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Marine Amphipoda and environmental occurrence around Iceland (2021)

Lörz, Anne-Nina ; Brix, Saskia ; Oldeland, Jens ; [et al.]

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Publication Date: 2023-01-13

Description: The distribution and diversity of amphipod crustaceans of Icelandic waters, in water depths between 18-3700 m, was examined and how it relates to environmental parameters and depth. Data on amphipod occurrence and abundance were collated from the historical literature (Ingolf Expedition, 1895-96), as well as recent expeditions (1998-2018) such as BioIce (Benthic invertebrates of Icelandic waters) and IceAge (Icelandic marine Animals: Genetics and Ecology, www.iceage-project.org) resulting in 355 amphipod species amongst 71,108 individuals from 532 localities. Samples were taken by a number of trawled sampling devices, including different types of dredges and sledges, as well as Remotely Operated Vehicle (ROV). A 1 ° hexagonal grid was constructed in to map the distribution of the amphipod species alongside twelve environmental factors retrieved from the Bio-Oracle 2.1 database. Due to strong autocorrelation of some of these factors, the analysis was limited to a set of eight variables: depth, pH, phytobiomass, velocity, dissolved oxygen, dissolved iron, salinity, and seabed temperature. Based on these faunistic and environmental data, four biogeographical clusters could be identified: a coastal cluster, a species cluster along the borders of the Greenland-Iceland-Faroe Ridge (GIFR), which separates the deep-sea basins north and south of Iceland, a cluster that is limited to the deep sea to the north of the GIFR, and one that is restricted to the deep-sea south of the GIFR. Diversity as measured by Hill numbers differed considerably between these clusters, with the diversity of the shallow cluster (Coastal and GIFR) to be higher compared to the two deep-sea cluster (Deep North and Deep South). Analysing diversity across a depth gradient, diversity showed a hump-shaped curve with diversity peaking at upper slope (500 m) depth. Depth, salinity and temperature of the seabed were identified as the main parameters to shape the distribution of amphipods around Iceland. Perceived diversity and distribution patterns were discussed with regard to the influence of historical (e.g. oceanography, climatic conditions) and contemporary environmental factors.

Keywords: Amphipoda Atlantic Crustacea; Ecology & Environment; North; Peracarida; Zoology

Type: Dataset

Format: application/zip, 2 datasets

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Environmental parameters including coordinates for 532 stations in icelandic waters (2021)

Lörz, Anne-Nina ; Brix, Saskia ; Oldeland, Jens ; [et al.]

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Publication Date: 2023-05-12

