GLORIA — GEOMAR Library Ocean Research Information Access

1

Electronic Resource

Bomb signals in old Antarctic brachiopods (1996)

Peck, Lloyd S. ; Brey, Thomas

[s.l.] : Nature Publishing Group

Nature 380 (1996), S. 207-208

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] SIR - Skeletal check-marks are commonly used to assess the age and growth of organisms. They are usually assumed to be formed annually. By using radiocarbon bomb signals to calibrate growth checks in shells of Antarctic brachiopods, we show that they were laid down with a sub-biennial periodicity. ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/380207b0

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2

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Stable isotopes prove shell growth bands in the Antarctic bivalve Laternula elliptica to be formed annually (1997)

Brey, Thomas ; Mackensen, Andreas

Springer

Polar biology 17 (1997), S. 465-468

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ISSN: 1432-2056

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Growth marks in calcareous shells or skeleton parts of benthic invertebrates are often assumed to be formed annually and hence are used for ageing purposes. For some Antarctic species this assumption has been validated by tagging experiments or direct monitoring of growth throughout the year. Here we use the record of stable isotope ratios (δ18O and δ13C) deposited in shell carbonate of Laternula elliptica from King George Island to demonstrate that shell growth bands are formed annually in this species.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003000050143

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3

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A seminal study of the dynamics of a mudskipper (Periophthalmus papilio) population in the Cross River, Nigeria (1996)

Etim, Lawrence ; Brey, Thomas ; Arntz, Wolf

Springer

Aquatic ecology 30 (1996), S. 41-48

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ISSN: 1573-5125

Keywords: Population dynamics ; mudskipper ; Periophthalmus papilio ; Cross River ; Nigeria

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A seminal study was conducted in which the population dynamics (growth, mortality and recruitment) of the mudskipper (Periophthalmus papilio) in the Cross River, Nigeria, was elucidated for the first time using length frequency data and the ELEFAN software. The allometric relationship was: Weight=0.012(Length)2.940, n=415, r2=0.939, P 〈0.0005. The seasonalized Von Bertalanffy growth parameters were L∞=19.39 cm, K=0.51 y−1, C=0.3, and WP=0.4. The instantaneous total mortality coefficient Z was 2.208 y−1 while the instantaneous natural mortality coefficient was 1.341 y−1. The instantaneous fishing mortality coefficient of 0.867 y−1 yielded the expectedly low exploitation rate E of 0.393. Our estimate shows that the species could reach an average maximum life span of about 6 years in the Cross River system. These results are used in quantitative elucidation of the state of exploitation of the population and will serve as input for the proper and scientific management of the fish resource.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02092146

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Climate change disrupts core habitats of marine species (2023)

Hodapp, Dorothee ; Roca, Irene T. ; Fiorentino, Dario ; [et al.]

Wiley

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Publication Date: 2024-02-07

Description: Driven by climate change, marine biodiversity is undergoing a phase of rapid change that has proven to be even faster than changes observed in terrestrial ecosystems. Understanding how these changes in species composition will affect future marine life is crucial for conservation management, especially due to increasing demands for marine natural resources. Here, we analyse predictions of a multiparameter habitat suitability model covering the global projected ranges of 〉33,500 marine species from climate model projections under three CO2 emission scenarios (RCP2.6, RCP4.5, RCP8.5) up to the year 2100. Our results show that the core habitat area will decline for many species, resulting in a net loss of 50% of the core habitat area for almost half of all marine species in 2100 under the high-emission scenario RCP8.5. As an additional consequence of the continuing distributional reorganization of marine life, gaps around the equator will appear for 8% (RCP2.6), 24% (RCP4.5), and 88% (RCP8.5) of marine species with cross-equatorial ranges. For many more species, continuous distributional ranges will be disrupted, thus reducing effective population size. In addition, high invasion rates in higher latitudes and polar regions will lead to substantial changes in the ecosystem and food web structure, particularly regarding the introduction of new predators. Overall, our study highlights that the degree of spatial and structural reorganization of marine life with ensued consequences for ecosystem functionality and conservation efforts will critically depend on the realized greenhouse gas emission pathway.

