Registros biológicos

DNA barcoding on chironomid specimens collected from ponds in Hyogo, Japan

Última versión Publicado por National Institute of Genetics, ROIS en 21 de febrero de 2024 National Institute of Genetics, ROIS
Fecha de publicación:
21 de febrero de 2024
Licencia:
CC-BY 4.0

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Descripción

This dataset includes 825 chironomid specimen records collected from 20 ponds in Hyogo, Japan in May and September 2012. Specimens were identified to family, genus and species levels through DNA barcoding analysis for approximately 60 % of collected specimen samples, while species of 12 specimens were identified based on morphological identification solely. DNA sequences of COI mitochondrial gene of identified specimens were deposited in DNA Data Bank of Japan (DDBJ) with accession number of LC494722–LC495141.

Registros

Los datos en este recurso de registros biológicos han sido publicados como Archivo Darwin Core(DwC-A), el cual es un formato estándar para compartir datos de biodiversidad como un conjunto de una o más tablas de datos. La tabla de datos del core contiene 825 registros.

también existen 1 tablas de datos de extensiones. Un registro en una extensión provee información adicional sobre un registro en el core. El número de registros en cada tabla de datos de la extensión se ilustra a continuación.

Occurrence (core)
825
dnaDerivedData 
420

Este IPT archiva los datos y, por lo tanto, sirve como repositorio de datos. Los datos y los metadatos del recurso están disponibles para su descarga en la sección descargas. La tabla versiones enumera otras versiones del recurso que se han puesto a disposición del público y permite seguir los cambios realizados en el recurso a lo largo del tiempo.

Versiones

La siguiente tabla muestra sólo las versiones publicadas del recurso que son de acceso público.

¿Cómo referenciar?

Los usuarios deben citar este trabajo de la siguiente manera:

National Institute for Environmental Studies (2022) DNA barcoding on chironomid specimens collected from ponds in Hyogo, Japan. Version 1.2. National Institute for Environmental Studies. Dataset/Species occurrences. https://doi.org/10.15468/ez9xzh

Derechos

Los usuarios deben respetar los siguientes derechos de uso:

El publicador y propietario de los derechos de este trabajo es National Institute of Genetics, ROIS. Esta obra está bajo una licencia Creative Commons de Atribución/Reconocimiento (CC-BY 4.0).

Registro GBIF

Este recurso ha sido registrado en GBIF con el siguiente UUID: 12bcc17a-9eb7-4377-96df-1a2135900550.  National Institute of Genetics, ROIS publica este recurso y está registrado en GBIF como un publicador de datos avalado por GBIF Japan.

Palabras clave

Occurrence; Specimen; chironomid; DNA barcoding; farm pond; freshwater biodiversity; molecular species delimitation

Contactos

Kenzi Takamura
  • Proveedor De Contenido
  • Proveedor De Los Metadatos
  • Originador
Visiting Researcher
National Institute for Environmental Studies
16-2 Onogawa
305-8506 Tsukuba
Ibaraki
JP
Ryuhei Ueno
  • Proveedor De Contenido
  • Originador
Senior Researcher Associate
National Institute for Environmental Studies
16-2 Onogawa
305-8506 Tsukuba
Ibaraki
JP
Natsuko I. Kondo
  • Proveedor De Contenido
  • Originador
Senior Researcher
National Institute for Environmental Studies
16-2 Onogawa
305-8506 Tsukuba
Ibaraki
JP
Kako Ohbayashi
  • Proveedor De Contenido
  • Originador
Assistant
Chubu University
1200 Matsumoto-cho
487-8501 Kasugai
Aichi
JP
Biodiversity Division
  • Punto De Contacto
National Institute for Environmental Studies
Kumiko Totsu
  • Programador
Specialist (Database engineer)
National Institute for Environmental Studies
16-2 Onogawa
305-8506 Tsukuba
Ibaraki

Cobertura geográfica

Hyogo, Japan

Coordenadas límite Latitud Mínima Longitud Mínima [34,72, 134,808], Latitud Máxima Longitud Máxima [34,958, 135,027]

Cobertura taxonómica

1 family (Chironomidae) including 20 genus of chironomids

Familia Chironomidae
Género Ablabesmyia, Benthalia, Chironomus, Corynoneura, Cricotopus, Dicrotendipes, Endochironomus, Glyptotendipes, Microchironomus, Nilodorum, Parachironomus, Paratanytarsus, Polypedilum, Procladius, Propsilocerus, Psectrocladius, Psectrotanypus, Sergentia, Tanypus, Tanytarsus