Keywords: 7709-62; 7709-66; 7709-72; 7709-73; 7709-85; Agassiz Trawl; AGT; Amphipoda Atlantic Crustacea; Arctic Ocean; BC; BIOFAR_St113; BIOFAR_St124; BIOFAR_St15; BIOFAR_St158; BIOFAR_St167; BIOFAR_St168; BIOFAR_St169; BIOFAR_St170; BIOFAR_St171; BIOFAR_St172; BIOFAR_St189; BIOFAR_St19; BIOFAR_St261; BIOFAR_St264; BIOFAR_St267; BIOFAR_St27; BIOFAR_St271; BIOFAR_St274; BIOFAR_St28; BIOFAR_St32; BIOFAR_St380; BIOFAR_St382; BIOFAR_St417; BIOFAR_St421; BIOFAR_St458; BIOFAR_St459; BIOFAR_St481; BIOFAR_St489; BIOFAR_St490; BIOFAR_St493; BIOFAR_St494; BIOFAR_St495; BIOFAR_St499; BIOFAR_St500; BIOFAR_St514; BIOFAR_St515; BIOFAR_St516; BIOFAR_St517; BIOFAR_St522; BIOFAR_St524; BIOFAR_St610; BIOFAR_St65; BIOFAR_St68; BIOFAR_St689; BIOFAR_St691; BIOFAR_St698; BIOFAR_St699; BIOFAR_St70; BIOFAR_St705; BIOFAR_St719; BIOFAR_St73; BIOFAR_St730; BIOFAR_St731; BIOFAR_St736; BIOFAR_St739; BIOFAR_St742; BIOFAR_St744; BIOFAR_St75; BIOFAR_St750; BIOFAR_St770; BIOFAR_St82; BIOFAR_St88; BIOFAR_St89; BIOFAR_St9014; BIOFAR_St95; BIOICE_St2004; BIOICE_St2005; BIOICE_St2006; BIOICE_St2009; BIOICE_St2023; BIOICE_St2042; BIOICE_St2044; BIOICE_St2046; BIOICE_St2049; BIOICE_St2051; BIOICE_St2056; BIOICE_St2057; BIOICE_St2058; BIOICE_St2060; BIOICE_St2061; BIOICE_St2062; BIOICE_St2064; BIOICE_St2067; BIOICE_St2070; BIOICE_St2074; BIOICE_St2075; BIOICE_St2077; BIOICE_St2081; BIOICE_St2086; BIOICE_St2087; BIOICE_St2088; BIOICE_St2089; BIOICE_St2090; BIOICE_St2091; BIOICE_St2093; BIOICE_St2094; BIOICE_St2096; BIOICE_St2097; BIOICE_St2099; BIOICE_St2100; BIOICE_St2103; BIOICE_St2107; BIOICE_St2108; BIOICE_St2110; BIOICE_St2111; BIOICE_St2113; BIOICE_St2114; BIOICE_St2116; BIOICE_St2117; BIOICE_St2118; BIOICE_St2119; BIOICE_St2122; BIOICE_St2124; BIOICE_St2126; BIOICE_St2128; BIOICE_St2129; BIOICE_St2131; BIOICE_St2132; BIOICE_St2134; BIOICE_St2135; BIOICE_St2136; BIOICE_St2137; BIOICE_St2140; BIOICE_St2142; BIOICE_St2143; BIOICE_St2145; BIOICE_St2146; BIOICE_St2147; BIOICE_St2149; BIOICE_St2150; BIOICE_St2152; BIOICE_St2154; BIOICE_St2156; BIOICE_St2161; BIOICE_St2164; BIOICE_St2167; BIOICE_St2170; BIOICE_St2172; BIOICE_St2175; BIOICE_St2177; BIOICE_St2178; BIOICE_St2180; BIOICE_St2201; BIOICE_St2207; BIOICE_St2210; BIOICE_St2212; BIOICE_St2213; BIOICE_St2215; BIOICE_St2219; BIOICE_St2221; BIOICE_St2226; BIOICE_St2229; BIOICE_St2233; BIOICE_St2236; BIOICE_St2237; BIOICE_St2255; BIOICE_St2257; BIOICE_St2265; BIOICE_St2268; BIOICE_St2273; BIOICE_St2282; BIOICE_St2285; BIOICE_St2288; BIOICE_St2299; BIOICE_St2303; BIOICE_St2308; BIOICE_St2311; BIOICE_St2314; BIOICE_St2317; BIOICE_St2318; BIOICE_St2319; BIOICE_St2321; BIOICE_St2322; BIOICE_St2323; BIOICE_St2324; BIOICE_St2325; BIOICE_St2327; BIOICE_St2328; BIOICE_St2330; BIOICE_St2332; BIOICE_St2334; BIOICE_St2337; BIOICE_St2340; BIOICE_St2342; BIOICE_St2345; BIOICE_St2346; BIOICE_St2348; BIOICE_St2349; BIOICE_St2352; BIOICE_St2355; BIOICE_St2356; BIOICE_St2357; BIOICE_St2358; BIOICE_St2359; BIOICE_St2360; BIOICE_St2362; BIOICE_St2363; BIOICE_St2364; BIOICE_St2366; BIOICE_St2367; BIOICE_St2368; BIOICE_St2373; BIOICE_St2374; BIOICE_St2376; BIOICE_St2379; BIOICE_St2380; BIOICE_St2381; BIOICE_St2382; BIOICE_St2393; BIOICE_St2398; BIOICE_St2401; BIOICE_St2403; BIOICE_St2404; BIOICE_St2406; BIOICE_St2407; BIOICE_St2409; BIOICE_St2410; BIOICE_St2412; BIOICE_St2414; BIOICE_St2415; BIOICE_St2417; BIOICE_St2418; BIOICE_St2420; BIOICE_St2423; BIOICE_St2424; BIOICE_St2426; BIOICE_St2427; BIOICE_St2429; BIOICE_St2430; BIOICE_St2431; BIOICE_St2434; BIOICE_St2435; BIOICE_St2438; BIOICE_St2440; BIOICE_St2441; BIOICE_St2451; BIOICE_St2454; BIOICE_St2456; BIOICE_St2457; BIOICE_St2459; BIOICE_St2460; BIOICE_St2463; BIOICE_St2466; BIOICE_St2469; BIOICE_St2472; BIOICE_St2474; BIOICE_St2475; BIOICE_St2480; BIOICE_St2490; BIOICE_St2491; BIOICE_St2493; BIOICE_St2497; BIOICE_St2499; BIOICE_St2501; BIOICE_St2502; BIOICE_St2507; BIOICE_St2508; BIOICE_St2509; BIOICE_St2512; BIOICE_St2514; BIOICE_St2516; BIOICE_St2518; BIOICE_St2522; BIOICE_St2524