GLORIA — GEOMAR Library Ocean Research Information Access

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The crossover from microscopy to genes in marine diversity: from species to assemblages in marine pelagic copepods (2020)

Laakmann, Silke ; Blanco-Bercial, Leocadio ; Cornils, Astrid

ROYAL SOC

In: EPIC3Philosophical Transactions of the Royal Society B-Biological Sciences, ROYAL SOC, 375(1814), ISSN: 0962-8436

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Publication Date: 2021-06-19

Description: An accurate identification of species and communities is a prerequisite for analysing and recording biodiversity and community shifts. In the context of marine biodiversity conservation and management, this review outlines past, present and forward-looking perspectives on identifying and recording planktonic diversity by illustrating the transition from traditional species identification based on morphological diagnostic characters to full molecular genetic identification of marine assemblages. In this process, the article presents the methodological advancements by discussing progress and critical aspects of the crossover from traditional to novel and future molecular genetic identifications and it outlines the advantages of integrative approaches using the strengths of both morphological and molecular techniques to identify species and assemblages. We demonstrate this process of identifying and recording marine biodiversity on pelagic copepods as model taxon. Copepods are known for their high taxonomic and ecological diversity and comprise a huge variety of behaviours, forms and life histories, making them a highly interesting and well-studied group in terms of biodiversity and ecosystem functioning. Furthermore, their short life cycles and rapid responses to changing environments make them good indicators and core research components for ecosystem health and status in the light of environmental change. This article is part of the theme issue ‘Integrative research perspectives on marine conservation’.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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New Paracalanidae species from the central coast of Brazil: morphological description and molecular evidence (2021)

Vieira-Menezes, Flavia Guerra ; de Oliveira Dias, Cristina ; Cornils, Astrid ; [et al.]

In: EPIC3Marine Biodiversity, 51(3), ISSN: 1867-1616

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Publication Date: 2021-07-27

Description: Two new species of Paracalanidae, Giesbrecht, 1893, have been described. Paracalanus brasiliensis sp. nov. and Bestiolina brasiliensis sp. nov. were registered in four estuaries on the central coast of Brazil. Paracalanus brasiliensis sp. nov. females differ from their congeners mainly with regard to body size, the structure of swimming legs 1–4, absence of bristles in the coxopodites, spinules between the spines in the third segment of the exopodite, and the shape of the seminal receptacles. The uniformity of the number of spinules and their location on the anterior face of the second exopodite of legs 2–3 and the absence of spinules on the endopodite of legs 3–4 differentiate Bestiolina brasiliensis sp. nov. females from other Bestiolina Andronov, 1991, species. In the males of both species, the main diagnostic features (swimming leg seta, spine formula, and ornamentation) are generally observed in females with a few additional characteristics. Genetic divergence analyses based on partial mitochondrial COI (mtCOI) sequences revealed no genetic divergence between Paracalanus brasiliensis sp. nov. and Paracalanus sp. E. sensu Cornils and Held (2014), demonstrating that they are mutually conspecific. mtCOI sequence data from Bestiolina brasiliensis sp. nov. identified a clade with high bootstrap support that separated the specimens in this study from other Bestiolina species. The present report provides the first morphological description of females and males of both Paracalanus brasiliensis sp. nov. and Bestiolina brasiliensis sp. nov. and presents molecular evidence for species specificity. Matters regarding the validity of these species are also discussed.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Toward a global reference database of COI barcodes for marine zooplankton (2021)

Bucklin, Ann ; Peijnenburg, Katja T. C. A. ; Kosobokova, Ksenia N. ; [et al.]

In: EPIC3Marine Biology, 168(6), ISSN: 0025-3162

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Publication Date: 2021-06-19

Repository Name: EPIC Alfred Wegener Institut

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Spatial and temporal trends of the distribution of calanoid copepods in the Weddell Sea between 1985 - 2005 (2020)

Cornils, Astrid ; Plum, Christoph

In: EPIC3Multidisciplinary (Online) workshop of the Weddell Sea - Dronning Maud Land (WS-DML) regional working group of the Southern Ocean Observing System (SOOS), online, 2020-10-20-2020-10-23

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Publication Date: 2021-11-25

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

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Why do we need integrative methods in marine zooplankton species identification? (2021)

Cornils, Astrid

In: EPIC3ASLO 2021 Aquatic Sciences Meeting, online, 2021-06-22-2021-06-27

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Publication Date: 2021-11-25

Description: Species identification is essential to study the impact of environmental changes on community structure and biodiversity in zooplankton. This however, requires high levels of taxonomic expertise, because zooplankton comprises a huge variety of behaviors, forms and life histories in very diverse phyla. Since the advent of molecular methods to identify species it has become evident that morphologically (microscopy) based identification has greatly underestimated species richness and it revealed more complex species biogeographies than previously thought. During the last decade new methods have evolved that allow single species detection and identification (DNA barcoding, proteomic fingerprinting, geometric morphometrics) and multiple species detection in communities (metabarcoding of bulk samples and eDNA, semi-automatic optical identification), which provide different approaches and resulting data. However, bridging the gap between finding species, identifying species and integrating the various methods for a complete understanding of species entities is difficult as the new techniques provide new characters (genetic codes, morphometrics, proteomic spectra, image-based characteristics) that are not easily integrated in species descriptions and studies on community composition. The integration of the various data is however, a prerequisite to ensure the consistency for longterm observational data from microscopy to newer approaches. We will provide an overview over the methodological developments and challenges in zooplankton species identification over the past decades.

Repository Name: EPIC Alfred Wegener Institut

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Mesozooplankton trait distribution in relation to environmental conditions and the presence of krill and salps along the northern Antarctic Peninsula (2021)

Plum, Christoph ; Cornils, Astrid ; Driscoll, Ryan ; [et al.]

OXFORD UNIV PRESS

In: EPIC3Journal of Plankton Research, OXFORD UNIV PRESS, ISSN: 0142-7873

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Publication Date: 2021-11-23

Description: Zooplankton community structure is often characterized by using traits as a function of environmental conditions. However, trait-based knowledge on Southern Ocean mesozooplankton is limited, particularly regarding size and elemental composition. Nine stations around the northern Antarctic Peninsula were sampled during austral autumn to investigate the spatial variability in mesozooplankton taxonomic composition, size structure and stoichiometry in relation to environmental predictors, but also to the abundance of Antarctic krill and salps. The mesozooplankton communities around the South Shetland Islands were dominated by small copepods, mainly Oithonidae and Oncaeidae, while stations along the frontal zones and the Weddell Sea revealed a higher proportion of larger organisms. Spatial differences in taxonomic composition and size structure were significantly altered by salp abundance, with stronger impact on small-sized copepods. Furthermore, taxonomic composition was significantly related to temperature and total carbon but not chlorophyll a, indicating reduced relevance of phytoplankton derived food during autumn. Bulk mesozooplankton stoichiometry, however, showed no significant relation to environmental conditions, mesozooplankton size structure or dominant taxa. Our results indicate that aside from bottom-up related drivers, top-down effects of salps may lead to mesozooplankton communities that are more dominated by larger size classes with potential consequences for trophic interactions and nutrient fluxes.

Repository Name: EPIC Alfred Wegener Institut

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