Type: Article , PeerReviewed

Format: text

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OceanRep: Article in a Scientific Journal - peer-reviewed

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5

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Semi-quantitative records of benthic taxa from trawl samples taken in the wider Weddell Sea (Antarctica) during POLARSTERN cruises ANT VII/4, ANT IX/3, ANT XIII/3, ANT XV/3 and ANT XXI/2 between 1989 and 2004 (2020)

Teschke, Katharina ; Brey, Thomas

PANGAEA

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Publication Date: 2023-07-10

Description: The dataset comprises a total of 9,540 records of semi-quantitative data for 53 benthic invertebrate taxa and fish from 180 trawl samples (Agassiz trawl, bottom trawl, Rauschert dredge, benthopelagic trawl). The semi-quantitative data represent four categories regarding the frequency of occurrence of the benthic taxa (i.e. 0 = absent, 1 = rare, 2 = common and 3 = very common). The dataset was collected on the shelf and slope of the eastern Weddell Sea and Lazarev Sea, near Bouvet Island and the region at the north western tip of the Antarctic Peninsula (depth range: 64 - 2334 m) between 1989 and 2004 onboard "Polarstern". Cruises ANT VII/4 (1989), ANT IX/3 (1990/91), ANT XIII/3 (1996), ANT XV/3 (1998) and ANT XXI/2 (2003/2004) contributed to the data collection.

Keywords: Acari; Actiniaria; Agassiz Trawl; AGT; Alcyonacea; Amphipoda; ANT-IX/3; ANT-VII/4; ANT-XIII/3; ANT-XV/3; ANT-XXI/2; Aplacophora; Ascidiacea; Asteroidea; Bentho-pelagic trawl; Bivalvia; Bottom trawl; BPT; Brachiopoda; Bryozoa; BT; Campaign; Cephalopoda; Cirripedia; Crinoidea; Cumacea; DATE/TIME; Date/time end; Decapoda; Demospongia; DEPTH, water; Drake Passage; Dredge, Rauschert; Drescher Inlet; Eastern Weddell Sea, Southern Ocean; Echinoidea; Echiurida; Errantia; Event label; Gear; Gorgonariana; Graptolithoidea; Halley Bay; Haul 8; Height; Hexacorallia; Hexactinellida; Holothuroidea; Hydroidolina; Hydrozoa; Isopoda; Kapp Norvegia; King George Island, Antarctic Peninsula; LATITUDE; Lazarev Sea; Leptostraca; LONGITUDE; Mesh size; MULT; Multiple investigations; Mysida; Nematoda; Nemertea; Nudibranchia; Ophiuroidea; Opisthobranchia; Ostracoda; Pantopoda; Pennatula; Pisces; Platyhelminthes; Polarstern; Polyplacophora; Porifera; Priapulida; Project; Prosobranchia; PS14/211; PS14/212; PS14/217; PS14/224; PS14/226; PS14/229; PS14/230; PS14/235; PS14/235-1; PS14/241; PS14/241-1; PS14/245; PS14/245-1; PS14/248; PS14/249; PS14/249-1; PS14/250; PS14/250-1; PS14/252; PS14/253; PS14/256; PS14/257; PS14/258; PS14/259; PS14/260; PS14/261; PS14/269; PS14/270; PS14/271; PS14/272; PS14/273; PS14/274; PS14/275; PS14/281; PS14/282; PS14/284; PS14/289; PS14/290; PS14/291; PS14/293; PS14 EPOS I; PS18; PS18/123-1; PS18/129-1; PS18/130-1; PS18/133-1; PS18/135-2; PS18/158-1; PS18/160-2; PS18/162-1; PS18/165-2; PS18/168-1; PS18/169-1; PS18/171-2; PS18/173-1; PS18/174-1; PS18/176-1; PS18/179-1; PS18/180-3; PS18/189-3; PS18/192-2; PS18/206-1; PS18/207-2; PS18/211-1; PS18/212-8; PS18/220-2; PS39/001-1; PS39/002-9; PS39/004-4; PS39/005-11; PS39/006-12; PS39/006-15; PS39/009-1; PS39/009-15; PS39/009-18; PS39/011-1; PS39/012-1; PS39/013-4; PS39/014-2; PS39/015-1; PS39/016-1; PS39/017-1; PS39/018-1; PS39/024-2; PS39/025-1; PS39/025-13; PS39/029-1; PS39/030-2; PS39 EASIZ; PS48/006; PS48/037; PS48/039; PS48/044; PS48/049; PS48/050; PS48/062; PS48/071; PS48/077; PS48/082; PS48/088; PS48/095; PS48/097; PS48/100; PS48/115; PS48/120; PS48/123; PS48/128; PS48/134; PS48/141; PS48/144; PS48/150; PS48/154; PS48/157; PS48/166; PS48/167; PS48/168; PS48/172; PS48/189; PS48/194; PS48/197; PS48/198; PS48/206; PS48/214; PS48/220; PS48/222; PS48/277; PS48/295; PS48/296; PS48/303; PS48/308; PS48/322; PS48/324; PS48/329; PS48/336; PS48/337; PS48/338; PS48/346; PS48/348; PS48/352; PS48/355; PS48 EASIZ II; PS65/019-1; PS65/020-1; PS65/028-1; PS65/029-1; PS65/039-1; PS65/090-1; PS65/109-1; PS65/121-1; PS65/132-1; PS65/161-1; PS65/173-1; PS65/233-1; PS65/245-1; PS65/248-1; PS65/253-1; PS65/259-1; PS65/265-1; PS65/274-1; PS65/276-1; PS65/278-1; PS65/279-1; PS65/280-1; PS65/292-1; PS65/336-1; PS65/344-1; PS65 BENDEX; Pycnogonida; RD; Sample ID; Scaphopoda; Scleractinia; Sedentaria; Ship speed; Siboglinidae; Sipuncula; South Atlantic Ocean; South of Vestkapp; Station label; Stolonifera; Stylasteridae; Tanaidacea; Trawling time; Turbellaria; Weddell Sea; Width