; BIOICE_St2526; BIOICE_St2527; BIOICE_St2531; BIOICE_St2540; BIOICE_St2545; BIOICE_St2554; BIOICE_St2555; BIOICE_St2564; BIOICE_St2566; BIOICE_St2568; BIOICE_St2570; BIOICE_St2573; BIOICE_St2575; BIOICE_St2576; BIOICE_St2578; BIOICE_St2579; BIOICE_St2581; BIOICE_St2583; BIOICE_St2585; BIOICE_St2588; BIOICE_St2589; BIOICE_St2591; BIOICE_St2594; BIOICE_St2595; BIOICE_St2597; BIOICE_St2606; BIOICE_St2610; BIOICE_St2613; BIOICE_St2616; BIOICE_St2619; BIOICE_St2622; BIOICE_St2629; BIOICE_St2637; BIOICE_St2638; BIOICE_St2648; BIOICE_St2652; BIOICE_St2655; BIOICE_St2660; BIOICE_St2669; BIOICE_St2673; BIOICE_St2675; BIOICE_St2678; BIOICE_St2682; BIOICE_St2692; BIOICE_St2697; BIOICE_St2698; BIOICE_St2700; BIOICE_St2701; BIOICE_St2704; BIOICE_St2707; BIOICE_St2712; BIOICE_St2713; BIOICE_St2717; BIOICE_St2719; BIOICE_St2720; BIOICE_St2726; BIOICE_St2736; BIOICE_St2743; BIOICE_St2745; BIOICE_St2749; BIOICE_St2750; BIOICE_St2751; BIOICE_St2756; BIOICE_St2758; BIOICE_St2759; BIOICE_St2776; BIOICE_St2777; BIOICE_St2779; BIOICE_St2783; BIOICE_St2787; BIOICE_St2789; BIOICE_St2790; BIOICE_St2814; BIOICE_St2823; BIOICE_St2824; BIOICE_St2829; BIOICE_St2830; BIOICE_St2844; BIOICE_St2846; BIOICE_St2849; BIOICE_St2856; BIOICE_St2859; BIOICE_St2860; BIOICE_St2863; BIOICE_St2864; BIOICE_St2867; BIOICE_St2868; BIOICE_St2900; BIOICE_St2904; BIOICE_St2907; BIOICE_St2909; BIOICE_St2912; BIOICE_St2920; BIOICE_St2921; BIOICE_St2923; BIOICE_St2926; BIOICE_St2930; BIOICE_St2932; BIOICE_St2934; BIOICE_St2937; BIOICE_St2939; BIOICE_St2940; BIOICE_St2943; BIOICE_St2944; BIOICE_St2951; BIOICE_St2959; BIOICE_St2976; BIOICE_St2979; BIOICE_St2981; BIOICE_St2983; BIOICE_St2986; BIOICE_St2998; BIOICE_St2999; BIOICE_St3004; BIOICE_St3023; BIOICE_St3025; BIOICE_St3028; BIOICE_St3029; BIOICE_St3032; BIOICE_St3033; BIOICE_St3039; BIOICE_St3043; BIOICE_St3046; BIOICE_St3047; BIOICE_St3048; BIOICE_St3050; BIOICE_St3054; BIOICE_St3056; BIOICE_St3061; BIOICE_St3062; BIOICE_St3067; BIOICE_St3069; BIOICE_St3099; BIOICE_St3108; BIOICE_St3115; BIOICE_St3154; BIOICE_St3158; BIOICE_St3170; BIOICE_St3236; BIOICE_St3246; BIOICE_St3247; BIOICE_St3249; BIOICE_St3250; BIOICE_St3275; BIOICE_St3276; BIOICE_St3280; BIOICE_St3501; BIOICE_St3510; BIOICE_St3515; Box corer; Chlorophyll total; Cruise/expedition; Current velocity; Davis Strait; DEPTH, water; Dredge; DRG; EBS; Ecology & Environment; Epibenthic sledge; Event label; extracted from Bio-Oracle 2.1; Gear; Grab; GRAB; Greenland Sea; IceAGE_1006_1; IceAGE_1010_1; IceAGE_1017_1; IceAGE_1019_1; IceAGE_1032_1; IceAGE_1033_1; IceAGE_1054_1; IceAGE_1057_1; IceAGE_1082_1; IceAGE_1086_1; IceAGE_1104_1; IceAGE_1119_1; IceAGE_1123_1; IceAGE_1132_1; IceAGE_1155_1; IceAGE_1159_1; IceAGE_1168_1; IceAGE_1172_1; IceAGE_1181_1; IceAGE_1184_1; IceAGE_1194_1; IceAGE_1219_1; IceAGE_1222_1; IceAGE_963_1; IceAGE_967_1; IceAGE_979_1; IceAGE_983_1; IceAGE-2_866_7; IceAGE-2_867_1; IceAGE-2_868_3; IceAGE-2_869_2; IceAGE-2_870_4; IceAGE-2_872_4; IceAGE-2_876_5; IceAGE-2_878_1; IceAGE-2_879_5; IceAGE-2_880_2; IceAGE-2_880_3; IceAGE-3_106; IceAGE-3_30; IceAGE-3_37; IceAGE-3_39; IceAGE-3_5; IceAGE-3_55; IceAGE-3_73; IceAGE-3_79; IceAGE-3_85; IceAGE-3_97; IceAGE-RR_106; IceAGE-RR_111; IceAGE-RR_124; IceAGE-RR_127; IceAGE-RR_136; IceAGE-RR_137; IceAGE-RR_149; IceAGE-RR_170; IceAGE-RR_171; IceAGE-RR_188; IceAGE-RR_212; IceAGE-RR_213; IceAGE-RR_216; IceAGE-RR_225; IceAGE-RR_228; IceAGE-RR_24; IceAGE-RR_35; IceAGE-RR_4; IceAGE-RR_64; IceAGE-RR_67; IceAGE-RR_7; IceAGE-RR_80; IceAGE-RR_83; IceAGE-RR_9; Iceland; Iceland Sea; Ingolf; INGOLF-101; INGOLF-102; INGOLF-103; INGOLF-104; INGOLF-105; INGOLF-112; INGOLF-113; INGOLF-115; INGOLF-116; INGOLF-117; INGOLF-118; INGOLF-120; INGOLF-124; INGOLF-126; INGOLF-127; INGOLF-128; INGOLF-138; INGOLF-139; INGOLF-140; INGOLF-143; INGOLF-15; INGOLF-4; INGOLF-40; INGOLF-44; INGOLF-58; INGOLF-6; INGOLF-7; INGOLF-78; INGOLF-80; INGOLF-87; INGOLF-90; INGOLF-95; INGOLF-96; INGOLF-98; Ingolf-Expedition; Iron; Latitude of event; Longitude of

