New data on rotifers (Rotifera) from European waterbodies

Occurrence
最新バージョン Marine Research Institute, Klaipeda University により出版 1月 15, 2026 Marine Research Institute, Klaipeda University
公開日:
2026年1月15日
ライセンス:
CC-BY 4.0

DwC-A形式のリソース データまたは EML / RTF 形式のリソース メタデータの最新バージョンをダウンロード:

DwC ファイルとしてのデータ ダウンロード 4,862 レコード English で (219 KB) - 更新頻度: unknown
EML ファイルとしてのメタデータ ダウンロード English で (24 KB)
RTF ファイルとしてのメタデータ ダウンロード English で (21 KB)

説明

This survey is the result of long-term study of rotifers in European waters conducted by the authors of the dataset. All major types of European freshwater and brackish inland water bodies were studied - lotic (rivers, streams, brooks, waterfalls, canals), lentic (lakes, ponds, swamps, bogs, marshes, puddles, cryoconite holes and other temporary waterbodies) and transitional (estuaries). The littoral zone of the Black Sea and the south coast of La Manche represent marine biotopes in this dataset.The studies were conducted from 1976 to 2016 during which period more than 961 samples were collected and processed. Sampling covered 16 countries, the territory from Arctic to Mediterranean including 21 localities with protected status (with the necessary permissions). Part of the material from Northern Ukraine was collected by E. Ovander in Chernobyl exclusion zone and nearby regions before the Chernobyl catastrophe (1977-1981). Latitudes ranged from N 79.0 to N 40.9, and altitudes from 0 to 1398 m above sea level. The total number of rotifer records in the dataset is 4,862, these include 472 taxa of the species rank (species and subspecies) belonging to 83 genera (67 of Monogononta, 15 of Bdelloidea, and 1 of Seisonida). For some samples, the dataset also includes measurements of the environmental parameters (water temperature, pH, oxygen concentration, salinity) along with the rotifer densities per L of volume.

データ レコード

この オカレンス(観察データと標本) リソース内のデータは、1 つまたは複数のデータ テーブルとして生物多様性データを共有するための標準化された形式であるダーウィン コア アーカイブ (DwC-A) として公開されています。 コア データ テーブルには、4,573 レコードが含まれています。

この IPT はデータをアーカイブし、データ リポジトリとして機能します。データとリソースのメタデータは、 ダウンロード セクションからダウンロードできます。 バージョン テーブルから公開可能な他のバージョンを閲覧でき、リソースに加えられた変更を知ることができます。

バージョン

次の表は、公にアクセス可能な公開バージョンのリソースのみ表示しています。

引用方法

研究者はこの研究内容を以下のように引用する必要があります。:

Iakovenko N, Lukashanets D, Ejsmont-Karabin J, Bielańska-Grajner I, Ovander E, Tsavkova V, Fontaneto D (2026). New data on rotifers (Rotifera) from European waterbodies. Version 1.10. Marine Research Institute, Klaipeda University. Occurrence dataset. https://cloud.gbif.org/eca/resource?r=aquatic_rotifers&v=1.10

権利

研究者は権利に関する下記ステートメントを尊重する必要があります。:

パブリッシャーとライセンス保持者権利者は Marine Research Institute, Klaipeda University。 This work is licensed under a Creative Commons Attribution (CC-BY 4.0) License.

GBIF登録

このリソースをはGBIF と登録されており GBIF UUID: 36c840bb-6a98-4c8c-bd29-0b84b426b95cが割り当てられています。   Participant Node Managers Committee によって承認されたデータ パブリッシャーとして GBIF に登録されているMarine Research Institute, Klaipeda University が、このリソースをパブリッシュしました。

キーワード

Occurrence; bdelloids; monogononts; lotic; lentic; species

連絡先

Nataliia Iakovenko
  • メタデータ提供者
  • 最初のデータ採集者
  • 連絡先
Czech University of Life Sciences in Prague
  • Kamýcká 129 Praha 6 - Suchdol
165 00 Prague
CZ
  • +420775513470
Dzmitry Lukashanets
  • 最初のデータ採集者
  • 連絡先
Marine Research Institute, Klaipeda University
  • Universiteto ave. 17
92294 Klaipeda
- Please choose -
LT
  • +37069379994
Jolanta Ejsmont-Karabin
  • 最初のデータ採集者
Nencki Institute of Experimental Biology, Polish Academy of Sciences
  • 3 Pasteur Str.
02-093 Warsaw
PL
Irena Bielańska-Grajner
  • 最初のデータ採集者
University of Silesia
  • Bankowa 12
40-007 Katowice
PL
Eleonora Ovander
  • 最初のデータ採集者
Schmalhausen Institute of Zoology of National Academy of Sciences of Ukraine
  • Vul. B. Khmelnytskogo, 15
01054 Kyiv
UA
Veselka Tsavkova
  • 最初のデータ採集者
Institute of Biodiversity and Ecosystem Research Bulgarian Academy of Sciences
  • 2 Gagarin Street
1113 Sofia
BG
Diego Fontaneto
  • 最初のデータ採集者
Water Research Institute of the National Research Council
  • Viale Tonolli 50
28922 Verbania Pallanza