Type: Dataset

Format: text/tab-separated-values, 11229 data points

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DATA PANGAEA

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Response of benthic communities to trawling cessation in the German Bight (North Sea, 2003-2004) (2022)

Dannheim, Jennifer ; Schröder, Alexander ; Brey, Thomas ; [et al.]

PANGAEA

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Publication Date: 2024-01-16

Description: Makrozoobenthos of soft-bottom benthic communiy was collected by van-Veen grabs and beam trawls to sample the infauna and epifauna. Samples were collected between 2003 and 2004 in spring, summer and autumn each year. Benthic data were collected in the North Sea, German Bight off the East Frisian Coast. Benthic community was evaluated for potential changes after cessation of bottom trawling. In July 2003, the research platform FINO 1 was built as a pilot project for future offshore wind farms. The platform is located at 28 m water depth in the German Bight, 45 km off the Island Borkum. The surroundings of the platform (500 m radius) are closed for all shipping activities (except scientific activities) and are thus protected from trawling activities. Two zones beyond the 500 m radius, 9 km apart from the protected area in north-western and eastern direction were chosen as reference sites. Sampling follwed a BACI-design (before-after-control-impact), i.e. comparing the protected area to the further trawled areas. In both areas, protected and trawled area, sampling of the benthic community was carried out with “RV Heincke” during 2 periods. The first sampling period, defined as “pre-closure”, includes two sampling campaigns: one campaign 3 months before and one campaign 2 weeks after fishery closure of protected area (March/April and July/August 2003). “Post-closure” sampling was also carried out in two campaigns: one campaign in July/August and one campaign in September/October 2004, i.e. 12-14 months after fishery closure of protected area. Data for each campaign comprise different stations in the area, sampled by grab samples (infauna) and beam trawl samples (epifauna). Biodiversity data of species include abundance (count data) and biomass (wet mass, g) per sample, as well as sediment grain sizes, organic carbon, total carbon, nitrogen and sulfur content as accompanying environmental data.