Type: Dataset

Format: text/tab-separated-values, 7979 data points

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(Table 1) Characteristics of epibenthos sampling stations during Walther Herwig III Cruise WH233 along the southern shelf of Greenland

Stransky, Bente ; Brandt, Angelika

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Publication Date: 2023-05-12

Keywords: Arctic Ocean; Bottom water temperature; Date/Time of event; Davis Strait; EBS; Elevation of event; Epibenthic sledge; Event label; Greenland Sea; Haul length; Latitude of event; Longitude of event; Salinity; Sediment type; Walther Herwig III; WH233; WH233_1007; WH233_1013; WH233_1016; WH233_1023; WH233_1031; WH233_1046; WH233_1047; WH233_1075; WH233_1093; WH233_1112

Type: Dataset

Format: text/tab-separated-values, 40 data points

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(Table 3) Diversity, expected number of species and evenness of peracarids during Walther Herwig III Cruise WH233 along the southern shelf of Greenland

Stransky, Bente ; Brandt, Angelika

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Publication Date: 2023-05-12

Keywords: Arctic Ocean; Date/Time of event; Davis Strait; Diversity; EBS; Elevation of event; Epibenthic sledge; Event label; Expected number of species; Greenland Sea; Latitude of event; Longitude of event; Pielou evenness index; Walther Herwig III; WH233; WH233_1007; WH233_1013; WH233_1016; WH233_1023; WH233_1031; WH233_1046; WH233_1047; WH233_1075; WH233_1093; WH233_1112

Type: Dataset

Format: text/tab-separated-values, 148 data points

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Community matrix of amphipod species for 532 stations in icelandic waters (2021)

Lörz, Anne-Nina ; Brix, Saskia ; Oldeland, Jens ; [et al.]

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Publication Date: 2023-07-09