地理的範囲

(i) Austria – Tyrol; (ii) Belarus – Minsk, Brest, Vitebsk, Grodno, Gomel and Mogiliov oblast; (iii) Bulgaria – Silistra, Sofia and Plovdiv oblast, Srebarna Nature Reserve; (iv) Finland - Kanta-Häme region, Torronsuo National Park; (v) France – Brittany, coast near Roscoff; (vi) Germany – Rhineland-Palatinate and Saxony states; (vii) Italy – Friuli-Venezia Giulia, Lombardy, Piedmont, Tuscany, Umbria regions; (viii) Montenegro – Lake Skadar; (ix) Netherlands - Westerwolde municipality; (x) North Macedonia – Lake Prespa; (xi) Norway – Svalbard archipelago; (xii) Poland – Lesser Poland, Lower Silesian, Lubusz, Podlaske, Pomeranian, Warmian-Masurian voivodeships; (xiii) Sweden – Kronoberg region; (xiv) The Czech Republic – Central Bohemian, South Bohemian, Moravian-Silesian regions; (xv) The United Kingdom – South East England; (xvi) Ukraine –Cherkassy, Chernihiv, Dnipro, Donets’k, Ivano-Frankivs’k, Kharkiv, Khmelnyts’k, Kyiv, Lviv, Mykolaiv, Odessa, Poltava, Rivne, Sumy, Ternopil, Volyn, Zhytomyr, Zakarpattia oblast and AR Crimea.

座標(緯度経度) 南 西 [40.98, -3.98], 北 東 [79.07, 54.09]

生物分類学的範囲

All records in the dataset are of Phyllum Rotifera, Classes Eurotatoria (both of Subclass Monogononta and Bdelloidea) and Pararotatoria. The only recorded species of Pararotatoria is Seison nebaliae Grube, 1859 found on crustacean Nebalia sp. from the southern coast of La Manche. Monogonont rotifers (orders Ploima, Collothecaceae and Flosculariaceae) accounted for the majority of records (68.8%). Species with uncertain affiliation or potentially new for science were indicated as Genus sp., those different from the nominal description (mostly potentially new) are designated as cf.

Phylum Rotifera (rotifers)

時間的範囲

生成(収集)期間 1976-2016

プロジェクトデータ

The project deals with the latitudinal diversity gradient (LDG), which is one of the key structural characteristics of biodiversity. In its initial concept, LDG refers to the quantitative changes (increase or decrease) in species richness from the poles to the equator. In most terrestrial macroorganisms, LDG is characterized by higher diversity near the equator, while aquatic species tend to show increasing diversity toward the poles. However, for limno-terrestrial microfauna (microscopic invertebrates inhabiting wet soil, moss, and lichens) the presence and shape of LDG remain unclear. The main aim of the project is to estimate the prominence and shape of the global latitudinal diversity gradient (LDG) in limno-terrestrial bdelloid rotifers (Bdelloidea, Rotifera Bdelloidea), which represent one of the most poorly studied groups of microfauna. The general strategy of the project involves the use of both conventional and metabarcoding techniques (extraction and sequencing of total DNA from already collected frozen soil and moss samples) to estimate and compare diversity metrics. Secondly, the project aims to inventory rotifer biodiversity in less studied regions, particularly in the Arctic and Antarctica. Two European universities are involved in the project: Klaipėda University as the lead applicant, and the Czech University of Life Sciences Prague as the co-applicant.

タイトル ROTISFERA 'Global patterns of microinvertebrate distribution: does diversity decrease poleward in rotifers (Rotifera: Bdelloidea)?’
識別子 NDICI-GEO-NEAR/2022/434-092-0068
ファンデイング EU
Study Area Description The project encompasses all major regions of the Earth.

プロジェクトに携わる要員:

Dzmitry Lukashanets
  • 論文著者
Nataliia Iakovenko
  • 論文著者

収集方法

Sampling was performed using standard hydrobiological methods (Wallace et al 2006). Apstein nets were used for collecting plankton, plastic or glass samplers for collecting benthos, periphyton and psammon. Living samples were transported to the laboratory immediately after the collection in the dark and in thermally isolated vials or identified on site using mobile laboratory with the x400 total magnification field microscope. Fixation with 37% formaldehyde was used for preservation of the samples on site. The volume of the sample varied from 1-50 L concentrated to 250 mL (planktonic samples) to 50-250 mL (periphyton, benthos and psammon); rotifer densities were recalculated to -1L afterwards. All sampling sites were georeferenced. The environmental parameters (water temperature, pH, oxygen concentration, salinity) were measured on site using handheld digital devices, in the moment of collection (plankton) or immediately after in the collection vial (periphyton, benthos).

