Addressing the "Paradox of the Plankton": Using Metabarcoding to Explore Zooplankton Diversity Patterns Across Chemical Conditions in the Salish Sea

Traditional taxonomic analysis of zooplankton is time consuming, expensive, and unable to resolve the true species diversity of a community due to a lack of diagnostic morphological characters for many taxa. This is especially true for early life stages, undescribed, and cryptic species. This limita...

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Published in:ARPHA Conference Abstracts
Main Authors: Schultz,Haila, Stepien,Carol, Keister,Julie, Norton,Emily, McAllister,Sean, Slikas,Beth
Format: Conference Object
Language:English
Published: Pensoft Publishers 2021
Subjects:
Zooplankton
Ichthyoplankton
Metabarcoding
Puget Sound
Salish Sea
Ocean acidification
Online Access:https://doi.org/10.3897/aca.4.e64847
https://aca.pensoft.net/article/64847/
id ftpensoft:10.3897/aca.4.e64847
record_format openpolar
spelling ftpensoft:10.3897/aca.4.e64847 2023-05-15T17:51:36+02:00 Addressing the "Paradox of the Plankton": Using Metabarcoding to Explore Zooplankton Diversity Patterns Across Chemical Conditions in the Salish Sea Schultz,Haila Stepien,Carol Keister,Julie Norton,Emily McAllister,Sean Slikas,Beth 2021 text/html https://doi.org/10.3897/aca.4.e64847 https://aca.pensoft.net/article/64847/ en eng Pensoft Publishers info:eu-repo/semantics/altIdentifier/eissn/2603-3925 info:eu-repo/semantics/openAccess ARPHA Conference Abstracts 4: e64847 Zooplankton Ichthyoplankton Metabarcoding Puget Sound Salish Sea Conference Abstract 2021 ftpensoft https://doi.org/10.3897/aca.4.e64847 2022-03-01T12:46:24Z Traditional taxonomic analysis of zooplankton is time consuming, expensive, and unable to resolve the true species diversity of a community due to a lack of diagnostic morphological characters for many taxa. This is especially true for early life stages, undescribed, and cryptic species. This limitation has led to a dramatic under-estimation of the incredible diversity of life that inhabits the ocean, hindering our understanding of the environmental conditions that structure communities. Multi-gene metabarcode high-throughput sequencing (HTS) analyses entailing field sampling and bioinformatics offer new means to rapidly and accurately characterize the species identities, diversity, and composition of entire communities. We use multiple diagnostic Illumina MiSeq HTS metabarcode assays (for mitochondrial COI, 16SRNA, and 12SRNA gene regions) and a custom bioinformatics pipeline to analyze communities of invertebrates and fishes from zooplankton net tows collected concurrently with environmental chemistry data across Puget Sound in the southern Salish Sea. We compare results among sites for spring and autumn seasons, as a prelude to multi-year analyses. Findings show considerable divergence in species composition and diversity among sites and season, reflecting differences in salinity, pH, and proximity to the ocean. This approach has great potential for wide-spread use in monitoring programs to assess the diversity of marine plankton communities in conjunction with changing conditions, including ocean acidification, hypoxia, and global temperature rise. Conference Object Ocean acidification Pensoft Publishers ARPHA Conference Abstracts 4
institution Open Polar
collection Pensoft Publishers
op_collection_id ftpensoft
language English
topic Zooplankton
Ichthyoplankton
Metabarcoding
Puget Sound
Salish Sea
spellingShingle Zooplankton
Ichthyoplankton
Metabarcoding
Puget Sound
Salish Sea
Schultz,Haila
Stepien,Carol
Keister,Julie
Norton,Emily
McAllister,Sean
Slikas,Beth
Addressing the "Paradox of the Plankton": Using Metabarcoding to Explore Zooplankton Diversity Patterns Across Chemical Conditions in the Salish Sea
topic_facet Zooplankton
Ichthyoplankton
Metabarcoding
Puget Sound
Salish Sea
description Traditional taxonomic analysis of zooplankton is time consuming, expensive, and unable to resolve the true species diversity of a community due to a lack of diagnostic morphological characters for many taxa. This is especially true for early life stages, undescribed, and cryptic species. This limitation has led to a dramatic under-estimation of the incredible diversity of life that inhabits the ocean, hindering our understanding of the environmental conditions that structure communities. Multi-gene metabarcode high-throughput sequencing (HTS) analyses entailing field sampling and bioinformatics offer new means to rapidly and accurately characterize the species identities, diversity, and composition of entire communities. We use multiple diagnostic Illumina MiSeq HTS metabarcode assays (for mitochondrial COI, 16SRNA, and 12SRNA gene regions) and a custom bioinformatics pipeline to analyze communities of invertebrates and fishes from zooplankton net tows collected concurrently with environmental chemistry data across Puget Sound in the southern Salish Sea. We compare results among sites for spring and autumn seasons, as a prelude to multi-year analyses. Findings show considerable divergence in species composition and diversity among sites and season, reflecting differences in salinity, pH, and proximity to the ocean. This approach has great potential for wide-spread use in monitoring programs to assess the diversity of marine plankton communities in conjunction with changing conditions, including ocean acidification, hypoxia, and global temperature rise.
format Conference Object
author Schultz,Haila
Stepien,Carol
Keister,Julie
Norton,Emily
McAllister,Sean
Slikas,Beth
author_facet Schultz,Haila
Stepien,Carol
Keister,Julie
Norton,Emily
McAllister,Sean
Slikas,Beth
author_sort Schultz,Haila
title Addressing the "Paradox of the Plankton": Using Metabarcoding to Explore Zooplankton Diversity Patterns Across Chemical Conditions in the Salish Sea
title_short Addressing the "Paradox of the Plankton": Using Metabarcoding to Explore Zooplankton Diversity Patterns Across Chemical Conditions in the Salish Sea
title_full Addressing the "Paradox of the Plankton": Using Metabarcoding to Explore Zooplankton Diversity Patterns Across Chemical Conditions in the Salish Sea
title_fullStr Addressing the "Paradox of the Plankton": Using Metabarcoding to Explore Zooplankton Diversity Patterns Across Chemical Conditions in the Salish Sea
title_full_unstemmed Addressing the "Paradox of the Plankton": Using Metabarcoding to Explore Zooplankton Diversity Patterns Across Chemical Conditions in the Salish Sea
title_sort addressing the "paradox of the plankton": using metabarcoding to explore zooplankton diversity patterns across chemical conditions in the salish sea
publisher Pensoft Publishers
publishDate 2021
url https://doi.org/10.3897/aca.4.e64847
https://aca.pensoft.net/article/64847/
genre Ocean acidification
genre_facet Ocean acidification
op_source ARPHA Conference Abstracts 4: e64847
op_relation info:eu-repo/semantics/altIdentifier/eissn/2603-3925
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.3897/aca.4.e64847
container_title ARPHA Conference Abstracts
container_volume 4
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