Keywords: 7709-62; 7709-66; 7709-72; 7709-73; 7709-85; Abludomelita gladiosa; Abludomelita obtusata; Acanthonotozoma cristatum; Acanthonotozoma serratum; Acanthostepheia malmgreni; Aceroides latipes; Aeginella spinosa; Aeginina longicornis; Agassiz Trawl; AGT; Ambasia atlantica; Ampelisca aequicornis; Ampelisca amblyops; Ampelisca compacta; Ampelisca eschrichtii; Ampelisca gibba; Ampelisca islandica; Ampelisca macrocephala; Ampelisca odontoplax; Ampelisca sp.; Ampelisca uncinata; Amphilochoides boecki; Amphilochoides serratipes; Amphilochus anoculus; Amphilochus hamatus; Amphilochus manudens; Amphilochus sp.; Amphilochus tenuimanus; Amphipoda Atlantic Crustacea; Amphithopsis longicaudata; Andaniella pectinata; Andaniexis abyssi; Andaniexis lupus; Andaniexis sp.; Andaniopsis nordlandica; Andaniopsis pectinata; Anonyx sp.; Apherusa glacialis; Apherusa sarsii; Apherusa sp.; Arctic Ocean; Argissa hamatipes; Arrhinopsis sp.; Arrhis phyllonyx; Arrhis sp.; Astyra abyssi; Astyra sp.; Austrosyrrhoe septentrionalis; Austrosyrrhoe sp.; Autonoe borealis; Bathymedon longimanus; Bathymedon obtusifrons; Bathymedon saussurei; Bathymedon sp.; BC; BIOFAR_St113; BIOFAR_St124; BIOFAR_St15; BIOFAR_St158; BIOFAR_St167; BIOFAR_St168; BIOFAR_St169; BIOFAR_St170; BIOFAR_St171; BIOFAR_St172; BIOFAR_St189; BIOFAR_St19; BIOFAR_St261; BIOFAR_St264; BIOFAR_St267; BIOFAR_St27; BIOFAR_St271; BIOFAR_St274; BIOFAR_St28; BIOFAR_St32; BIOFAR_St380; BIOFAR_St382; BIOFAR_St417; BIOFAR_St421; BIOFAR_St458; BIOFAR_St459; BIOFAR_St481; BIOFAR_St489; BIOFAR_St490; BIOFAR_St493; BIOFAR_St494; BIOFAR_St495; BIOFAR_St499; BIOFAR_St500; BIOFAR_St514; BIOFAR_St515; BIOFAR_St516; BIOFAR_St517; BIOFAR_St522; BIOFAR_St524; BIOFAR_St610; BIOFAR_St65; BIOFAR_St68; BIOFAR_St689; BIOFAR_St691; BIOFAR_St698; BIOFAR_St699; BIOFAR_St70; BIOFAR_St705; BIOFAR_St719; BIOFAR_St73; BIOFAR_St730; BIOFAR_St731; BIOFAR_St736; BIOFAR_St739; BIOFAR_St742; BIOFAR_St744; BIOFAR_St75; BIOFAR_St750; BIOFAR_St770; BIOFAR_St82; BIOFAR_St88; BIOFAR_St89; BIOFAR_St9014; BIOFAR_St95; BIOICE_St2004; BIOICE_St2005; BIOICE_St2006; BIOICE_St2009; BIOICE_St2023; BIOICE_St2042; BIOICE_St2044; BIOICE_St2046; BIOICE_St2049; BIOICE_St2051; BIOICE_St2056; BIOICE_St2057; BIOICE_St2058; BIOICE_St2060; BIOICE_St2061; BIOICE_St2062; BIOICE_St2064; BIOICE_St2067; BIOICE_St2070; BIOICE_St2074; BIOICE_St2075; BIOICE_St2077; BIOICE_St2081; BIOICE_St2086; BIOICE_St2087; BIOICE_St2088; BIOICE_St2089; BIOICE_St2090; BIOICE_St2091; BIOICE_St2093; BIOICE_St2094; BIOICE_St2096; BIOICE_St2097; BIOICE_St2099; BIOICE_St2100; BIOICE_St2103; BIOICE_St2107; BIOICE_St2108; BIOICE_St2110; BIOICE_St2111; BIOICE_St2113; BIOICE_St2114; BIOICE_St2116; BIOICE_St2117; BIOICE_St2118; BIOICE_St2119; BIOICE_St2122; BIOICE_St2124; BIOICE_St2126; BIOICE_St2128; BIOICE_St2129; BIOICE_St2131; BIOICE_St2132; BIOICE_St2134; BIOICE_St2135; BIOICE_St2136; BIOICE_St2137; BIOICE_St2140; BIOICE_St2142; BIOICE_St2143; BIOICE_St2145; BIOICE_St2146; BIOICE_St2147; BIOICE_St2149; BIOICE_St2150; BIOICE_St2152; BIOICE_St2154; BIOICE_St2156; BIOICE_St2161; BIOICE_St2164; BIOICE_St2167; BIOICE_St2170; BIOICE_St2172; BIOICE_St2175; BIOICE_St2177; BIOICE_St2178; BIOICE_St2180; BIOICE_St2201; BIOICE_St2207; BIOICE_St2210; BIOICE_St2212; BIOICE_St2213; BIOICE_St2215; BIOICE_St2219; BIOICE_St2221; BIOICE_St2226; BIOICE_St2229; BIOICE_St2233; BIOICE_St2236; BIOICE_St2237; BIOICE_St2255; BIOICE_St2257; BIOICE_St2265; BIOICE_St2268; BIOICE_St2273; BIOICE_St2282; BIOICE_St2285; BIOICE_St2288; BIOICE_St2299; BIOICE_St2303; BIOICE_St2308; BIOICE_St2311; BIOICE_St2314; BIOICE_St2317; BIOICE_St2318; BIOICE_St2319; BIOICE_St2321; BIOICE_St2322; BIOICE_St2323; BIOICE_St2324; BIOICE_St2325; BIOICE_St2327; BIOICE_St2328; BIOICE_St2330; BIOICE_St2332; BIOICE_St2334; BIOICE_St2337; BIOICE_St2340; BIOICE_St2342; BIOICE_St2345; BIOICE_St2346; BIOICE_St2348; BIOICE_St2349; BIOICE_St2352; BIOICE_St2355; BIOICE_St2356; BIOICE_St2357; BIOICE_St2358; BIOICE_St2359; BIOICE_St2360; BIOICE_St