Keywords: Area; BEAM; Beam trawl; benthic communities; Campaign; Carbon, organic; Carbon, total; DATE/TIME; DEPTH, water; Epifauna; Event label; Gear; German Bight; HE185; HE185/0132-1; HE185/0132-1_1_1; HE185/0132-2; HE185/0132-2_1_1; HE185/0132-3; HE185/0132-3_1_1; HE185/0133-1; HE185/0133-1_1_1; HE185/0133-2; HE185/0133-2_1_1; HE185/0133-3; HE185/0133-3_1_1; HE185/0134-1; HE185/0134-1_1_1; HE185/0134-2; HE185/0134-2_1_1; HE185/0134-3; HE185/0134-3_1_1; HE185/0149-20; HE185/0149-20_1_1; HE185/0149-4; HE185/0149-4_1_1; HE185/0149-5; HE185/0149-5_1_1; HE185/0151-1; HE185/0151-1_1_1; HE185/0151-2; HE185/0151-2_1_1; HE185/0151-3; HE185/0151-3_1_1; HE185/0152-1; HE185/0152-1_1_1; HE185/0152-2; HE185/0152-2_1_1; HE185/0152-3; HE185/0152-3_1_1; HE185/0163-1; HE185/0163-1_1_1; HE185/0163-2; HE185/0163-2_1_1; HE185/0163-3; HE185/0163-3_1_1; HE185/0164-1; HE185/0164-1_1_1; HE185/0164-2; HE185/0164-2_1_1; HE185/0164-3; HE185/0164-3_1_1; HE185/0165-1; HE185/0165-1_1_1; HE185/0165-2; HE185/0165-2_1_1; HE185/0165-3; HE185/0165-3_1_1; HE185/0167-1; HE185/0167-1_1_1; HE185/0167-2; HE185/0167-2_1_1; HE185/0167-3; HE185/0167-3_1_1; HE185/0168-1; HE185/0168-1_1_1; HE185/0168-2; HE185/0168-2_1_1; HE185/0168-3; HE185/0168-3_1_1; HE185/0170-1; HE185/0170-1_1_1; HE185/0171-1; HE185/0171-1_1_1; HE185/0172-1; HE185/0172-1_1_1; HE185/0173-1; HE185/0173-1_1_1; HE185/0174-1; HE185/0174-1_1_1; HE185/0178-1; HE185/0178-1_1_1; HE185/0179-1; HE185/0179-1_1_1; HE185/0180-1; HE185/0180-1_1_1; HE185/0181-1; HE185/0181-1_1_1; HE185/0182-1; HE185/0182-1_1_1; HE194; HE194/1109-1; HE194/1109-1_1_1; HE194/1109-2; HE194/1109-2_1_1; HE194/1109-3; HE194/1109-3_1_1; HE194/1110-1; HE194/1110-1_1_1; HE194/1110-2; HE194/1110-2_1_1; HE194/1110-3; HE194/1110-3_1_1; HE194/1111-1; HE194/1111-1_1_1; HE194/1111-2; HE194/1111-2_1_1; HE194/1111-3; HE194/1111-3_1_1; HE194/1113-1; HE194/1113-1_1_1; HE194/1113-2; HE194/1113-2_1_1; HE194/1113-3; HE194/1113-3_1_1; HE194/1114-1; HE194/1114-1_1_1; HE194/1114-2; HE194/1114-2_1_1; HE194/1114-3; HE194/1114-3_1_1; HE194/1115-1; HE194/1115-1_1_1; HE194/1115-2; HE194/1115-2_1_1; HE194/1115-3; HE194/1115-3_1_1; HE194/1116-1; HE194/1116-1_1_1; HE194/1116-2; HE194/1116-2_1_1; HE194/1116-3; HE194/1116-3_1_1; HE194/1117-1; HE194/1117-1_1_1; HE194/1117-2; HE194/1117-2_1_1; HE194/1117-3; HE194/1117-3_1_1; HE194/1139-1; HE194/1139-1_1_1; HE194/1140-1; HE194/1140-1_1_1; HE194/1141-1; HE194/1141-1_1_1; HE194/1142-1; HE194/1142-1_1_1; HE194/1143-1; HE194/1143-1_1_1; HE194/1145-1; HE194/1145-1_1_1; HE194/1145-2; HE194/1145-2_1_1; HE194/1145-4; HE194/1145-4_1_1; HE194/1146-1; HE194/1146-1_1_1; HE194/1146-2; HE194/1146-2_1_1; HE194/1146-3; HE194/1146-