この sampling event 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、3,961 レコードが含まれています。
拡張データ テーブルは1 件存在しています。拡張レコードは、コアのレコードについての追加情報を提供するものです。 各拡張データ テーブル内のレコード数を以下に示します。
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：
Kiggundu V, Mwebaza-Ndawula L, Makanga B, Nachuha S, Musinguzi L, Natugonza V (2019): Zooplankton occurrences (present/absent) and community structure in three habitat types in northern Lake Victoria, Uganda. v1.2. National Fisheries Resources Research Institute. Dataset/Samplingevent. http://ipt-uganda.gbif.fr/resource?r=zooplankton&v=1.2
パブリッシャーとライセンス保持者権利者は National Fisheries Resources Research Institute。 This work is licensed under a Creative Commons Attribution (CC-BY) 4.0 License.
Samplingevent; Occurrence; Uganda; Zooplankton; Lake Victoria
The study was undertaken in the Napoleon Gulf, Lake Victoria and nearby stabilizing waste water ponds.
|座標（緯度経度）||南 西 [0.378, 33.192], 北 東 [0.476, 33.294]|
This dataset covers freshwater zooplankton.
|Genus||Afrocyclops, Ascomorpha, Asplanchna, Brachionus, Chydorus, Euclanis, Eucyclops, Hexathra, Macrothrix, Mesocyclops, Platyias, Polyarthra, Synchaeta, Trichocerca|
|Species||Bosmina longirostris, Brachionus angularis, Brachionus bidentata, Brachionus budapestinensis, Brachionus calyciflorus, Brachionus caudatus, Brachionus dimidiatus, Brachionus falcatus, Brachionus forficula, Brachionus patulus, Brachionus plicatilis, Brachionus quadridentatus, Brachionus urceolaris, Ceriodaphnia cornuta, Daphnia longispina, Daphnia lumholtzi, Diaphanosoma excisum, Filinia longiseta, Filinia opoliensis, Keratella cochlearis, Keratella tropica, Lecane bulla, Lecane luna, Moina micrura, Platyias quadricornis, Polyarthra vulgaris, Synchaeta pectinata, Thermocyclops decipiens, Thermocyclops emini, Thermocyclops incisus, Thermocyclops neglectus, Thermocyclops oblongatus, Thermodiaptomus galeboides, Trichocerca cylindrica, Tropocyclops confinnis, Tropocyclops tenellus, Tropodiaptomus stuhlmanni|
This work was part of an MSc research project that was done in three habitat types in Napoleon Gulf, Lake Victoria, Uganda (Vincent et al., 2012). The results of the project indicated that zooplankton community structure that can be used as a biological indicator of water quality in the Lake Victoria region, and confirmed the negative impacts of environmental conditions created by release of nutrients into the water systems.
|タイトル||Variations in zooplankton community structure and water quality conditions in three habitat types in northern Lake Victoria|
|ファンデイング||The project had no funding to declare|
|Study Area Description||The study area was the Northern part of Lake Victoria in Jinja.|
|研究の意図、目的、背景など（デザイン）||Three habitats, as described below were investigated in the study. The three study areas represent a water quality gradient of increasing nutrient levels from source of the Nile to the sewage lagoons. Source of the Nile This habitat marks the headwaters of the Nile River. It is an active tourist site with a range of commercial activities such as kiosks, bars, and artisanal fishing. Napoleon Gulf A number of commercial activities occur in and around this relatively shallow bay (maximum of 20 m depth) habitat. Key activities include artisanal fishing, fish landing sites, cage fish farming, farming, and lakeside markets. The gulf receives effluents from surrounding Jinja town as well as water from associated sewage treatment plant. If not appropriately controlled, such activities have the potential to affect water quality in this gulf. Multiple sites were sampled within the gulf (Vincent et al., 2012). The Sewage Lagoons (SL) Six sewage stabilization ponds that receive industrial and domestic effluents, as well as runoff from the Jinja Municipal Council (JMC), are located at Kirinya. Of the six ponds, only the two last ponds, which contain fewer organic solids, and empty their effluents to the Napoleon gulf through a 0.5 km stretch of swamp, were sampled.|
Zooplankton samples were collected with a conical plankton net (Nansen type; mesh size 60 µm; mouth diameter 0.25 m), towed vertically through the water column, as described by Mwebaza-Ndawula (1994). Each sample was washed with tap water in the laboratory over a 53 µm sieve to remove the preservative and then diluted to a suitable volume, depending on the concentration of organisms in each sample. Sub-samples of 2, 2, 5 and 10 mL were taken with a wide bore automatic pipette from a well agitated sample. The sub-sample series were performed to consider the more abundant organisms in 2, 2 mL series, and the rarer organisms in 2, 2, 5, 10 mL series. Each sub-sample was put into a counting chamber and examined under inverted microscope (Hund, Wetzlar, Germany) at X100 magnification for taxonomic determination, and X40 for counting and organism body measurements.