2362; BIOICE_St2363; BIOICE_St2364; BIOICE_St2366; BIOICE_St2367; BIOICE_St2368; BIOICE_St2373; BIOICE_St2374; BIOICE_St2376; BIOICE_St2379; BIOICE_St2380; BIOICE_St2381; BIOICE_St2382; BIOICE_St2393; BIOICE_St2398; BIOICE_St2401; BIOICE_St2403; BIOICE_St2404; BIOICE_St2406; BIOICE_St2407; BIOICE_St2409; BIOICE_St2410; BIOICE_St2412; BIOICE_St2414; BIOICE_St2415; BIOICE_St2417; BIOICE_St2418; BIOICE_St2420; BIOICE_St2423; BIOICE_St2424; BIOICE_St2426; BIOICE_St2427; BIOICE_St2429; BIOICE_St2430; BIOICE_St2431; BIOICE_St2434; BIOICE_St2435; BIOICE_St2438; BIOICE_St2440; BIOICE_St2441; BIOICE_St2451; BIOICE_St2454; BIOICE_St2456; BIOICE_St2457; BIOICE_St2459; BIOICE_St2460; BIOICE_St2463; BIOICE_St2466; BIOICE_St2469; BIOICE_St2472; BIOICE_St2474; BIOICE_St2475; BIOICE_St2480; BIOICE_St2490; BIOICE_St2491; BIOICE_St2493; BIOICE_St2497; BIOICE_St2499; BIOICE_St2501; BIOICE_St2502; BIOICE_St2507; BIOICE_St2508; BIOICE_St2509; BIOICE_St2512; BIOICE_St2514; BIOICE_St2516; BIOICE_St2518; BIOICE_St2522; BIOICE_St2524; BIOICE_St2526; BIOICE_St2527; BIOICE_St2531; BIOICE_St2540; BIOICE_St2545; BIOICE_St2554; BIOICE_St2555; BIOICE_St2564; BIOICE_St2566; BIOICE_St2568; BIOICE_St2570; BIOICE_St2573; BIOICE_St2575; BIOICE_St2576; BIOICE_St2578; BIOICE_St2579; BIOICE_St2581; BIOICE_St2583; BIOICE_St2585; BIOICE_St2588; BIOICE_St2589; BIOICE_St2591; BIOICE_St2594; BIOICE_St2595; BIOICE_St2597; BIOICE_St2606; BIOICE_St2610; BIOICE_St2613; BIOICE_St2616; BIOICE_St2619; BIOICE_St2622; BIOICE_St2629; BIOICE_St2637; BIOICE_St2638; BIOICE_St2648; BIOICE_St2652; BIOICE_St2655; BIOICE_St2660; BIOICE_St2669; BIOICE_St2673; BIOICE_St2675; BIOICE_St2678; BIOICE_St2682; BIOICE_St2692; BIOICE_St2697; BIOICE_St2698; BIOICE_St2700; BIOICE_St2701; BIOICE_St2704; BIOICE_St2707; BIOICE_St2712; BIOICE_St2713; BIOICE_St2717; BIOICE_St2719; BIOICE_St2720; BIOICE_St2726; BIOICE_St2736; BIOICE_St2743; BIOICE_St2745; BIOICE_St2749; BIOICE_St2750; BIOICE_St2751; BIOICE_St2756; BIOICE_St2758; BIOICE_St2759; BIOICE_St2776; BIOICE_St2777; BIOICE_St2779; BIOICE_St2783; BIOICE_St2787; BIOICE_St2789; BIOICE_St2790; BIOICE_St2814; BIOICE_St2823; BIOICE_St2824; BIOICE_St2829; BIOICE_St2830; BIOICE_St2844; BIOICE_St2846; BIOICE_St2849; BIOICE_St2856; BIOICE_St2859; BIOICE_St2860; BIOICE_St2863; BIOICE_St2864; BIOICE_St2867; BIOICE_St2868; BIOICE_St2900; BIOICE_St2904; BIOICE_St2907; BIOICE_St2909; BIOICE_St2912; BIOICE_St2920; BIOICE_St2921; BIOICE_St2923; BIOICE_St2926; BIOICE_St2930; BIOICE_St2932; BIOICE_St2934; BIOICE_St2937; BIOICE_St2939; BIOICE_St2940; BIOICE_St2943; BIOICE_St2944; BIOICE_St2951; BIOICE_St2959; BIOICE_St2976; BIOICE_St2979; BIOICE_St2981; BIOICE_St2983; BIOICE_St2986; BIOICE_St2998; BIOICE_St2999; BIOICE_St3004; BIOICE_St3023; BIOICE_St3025; BIOICE_St3028; BIOICE_St3029; BIOICE_St3032; BIOICE_St3033; BIOICE_St3039; BIOICE_St3043; BIOICE_St3046; BIOICE_St3047; BIOICE_St3048; BIOICE_St3050; BIOICE_St3054; BIOICE_St3056; BIOICE_St3061; BIOICE_St3062; BIOICE_St3067; BIOICE_St3069; BIOICE_St3099; BIOICE_St3108; BIOICE_St3115; BIOICE_St3154; BIOICE_St3158; BIOICE_St3170; BIOICE_St3236; BIOICE_St3246; BIOICE_St3247; BIOICE_St3249; BIOICE_St3250; BIOICE_St3275; BIOICE_St3276; BIOICE_St3280; BIOICE_St3501; BIOICE_St3510; BIOICE_St3515; Box corer; Bruzelia sp.; Bruzelia tuberculata; Byblis crassicornis; Byblis erythrops; Byblis gaimardii; Byblis medialis; Byblis minuticornis; Byblisoides bellansantiniae; Byblis sp.; Calliopius laeviusculus; Camacho faroensis; Caprella ciliata; Caprella dubia; Caprella microtuberculata; Caprella rinki; Caprella septentrionalis; Chevreuxius grandimanus; Cleippides bicuspis; Cleippides quadricuspis; Cleippides tricuspis; Cleonardopsis sp.; Cleonardo sp.; Corophiidira sp.; Cressa carinata; Cressa jeanjusti; Cressa minuta; Cressa quinquedentata; Cressina monocuspis; Cruise/expedition; Davis Strait; Deflexilodes norvegicus; Deflexilodes rostratus; Deflexilodes subnudus; Deflexilodes tenuirostratus; Deflexilodes tesselatus; Deflexilodes

