DNA Barcoding and Morphological Identification of Benthic Nematodes Assemblages of Estuarine Intertidal Sediments: Advances in Molecular Tools for Biodiversity Assessment
Loading...
Date
Journal Title
Journal ISSN
Volume Title
Publisher
Frontiers in Marine Science
Abstract
Concerns regarding the status of marine ecosystems have increased in part due
to traditional and emerging human activities in marine waters, driving a demand for
approaches with high sample throughput capability to improve ecosystem monitoring.
Nematodes are already used as indicator species in biodiversity assessments and
biomonitoring of terrestrial and marine systems, with molecular approaches offering
the opportunity to utilize these organisms further in large scale ecological surveys and
environmental assessments. Based on an available nematode dataset for estuarine
sediments of the Mira estuary (SW coast, Portugal), we evaluated the diversity of the
nematode community of this system, using the molecular markers 18S rRNA and COI
genes. These approaches were compared to voucher specimens from a morphological
characterization of the same samples allowing validation and comparison between
nematode communities. The spatial and temporal variability of the density and diversity
of the nematode assemblages was analyzed based on morphological characterization
to allow the validation and efficiency of the genetic characterization. A PCO ordination
plot showed a distinct separation of the assemblages between sampling occasions
confirmed by PERMANOVA analysis, which showed significant differences, although
no significant differences were detected between sampling sites. The morphological
characterization identified 50 genera of which only 26 and 25 distinct 18S rRNA and
COI DNA barcodes, respectively, were obtained. 90.2% of the morphologically identified
specimens representing eleven different genera, successfully generated DNA barcodes
for both 18S rRNA and COI genes. This study confirmed that the success of the 18S
rRNA gene PCR amplification is higher than of COI gene with 43 species amplified against
34. The study highlights a limitation of available sequences for both targets in databases
when compared to the known diversity of marine nematodes. The gene sequences ofAvó et al. DNA Barcoding of Estuarine Nematode Assemblages
this study enriched the databases, contributing gene sequences from 7 to 16 new genera
for the 18S rRNA and COI genes, respectively. A robust database of gene sequences is
a prerequisite for the development of robust high sample throughput techniques to be
applied in marine assessing and monitoring programs.
Description
Citation
Avó AP, Daniell TJ, Neilson R,
Oliveira S, Branco J and Adão H
(2017) DNA Barcoding and
Morphological Identification of Benthic
Nematodes Assemblages of Estuarine
Intertidal Sediments: Advances in
Molecular Tools for Biodiversity
Assessment. Front. Mar. Sci. 4:66.