and in silico primer evaluation. We further demonstrate that some primers currently Elbrecht and Leese Freshwater Primer Development and Evaluation used in metabarcoding studies may not be suitable for amplification of freshwater macroinvertebrates. Therefore, careful primer evaluation and more region/ecosystem specific primers are needed before DNA metabarcoding can be used for routine bioassessment of freshwater ecosystems.

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“…Although there are methodological limitations (e.g., PCR bias, gene copy numbers), sequence reads provide semi-quantitative information for zooplankton biomass (Lindeque et al, 2013;Hirai et al, 2015a;Albaina et al, 2016;Clarke et al, 2017), which is not directly comparable with the number of individuals in morphological analysis. We nevertheless observed similar seasonal patterns in diversity indexes, abundance-based community structures, and taxonomic compositions between the metagenetic and morphological analyses.…”

Section: Seasonal Changes In Dominant Taxamentioning

confidence: 99%

“…Metagenetic approaches provide a sensitive method for monitoring zooplankton diversity, as demonstrated in studies of zooplankton communities in the English Channel (Lindeque et al, 2013), tropical and subtropical Pacific (Hirai and Tsuda, 2015;Hirai et al, 2015a), station ALOHA (Sommer et al, 2017), Red Sea (Pearman et al, 2014;Pearman and Irigoien, 2015;Casas et al, 2017), Monterey Bay (Harvey et al, 2017), Canadian coastal areas (Chain et al, 2016), and Storm Bay (Clarke et al, 2017). Given the alignment of results generated from metagenetic and morphological methods, we conclude that metagenetic analysis was successfully used to monitor changes in zooplankton diversity and communities in the study area, and that this in turn corresponded with environmental changes, particularly water temperature.…”

Section: The Metagenetic Approach As a Tool For Monitoring Zooplanktomentioning

confidence: 99%

“…Furthermore, we used the 18S V9 region because of its capacity to identify various metazoan zooplankton; however, marker choice affects the results of the metagenetic analysis. For example, although mitochondrial genes such as COI have high species-level resolution, primer mismatches remain common, particularly in highly variable regions of genes (Deagle et al, 2014;Clarke et al, 2017). Thus, molecular markers should be chosen according to the purpose of each study.…”

Section: The Metagenetic Approach As a Tool For Monitoring Zooplanktomentioning

confidence: 99%

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Cryptic Zooplankton Diversity Revealed by a Metagenetic Approach to Monitoring Metazoan Communities in the Coastal Waters of the Okhotsk Sea, Northeastern Hokkaido

et al. 2017

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Monitoring zooplankton communities is important to understand dynamics in marine ecosystems. However, it is difficult to identify cryptic species and immature stages of zooplankton using morphological classification, which is time-consuming and requires high skill levels. Here, we conducted a metagenetic analysis of the 18S region in 101 zooplankton samples collected weekly throughout 2014 and 2015 at the Okhotsk Tower in Mombetsu, Hokkaido, Japan, and compared the results of this analysis with those provided by morphological analysis. The metagenetic analysis detected 561 molecular taxonomic units (MOTUs), whereas the morphological analysis detected 201 taxonomic groups. Zooplankton communities were dominated by copepods throughout the sampling period; however, non-copepod taxa, which comprised high proportions of both MOTUs (mean 51.1%) and sequence reads (mean 19.1%), were also important. Cryptic diversity detected by the metagenetic analysis was primarily driven by Copepoda and by the larvae of benthic taxa such as Bivalvia, Gastropoda, and Polychaeta. Community structure and diversity varied between periods of warm and cold water, indicating strong correlations with water temperature and thus seasonality. Furthermore, metagenetic analysis revealed detailed seasonal changes in dominant taxa, including larval stages of metazoans with high taxonomic resolutions; these included commercially important organisms such as Japanese scallops. The metagenetic analysis revealed that changes in both water mass and bentho-pelagic interactions sustain ecosystems rich in zooplankton diversity in this area. Metagenetic analysis provides novel insight into zooplankton diversity, and generates massive sequence data that may be used in future research; thus, it is considered an effective tool for monitoring zooplankton communities.

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Effect of marker choice and thermal cycling protocol on zooplankton DNA metabarcoding studies

Cited by 156 publications

References 48 publications

Under the canopy: Community-wide effects of invasive algae in Marine Protected Areas revealed by metabarcoding

Under the canopy: Community-wide effects of invasive algae in Marine Protected Areas revealed by metabarcoding

Validation and Development of COI Metabarcoding Primers for Freshwater Macroinvertebrate Bioassessment

Cryptic Zooplankton Diversity Revealed by a Metagenetic Approach to Monitoring Metazoan Communities in the Coastal Waters of the Okhotsk Sea, Northeastern Hokkaido

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