Type: Dataset

Format: text/tab-separated-values, 190455 data points

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6

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(Table 5) Abundance of peracarids sampled at 10 stations during Walther Herwig III Cruise WH233 along the southern shelf of Greenland (2010)

Stransky, Bente ; Brandt, Angelika

PANGAEA

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Publication Date: 2023-07-09

Keywords: Acanthonotozoma cristatum; Acanthonotozoma serratum; Aega psora; Aeginella spinosa; Aeginina longicornis; Ambasia atlantica; Ambasiella murmanica; Ampelisca aequicornis; Ampelisca eschrichtii; Ampelisca macrocephala; Ampeliscidae; Amphilochidae; Amphilochus manudens; Amphilochus tenuimanus; Amphipoda; Amphipoda genus sp.; Andaniopsis pectinata; Anonyx cf. nugax; Anonyx debruyni; Anonyx sp.; Ansphyrapus tudes; Apherusa bispinosa; Apherusa sarsi; Arctic Ocean; Arcturidae; Arcturidae sp.; Argissa hamatipes; Aristias topsenti; Aristias tumidus; Asellota spp.; Aspidarachna clypeata; Astacilla boreaphilis; Astacilla granulata; Astacilla juveniles; Astacilla pusilla; Atylus smitti; Austroniscus cf. norbi; Austroniscus sp.; Autonoe borealis; Baeonectes muticus; Bathymedon saussurei; Brachydiastylis resima; Bruzelia tuberculata; Byblis crassicornis; Byblis gaimardi; Caecognathia abyssorum; Caecognathia elongata; Caecognathia hirsuta; Caecognathia spp.; Calathura brachiata; Campylaspis horrida; Campylaspis rubicunda; Campylaspis undata; Campylaspis verrucosa; Caprella ciliata; Caprella dubia; Caprella rinki; Caprellidae; Cercops holboelli; Cleippides tricuspis; Corophiidea spp.; Cryptocopoides arcticus; Cumella carinata; Date/Time of event; Davis Strait; Dendrotion paradoxum; Diastylis cf. edwardsi; Diastylis lucifera; Diastylis spinulosa; Disconectes furcatus; Disconectes phallangium; Dulichia cf. falcata; Dulichia spinosissima; Dyopedos porrectus; Dyopedos sp.; EBS; Echinozone arctica; Echinozone coronata; Echinozone spp.; Elevation of event; Epibenthic sledge; Ericthonius megalops; Eudorellopsis deformis; Eugerda cf. globiceps; Eugerdella cf. armata; Eurycope dahli; Eurycope producta; Eurycopinae; Eusirus propinquus; Event label; Gammaropsis cf. melanops; Gammaropsis sp.; Gitanopsis bispinosa; Gitanopsis cf. arctica; Greenland Sea; Gronella groenlandica; Guemea sp.; Haploops setosa; Haploops sp.; Hardametopa nasuta; Harpinia cf. plumosa; Harpinia crenulata; Harpinia propinquus; Harpinia sp.; Harpinia spp.; Hemilamprops cf. uniplicatus; Heteromesus frigidius; Heterotanais groenlandicus; Hippomedon gorbunovi; Hippomedon propinquus cf. sibiricus; Ilyarachna hirticeps; Iolella laciniata; Iolella spinosa; Ischnomesus spp.; Ischyrocerus anguipes; Ischyrocerus latipes; Ischyrocerus megacheir; Ischyrocerus megalops; Ischyrocerus sp.; Janira maculosa; Katianira bilobata; Katianira chelifera; Kerguelenia borealis cf. japonica; Laetmatophilus tuberculatus; Lampropidae; Laothoes meinerti; Latitude of event; Leptognathia breviremis; Leptognathia crassa; Leptognathia sp.; Leptognathia spp.; Leptognathia subaequalis; Leptostylis ampullacea; Leptostylis macrura; Leptostylis spp.; Leptostylis villosa; Leucon cf. nasica; Leucon cf. nasicoides; Leucon cf. nathorsti; Leucon spp.; Leucothoe spinicarpa; Liljeborgia cf. macronyx; Liljeborgia fissicornis; Liljeborgia pallida; Liljeborgia sp.; Liljeborgia spp.; Longitude of event; Lysianassidae; Lysianassidae sp.; Lysianella petalocera; Melita dentata; Melita gladiosa; Melita obtusata; Melitidae; Melphidippida borealis; Melphidippidae sp.; Melphidippida goesi; Metopa cf. propinqua; Metopa norvegica; Monoculodes borealis; Monoculodes cf. latimanus; Monoculodes cf. norvegicus; Monoculodes cf. packardi; Monoculodes cf. pallidus; Monoculodes cf. subnudus; Monoculodes cf. tesselatus; Monoculodes spp.; Monoculodes tuberculatus; Munna cf. fabricii; Munna cf. groenlandica; Munna cf. hanseni; Munna cf. minuta; Munna serrata; Munna spp.; Nannastacidae; Nannoniscus oblongus; Neopleustesi; Odius carinatus; Oediceros cf. borealis; Oediceros sp.; Oedicerotidae; Onisimus plautus; Opisa eschrichtii; Orchomene cf. lepidula; Orchomene macroserrata; Orchomene pectinata; Paradulichia typica; Paraleptognathia gracilis; Paraleptognathia inermis; Paraleptognathia multiserrata; Paraleptognathia sp.; Paramphithoe hystrix; Paraphoxus oculatus; Parapleustes biscuspis; Pardalisca abyssi; Pardalisca cuspidata; Paroediceros lynceus; Paroediceros spp.; Petalosarsia declivis; Phippsia roemeri; Photis reinhardi; Phoxocephalidae; Phoxocephalus holboelli; Platyaspis typica; Pleurogonium intermedium; Pleurogonium spinosissimum; Pleurogoniurn inerme; Pleurogoniurn pulchra; Pleuroprion hystrix; Pleustes tuberculatus; Pleustidae; Podoceridae; Politolana micropthalma; Pontocrates spp.; Proaeginina norvegica; Protomedeia fasciata; Pseudosphyrapus anomalus; Pseudotanais oculatus; Pseudotanais sp.; Pseudotanais spp.; Rapaniscus cf. crassipes; Rhachotropis aculeata; Rhachotropis inflata; Rhachotropis oculata; Schisturella sp.; Siphonoecetes typicus; Socarnes bidenticulatus; Socarnes vahlii; Spectrarcturus multispinatus; Stegocephalidae; Stegocephalus inflatus; Stenopleustes cf. nodifer; Stenopleustes sp.; Stenothoidae; Synidotea nodulosa; Synopiidae; Syrrhoe crenulata; Syrrhoides serrata; Tanaissus lilljeborgi; Themisto gaudichaudi; Tiron spiniferum; Tmetonyx cicada; Tryphosella schneideri; Tryphosella sp.; Typhlotanais sp.; Tytthocope megalura; Unciola laticornis; Unciola leucopis; Unciola planipes; Unciola spp.; Urothoe elegans; Walther Herwig III; Westwoodilla cf. brevicalcar; Westwoodilla cf. caecula; Westwoodilla cf. megalops; WH233; WH233_1007; WH233_1013; WH233_1016; WH233_1023; WH233_1031; WH233_1046; WH233_1047; WH233_1075; WH233_1093; WH233_1112