3_1_1; HE194/1168-1; HE194/1168-1_1_1; HE194/1169-1; HE194/1169-1_1_1; HE194/1170-1; HE194/1170-1_1_1; HE194/1171-1; HE194/1171-1_1_1; HE194/1172-1; HE194/1172-1_1_1; HE200; HE200/1246-1; HE200/1246-1_1_1; HE200/1246-2; HE200/1246-2_1_1; HE200/1246-3; HE200/1246-3_1_1; HE200/1260-1; HE200/1260-1_1_1; HE200/1260-2; HE200/1260-2_1_1; HE200/1260-3; HE200/1260-3_1_1; HE200/1261-1; HE200/1261-1_1_1; HE200/1261-2; HE200/1261-2_1_1; HE200/1261-3; HE200/1261-3_1_1; HE200/1262-1; HE200/1262-1_1_1; HE200/1262-2; HE200/1262-2_1_1; HE200/1262-3; HE200/1262-3_1_1; HE200/1276-1; HE200/1276-1_1_1; HE200/1276-2; HE200/1276-2_1_1; HE200/1276-3; HE200/1276-3_1_1; HE200/1277-1; HE200/1277-1_1_1; HE200/1277-2; HE200/1277-2_1_1; HE200/1277-3; HE200/1277-3_1_1; HE200/1278-1; HE200/1278-1_1_1; HE200/1278-2; HE200/1278-2_1_1; HE200/1278-3; HE200/1278-3_1_1; HE200/1280-1; HE200/1280-1_1_1; HE200/1280-2; HE200/1280-2_1_1; HE200/1280-3; HE200/1280-3_1_1; HE200/1281-1; HE200/1281-1_1_1; HE200/1281-2; HE200/1281-2_1_1; HE200/1281-3; HE200/1281-3_1_1; HE200/1283-1; HE200/1283-1_1_1; HE200/1285-1; HE200/1285-1_1_1; HE200/1286-1; HE200/1286-1_1_1; HE200/1287-1; HE200/1287-1_1_1; HE200/1299-1; HE200/1299-1_1_1; HE200/1312-10; HE200/1312-10_1_1; HE200/1312-11; HE200/1312-11_1_1; HE200/1312-4; HE200/1312-4_1_1; HE200/1313-1; HE200/1313-1_1_1; HE200/1313-2; HE200/1313-2_1_1; HE200/1313-3; HE200/1313-3_1_1; HE200/1314-1; HE200/1314-1_1_1; HE200/1314-2; HE200/1314-2_1_1; HE200/1314-3; HE200/1314-3_1_1; HE200/1316-1; HE200/1316-1_1_1; HE200/1316-2; HE200/1316-2_1_1; HE200/1316-3; HE200/1316-3_1_1; HE200/1317-2; HE200/1317-2_1_1; HE200/1317-3; HE200/1317-3_1_1; HE200/1317-4; HE200/1317-4_1_1; HE200/1320-1; HE200/1320-1_1_1; HE200/1321-1; HE200/1321-1_1_1; HE200/1322-1; HE200/1322-1_1_1; HE200/1323-1; HE200/1323-1_1_1; HE200/1324-1; HE200/1324-1_1_1; HE200/1338-1; HE200/1338-1_1_1; HE200/1341-1; HE200/1341-1_1_1; HE200/1342-1; HE200/1342-1_1_1; HE200/1343-1; HE200/1343-1_1_1; HE200/1344-1; HE200/1344-1_1_1; HE200/1345-1; HE200/1345-1_1_1; HE200/1346-1; HE200/1346-1_1_1; HE205; HE205/0237-1; HE205/0237-1_1_1; HE205/0237-2; HE205/0237-2_1_1; HE205/0237-3; HE205/0237-3_1_1; HE205/0238-1; HE205/0238-1_1_1; HE205/0238-2; HE205/0238-2_1_1; HE205/0238-3; HE205/0238-3_1_1; HE205/0252-1; HE205/0252-1_1_1; HE205/0253-1; HE205/0253-1_1_1; HE205/0254-1; HE205/0254-1_1_1; HE205/0255-1; HE205/0255-1_1_1; HE205/0256-1; HE205/0256-1_1_1; HE205/0258-3; HE205/0258-3_1_1; HE205/0258-4; HE205/0258-4_1_1; HE205/0258-5; HE205/0258-5_1_1; HE205/0259-1; HE205/0259-1_1_1; HE205/0259-2; HE205/0259-2_1_1; HE205/0259-4; HE205/0259-4_1_1; HE205/0260-1; HE205/0260-1_1_1; HE205/0260-2; HE205/0260