Nicola Debenham scite author profile

International audienceThe Gulf of California, Mexico, consists of unique environmental conditions resulting in a rich array of biological diversity. Nematodes are present in most marine sediments and are probably the most abundant metazoans. This research analyses and compares nematode biodiversity in two shallow, littoral locations of the Gulf and compares the results with other Pacific and Atlantic faunae. Samples collected in Punta Estrella and Santa Clara were processed for nematode extraction by standard methods. A total of eighty genera were identified, sixty-seven occurring in coarser sediments at Punta Estrella and fifty-five in more silty sediments at Santa Clara. Nematode abundance was higher at the latter location, on average. The region was not especially high or low in diversity compared to other littoral sites, and was most similar to locations in Europe with a corresponding ecology but at temperate latitude

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Denaturing gradient gel electrophoresis (DGGE) as a tool for identification of marine nematodes

Cook¹,

Bhadury²,

Debenham³

et al. 2005

Mar. Ecol. Prog. Ser.

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Many phyla of marine invertebrates are difficult to identify using conventional morphological taxonomy. Larvae of a wider set of phyla are also difficult to identify as a result of conservation of morphology between species or because morphological characters are destroyed during sampling and preservation. DNA sequence analysis has the potential for identification of marine organisms to the species level. However, sequence analysis of specimens is time-consuming and impractical when species diversity is very high and densities of individuals huge, as they are in many marine habitats. The effectiveness of the 18S rRNA gene sequences for identification of one speciesrich marine group, the Nematoda, is analysed. Following identification of variable regions of the 18S rRNA gene, primers were designed to amplify a small segment of sequences suitable for denaturing gradient gel electrophoresis (DGGE). The effectiveness of DGGE for identifying individual species is analysed. DGGE analysis of natural communities of nematodes detected less than 2 ⁄ 3 of the species present. This fraction of the community probably represents the abundant species in the original samples. It is concluded that DGGE is not a useful tool for analysis of species richness in marine communities as it fails to detect rare species of which there are usually many in the marine benthic environment. However, DGGE may be a useful method for detecting changes in communities that influence the abundance of the most common taxa. KEY WORDS: Marine nematodes · 18S ribosomal DNA · Denaturing gradient gel electrophoresisResale or republication not permitted without written consent of the publisher

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The impact of whale falls on nematode abundance in the deep sea

Debenham

Lambshead

Ferrero

et al. 2004

Deep Sea Research Part I: Oceanographic Research Papers

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Nicola Debenham

An improved molecular phylogeny of the Nematoda with special emphasis on marine taxa

The nematodes of the Thames estuary: Assemblage structure and biodiversity, with a test of Attrill's linear model

Biodiversity of littoral nematodes from two sites in the Gulf of California

Denaturing gradient gel electrophoresis (DGGE) as a tool for identification of marine nematodes

The impact of whale falls on nematode abundance in the deep sea

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