Type: Dataset

Format: text/tab-separated-values, 2538 data points

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Site characteristics, diversity indices and species abundance of peracarid crustaceans during Walther Herwig III cruise along the southern shelf of Greenland (2010)

Stransky, Bente ; Brandt, Angelika

PANGAEA

In: Supplement to: Stransky, Bente; Brandt, Angelika (2010): Occurrence, diversity and community structures of peracarid crustaceans (Crustacea, Malacostraca) along the southern shelf of Greenland. Polar Biology, 33(6), 851-867, https://doi.org/10.1007/s00300-010-0785-0

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Publication Date: 2023-12-13

Description: Abstract The species composition of peracarids (Crustacea: Malacostraca) of the Greenland shelf between 60°N and 65°N was investigated by means of 10 qualitative epibenthic samples in relation to environmental factors. In total, 59,234 specimens were collected belonging to 219 species. The relative abundance was much higher on the western shelf (total of 41,594 specimens) than on the eastern shelf (total of 17,640 specimens with same effort). Three species were new to science, while five records were new for the investigated area. The species composition was dominated by amphipods (58%), while the relative abundances of isopods (25%), cumaceans (11%) and tanaidaceans (6%) were much lower. Diversity and evenness were similar in the eastern and the western areas. Multivariate analyses of the species relative abundances divided the peracarids into a southeastern and southwestern Greenland fauna. Based on a correlation analysis between faunal data and five environmental variables, the separation between the two areas was mainly based on sediment type. Species contributing most to the separation between eastern and western fauna included the amphipods Hardametopa nas-uta, Photis reinhardi and Phoxocephalus holboelli, the isopods Pleurogonium spinosissimum, Iolella laciniata and Nannoniscus oblongus and the cumaceans Leucon cf. nasicoides and Campylaspis horrida. Species distribution patterns are discussed in the light of habitat and feeding preferences.

Keywords: International Polar Year (2007-2008); IPY

Type: Dataset

Format: application/zip, 3 datasets

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8

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Amphipod family distributions around Iceland (2018)

Brix, Saskia ; Lörz, Anne-Nina ; Jazdzewska, Anna ; [et al.]

Pensoft

In: EPIC3ZooKeys, Pensoft, 731, pp. 1-53

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Publication Date: 2018-01-24

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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A genetic fingerprint of Amphipoda from Icelandic waters – the baseline for further biodiversity and biogeography studies (2018)

Jażdżewska, Anna ; Corbari, Laure ; Driskell, Amy ; [et al.]

PENSOFT PUBLISHERS

In: EPIC3ZooKeys, PENSOFT PUBLISHERS, 731, pp. 55-73, ISSN: 1313-2989

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Publication Date: 2020-06-10

Description: Amphipods constitute an important part of Icelandic deep-sea zoobenthos in terms of abundance. However, the knowledge of their diversity, especially at the molecular level is scarce. The present work aims to use molecular methods to investigate genetic variation of Amphipoda collected during two IceAGE expeditions. The mitochondrial cytochrome oxidase subunit 1 (COI) of 167 individuals originally assigned to 76 morphospecies was analysed. The study resulted in 81 Barcode Identity Numbers (BINs) (of which 〉90% were published for the first time), while Automatic Barcode Gap Discovery revealed the existence of 78 to 83 Molecular Operational Taxonomic Units (MOTUs). Six nominal species (Rhachotropis helleri, Arrhis phyllonyx, Monoculodes tenuirostratus, Paroediceros propinquus, Metopa boeckii, Astyra abyssi) appeared to have a molecular variation higher than the 0.03 threshold of both p-distance and K2P usually used for amphipod species delineation. On the other hand, two taxa of Oedicerotidae regarded as separate ones clustered together with divergences in the order of intraspecific variation. The incongruence between the BINs associated with presently identified species and the publicly available data of the same taxa was observed in case of Paramphithoe hystrix and Amphilochus manudens. All those findings underline the necessity of supplementing the molecular studies by thorough analyses of species morphology

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

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