-2_1_1; HE205/0260-4; HE205/0260-4_1_1; HE205/0272-1; HE205/0272-1_1_1; HE205/0272-2; HE205/0272-2_1_1; HE205/0272-3; HE205/0272-3_1_1; HE205/0273-1; HE205/0273-1_1_1; HE205/0273-2; HE205/0273-2_1_1; HE205/0273-3; HE205/0273-3_1_1; HE205/0274-1; HE205/0274-1_1_1; HE205/0274-2; HE205/0274-2_1_1; HE205/0274-3; HE205/0274-3_1_1; HE205/0276-1; HE205/0276-1_1_1; HE205/0276-2; HE205/0276-2_1_1; HE205/0276-3; HE205/0276-3_1_1; HE205/0277-1; HE205/0277-1_1_1; HE205/0277-2; HE205/0277-2_1_1; HE205/0277-3; HE205/0277-3_1_1; HE205/0278-1; HE205/0278-1_1_1; HE205/0278-2; HE205/0278-2_1_1; HE205/0278-3; HE205/0278-3_1_1; HE205/0286-1; HE205/0286-1_1_1; HE205/0288-1; HE205/0288-1_1_1; HE205/0305-1; HE205/0305-1_1_1; HE205/0306-1; HE205/0306-1_1_1; HE205/0307-1; HE205/0307-1_1_1; HE205/0308-1; HE205/0308-1_1_1; HE205/0309-1; HE205/0309-1_1_1; HE205/0311-1; HE205/0311-1_1_1; HE205/0311-2; HE205/0311-2_1_1; HE205/0311-3; HE205/0311-3_1_1; HE205/0313-1; HE205/0313-1_1_1; HE205/0313-2; HE205/0313-2_1_1; HE205/0313-3; HE205/0313-3_1_1; HE205/0314-1; HE205/0314-1_1_1; HE205/0314-2; HE205/0314-2_1_1; HE205/0314-3; HE205/0314-3_1_1; HE205/0320-1; HE205/0320-1_1_1; HE205/0321-1; HE205/0321-1_1_1; HE205/0322-1; HE205/0322-1_1_1; HE205/0323-1; HE205/0323-1_1_1; HE205/0324-1; HE205/0324-1_1_1; HE205/0325-1; HE205/0325-1_1_1; HE214; HE214/1093-1; HE214/1093-1_1_1; HE214/1093-2; HE214/1093-2_1_1; HE214/1093-3; HE214/1093-3_1_1; HE214/1094-1; HE214/1094-1_1_1; HE214/1094-2; HE214/1094-2_1_1; HE214/1094-3; HE214/1094-3_1_1; HE214/1097-11; HE214/1097-11_1_1; HE214/1097-4; HE214/1097-4_1_1; HE214/1097-5; HE214/1097-5_1_1; HE214/1098-1; HE214/1098-1_1_1; HE214/1098-2; HE214/1098-2_1_1; HE214/1098-3; HE214/1098-3_1_1; HE214/1099-1; HE214/1099-1_1_1; HE214/1099-2; HE214/1099-2_1_1; HE214/1099-3; HE214/1099-3_1_1; HE214/1100-1; HE214/1100-1_1_1; HE214/1100-2; HE214/1100-2_1_1; HE214/1100-3; HE214/1100-3_1_1; HE214/1101-1; HE214/1101-1_1_1; HE214/1101-2; HE214/1101-2_1_1; HE214/1101-3; HE214/1101-3_1_1; HE214/1103-1; HE214/1103-1_1_1; HE214/1103-2; HE214/1103-2_1_1; HE214/1103-3; HE214/1103-3_1_1; HE214/1104-1; HE214/1104-1_1_1; HE214/1104-2; HE214/1104-2_1_1; HE214/1104-3; HE214/1104-3_1_1; HE214/1109-1; HE214/1109-1_1_1; HE214/1110-1; HE214/1110-1_1_1; HE214/1111-1; HE214/1111-1_1_1; HE214/1112-1; HE214/1112-1_1_1; HE214/1113-1; HE214/1113-1_1_1; HE214/1115-1; HE214/1115-1_1_1; HE214/1115-2; HE214/1115-2_1_1; HE214/1115-3; HE214/1115-3_1_1; HE214/1144-1; HE214/1144-1_1_1; HE214/1152-1; HE214/1152-1_1_1; HE214/1155-1; HE214/1155-1_1_1; HE214/1156-1; HE214/1156-1_1_1; HE214/1159-1; HE214/1159-1_1_1; HE214/1164-1; HE214/1164-1_1_1; HE214/1168-1; HE214/1168-