Study Extent All samples used in the dataset were collected within the frame of several research projects focused on the biodiversity and ecology of aquatic microfauna in Europe. The collections were either processed on site during the expeditions and field excursions (living specimen) or preserved fixed in 37% water solution of formaldehyde (preserved specimen).
Quality Control All people who identified rotifers are recognized specialists in rotifer diversity and taxonomy. Primarily first descriptions together with the existing identification keys and reviews on the taxonomy of rotifers were used (Bartos, 1959; Donner, 1965; Kutikova, 1970; Koste, 1978; keys of the series ‚Guides to the Identificatio of the Microinvertebrates of the Continental Waters of the World, Rotifera). Georeferenced data were checked by placing latitudes and longitudes on a map.

Method step description:

  1. Microscopic animals were isolated from fresh or 37% formaldehyde-preserved samples using fine glass micropipettes in a Petri dish or plankton counting chamber. When necessary, primary samples were concentrated using filtration through 50 µm net mesh to the volume up to 50 mL before the processing.
  2. Rotifers were counted and sorted under a binocular microscope (Olympus SZ61, Olympus SZX10, NR.3 Nikon SMZ1000).
  3. Isolated single animals were identified and photographed under the microscope with the total magnification of x400 (Nikon Eclipse Ts2R, NIB-100F inverted microscope, Olympus CX43). To observe trophi (sclerotized part of the masticatory apparatus) we were dissolving soft part of the rotifer in about 5:1 drops of water:commercial bleach solution; isolated trophi was then observed under oil immersion (total magnification x1,000). A set of custom needles and whiskers was used to rotate the rotifer to observe the important traits (Taylor, 2005).
  4. Rotifer densities were equalized to 1,000 cm3 (-1L).

書誌情報の引用

  1. De Smet, W. H., 1996. Rotifera 4: The Proalidae (Monogononta). Guides to the Identification of the Macroinvertebrates of the Continental Waters of the World 9. SPB Academic Publishing BV, 102 p. De Smet, 1996
  2. De Smet, W. H. & Pourriot, R., 1997. Rotifera 5: The Dicranophoridae (Monogononta) and The Ituridae (Monogononta). Guides to the Identification of the Macroinvertebrates of the Continental Waters of the World 12. SPB Academic Publishing BV, 344 p. De Smet and Pourriot, 1997
  3. Donner J (1965) Ordnung Bdelloidea (Rotatoria, Rädertiere). Akademie Verlag, 297p. [in German] Donner, 1965
  4. Koste, W., 1978. Rotatoria. Die Rädertiere Mitteleuropas, begründet von Max Voigt. Monogononta. Gebrüder Borntraeger, Berlin, Stuttgart: 673 pp, 234 plates. Koste, 1978
  5. Kutikova, L. A. 1970. Kolovratki Fauny SSSR (Rotatoria). In: Fauna of the USSR, Vol. 104. Academy of Sciences of the USSR, Leningrad. 744 p. [In Russian] Kutikova, 1970
  6. Nogrady, T. , Pourriot, R. & Segers, H., 1995 Rotifera 3. Notommatidae and Scaridiidae. Guides to the Identification of the Microinvertebrates of the Continental Waters of the World 6. (H. J. Dumont & T. Nogrady eds). SPB Academic Publishing BV, 248 p. Nogrady et al., 1995
  7. Nogrady, T. & Segers, H., 2002 Rotifera 6: Asplanchnidae, Gastropodidae, Lindiidae, Microcodidae, Synchaetidae. Guides to the Identification of the Microinvertebrates of the Continental Waters of the World 6. (H. J. Dumont & T. Nogrady eds). SPB Academic Publishing BV, 264 p. Nogrady and Segers, 2002
  8. Segers, H., 1995. Rotifera 2: The Lecanidae (Monogononta). Guides to the Identification of the Microinvertebrates of the Continental Waters of the World 6. (H. J. Dumont & T. Nogrady eds). SPB Academic Publishing BV, 226 pp. Segers, 1995
  9. Taylor H.L., 2005. Rotifers: Habitat to Archival Slide - Laboratory and Field Methods for Working with Rotifers and other Microinvertebrates. Taylor Laboratory (Serbin Printing, Inc.) Sarasota, FL. Taylor, 2005
  10. R. L. Wallace, T. W. Snell, C. Ricci, and T. Nogrady: Rotifera: Volume 1—Biology, Ecology and Systematics (2nd edn): Backhuys Publishers, 2006, 299 pp, Paperback, €76.00, ISBN 90-5782-178-8. J Paleolimnol 47, 159–159. https://doi.org/10.1007/s10933-011-9539-4 Wallace et al., 2006
  11. Bartoš E, 1959. Viřnici - Rotatoria, Fauna ČSR. ČSAV, Prague, 603p. Bartos, 1959

追加のメタデータ

代替識別子 36c840bb-6a98-4c8c-bd29-0b84b426b95c
https://cloud.gbif.org/eca/resource?r=aquatic_rotifers