Cobertura temporal

Fecha Inicial / Fecha Final 2012-05-23 / 2012-09-15

Datos del proyecto

No hay descripción disponible

Título Diversity and habitat preferences of insects of the family Chironomidae investigated with DNA barcoding
Fuentes de Financiación Grant Number 24241078, Grants-in-Aid for Scientific Research (KAKENHI), Japan Society for the Promotion of Science.
Descripción del área de estudio The farm ponds studied are located in the Banshu Plain of the Setonaikai Coast, Western Japan. They roughly range in the latitude of 34°43' to 34°58' and the longitude of 134°48' to 135°2'. In the Hyogo Prefecture where the ponds are located, there were over 55,000 farm ponds in 1950s, but over 4,500 ponds were lost mainly due to urban development by 1997. Recently, a rapid loss of farm ponds as a biodiversity habitat is continuing in this area.
Descripción del diseño This project is a part of the freshwater biodiversity research among farm ponds in the Banshu Plain of the Setonaikai Coast, Western Japan. These ponds have been built for agricultural irrigation, but now they are habitats for a wide variety of taxa originated from freshwater and its surrounding landscapes. This unique biodiversity has been threatened with recent urban development, so that the biodiversity research has been undertaken to reveal the present status as well as causes of dynamics (decline or increase) for a wide variety of freshwater taxa since the 1990s. The faunal and floral surveys of the research have been based on species identification of organisms by taxonomical specialists who were proficient in morphological characteristics of the species. Hence, the work has a fair amount of difficulties in delimitation of species which share common characteristics in key morphological features. This project adopts the methodology of molecular species delimitation, so that it enables to deepen the biodiversity analysis further, and is expected to promote the understanding and conservation of the biodiversity in the area.

Personas asociadas al proyecto:

Kenzi Takamura

Métodos de muestreo

Samples were collected from sediments using Ekman-Birge grab sampler (15 cm square in the mouth), and from aquatic weed stems (1m) with leaves by hands or aquatic weed sampler. The chironomids were sorted on ice in order to restrain degradation of DNA and preserved individually in 1.5 ml plastic tubes in a freezer for DNA analysis.

Área de Estudio Larvae of chironomid species were collected from 20 ponds in Hyogo, Japan in May and September 2012.
Control de Calidad Spelling of scientific names were checked against the GBIF Backbone Taxonomy (GBIF Secretariat 2022). Geographical coordinates were validated using GSI maps provided by Geospatial Information Authority of Japan.

Descripción de la metodología paso a paso:

  1. Morphological identification was performed during the sorting based on the morphological keys (e.g., Andersen et al., 2013; Japan Chironomid Workshop, 2010), and a small number of larvae with unique morphological characters were identified as species.
  2. DNA extraction and sequencing as well as species delimitation based on the sequences, were conducted as described in Takamura et al. (2021) and Takamura et al. (2017).
  3. Specimen data was organized into species occurrence data accompanied with DNA data using a MySQL database. A DDBJ link including accession number was stored in associatedSequences for both DDBJ registered and non-registered specimen records, as far as sharing the same sequences. Specimen records registered to DDBJ can be filtered by occurrenceRemarks. Coordinate uncertainty is represented by a half of the length of the major axis of each pond.

Referencias bibliográficas

  1. Andersen, T., Ekrem, T., & Cranston, P. S. (2013) 1. The larvae of the Chironomidae (Diptera) of the Holarctic Region –Introduction. In T. P. Andersen, P. S. Cranston, & J. H. Elper (Eds.), Chironomidae of the Holarctic Region: Keys and diagnoses –Larvae (pp. 7–12). Insect Systematics & Evolution, Supplement 66.
  2. Folmer O., Black M., Hoeh W., Lutz R., Vrijenhoek R. (1994) DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Molecular Marine Biology and Biotechnology, 3, 294–299.
  3. GBIF Secretariat (2022). GBIF backbone taxonomy. Checklist dataset https://doi.org/10.15468/39omei accessed via. GBIF.org on 2022-04-08.
  4. Japan Chironomid Workshop (Nippon-Yusurika Kenkyukai). (2010) Chironomidae of Japan. Bunichi Sogo Shuppan, Tokyo.
  5. Takamura K., Ueno R., Kondo N.I., Ohbayashi K. (2021) Pond chironomid communities revealed by molecular species delimitation reflect eutrophication. Ecology and Evolution, 11, 4193–4204. https://doi.org/10.1002/ece3.7315 10.1002/ece3.7315
  6. Takamura, K., Ueno, R., Kondo, N.I., Ohbayashi, K. (2017) DNA-sequence-based species delimitation for larval chironomid samples collected from Japanese farm ponds. Japanese Journal of Limnology, 78, 35–43. https://doi.org/10.3739/rikusui.78.35. (in Japanese) 10.3739/rikusui.78.35

Metadatos adicionales

Identificadores alternativos 12bcc17a-9eb7-4377-96df-1a2135900550
https://gbif.jp/ipt/resource?r=nies_pond_chironomid