|Study Extent||Sampling was conducted from October 2009 to January 2010. Sampling was done in the three habitats in northern Lake Victoria, including sewage lagoons at the lake shores, Napoleon Gulf (NG) and the interface between the lake and the Nile River (also known as Source of the Nile River). A total of 18 sites were sampled per trip (two transects per habitat, with three sites per transect), resulting in a total of 72 samples collected during the study period.|
|Quality Control||Some zooplankton were able to be identified to species level using published taxonomic keys (Sars 1895; Pennak 1953; Brooks 1957; Rutner-Kolisko 1974; Koste 1978; Boxshall & Braide 1991; Korinek 1999). Taxonomic names were cross-checked using the World Register of Marine Species (WoRMS). Volume densities of organisms were calculated from the counts data, with reference to the sample net mouth diameter and water column depth at each sampling site (Mwebaza-Ndawula L., 1998).|
Method step description:
- Collection of the zooplankton In the field, a conical plankton net (Nansen type; mesh size 60 µm; mouth diameter 0.25 m), towed vertically through the water column to have an integrated sample was used to collected the zooplankton. Three hauls were taken per site and were combined to make a composite sample. Preserving the samples The composite sample was preserved with sugar-formalin, in a ratio of 1-part formalin to 10 parts sample volume, the sugar was to stop the ballooning of cladocerans for easy identification. Identification of zooplankton taxa In the laboratory, samples were washed using a sieve of 53 µm to remove the fixatives. Some organisms were identified to species level using published keys (Sars, 1895, Pennak, 1953, Brooks, 1957, Rutner-Kolisko, 1974, Koste, 1978, Boxshall and Braide, 1991, Korinek, 1999). Density of organisms were calculated from the counts data, with reference to the sample net mouth diameter and water column depth at each sampling site (Mwebaza-Ndawula, 1998, unpubl. PhD Thesis)
- Boxshall, G. A. & Braide, E. I. 1991. The freshwater cyclopoid copepods of Nigeria, with an illustrated key to all species. Bull. Br. Mus. Nat. Hist. (zool), 57, 185-212.
- Brooks, J. L. 1957. The systematics of North American Daphnia. Memoirs of the connecticut academy of Arts and Sciences, 13, 1-18.
- Korinek, V. 1999. A guide to limnetic species of Cladocera of African inland waters (Crustacea, Branchiopoda). The International Association of Theoretical and Applied Limnology. SIL.
- Koste, W. 1978. Rotatoria. Die Radertiere Mitteleuropas. Ein Bestimmungwerk, begrundet vo Max Voig. Uberrordnung Monogononta. Gebruder Borntraeger, Berlin, Stuttgart.
- Pennak, R. W. 1953. Fresh-water invertebrates of the United States, New York, John Wiley & Sons.
- Rutner-Kolisko, A. 1974. Planktonic rotifers: Biology and taxonomy, Biological Station Lunz of the Austrian Academy of Science. E. Schweizerbart’sche Verlagsbuchhandlung.
- Sars, G. O. 1895. An account of the Crustacea of Norway, Christiania and Copenhagen Alb. Cammermeyer Forlag
- Vincent, K., Mwebaza-Ndawula, L., Makanga, B. & Nachuha, S. 2012. Variations in zooplankton community structure and water quality conditions in three habitat types in northern Lake Victoria. Lakes & Reservoirs: Research & Management, 17, 83-95.