Type: Dataset

Format: text/tab-separated-values, 219010 data points

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PANABIO: A point-referenced pan-Arctic data collection of benthic biotas (2023)

Piepenburg, Dieter ; Brey, Thomas ; Teschke, Katharina ; [et al.]

PANGAEA

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Publication Date: 2024-05-07

Description: The PAN-Arctic data collection of benthic BIOtas (PANABIO) contains records of benthic fauna identified at genus-level or species-level in field samples taken at point-referenced locations (stations) by means of grabs, towed gear, or seabed imaging. The data are from all major marine Arctic areas, i.e., central Arctic Ocean, Chukchi Sea, East Siberian Sea, Laptev Sea, Kara Sea, Barents Sea (incl. White Sea), Svalbard waters, Greenland Sea, Norwegian Sea, Canadian Archipelago, Beaufort Sea, and Bering Sea, as well as some adjacent sub-Arctic regions (Sea of Japan, Gulf of Okhotsk). Currently (14 December 2023), the collection includes 27 datasets with a total of 126,388 records (ranging from presence to counts, abundances or biomass) of 2,978 taxa, identified in 11,555 samples taken at 10,596 stations during 1,095 cruises between 1800 and 2014. It is also available in a PostgreSQL-based data warehouse that can be accessed and queried through an open-access frontend web service at https://critterbase.awi.de/panabio.

Keywords: Arctic; Benthos; Biodiversity; biogeography

Type: Dataset

Format: application/zip, 27 datasets

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Exploring the use of neural networks for biomass forcasts in the Peruvian upwelling system (1995)

Jarre-Teichmann, A. ; Brey, Thomas ; Haltof, H.

In: EPIC3NAGA the ICLARM quarterly, 18, pp. 38-40

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Publication Date: 2019-07-16

Repository Name: EPIC Alfred Wegener Institut

Type: Article , notRev

Format: application/pdf

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9

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Trophic flows in the benthic shelf community of the eastern Weddell Sea, Antarctica (1997)

Jarre-Teichmann, A. ; Brey, Thomas ; Bathmann, Ulrich ; [et al.]

In: EPIC3In: Antarctic communities: Species, structure and survival (Battaglia, B., Valencia, J., Walton, D.W.H. eds), Cambridge Univ Press, Cambridge, pp. 118-134

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Publication Date: 2014-09-17

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

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Trophic relations between macroalgae and herbivores (1998)

Iken, K. ; Quartino, M. L. ; Barrera-Oro, E. ; [et al.]

In: EPIC3Reports on polar and marine research, 299, pp. 258-262

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Publication Date: 2019-07-16

Repository Name: EPIC Alfred Wegener Institut

Type: Article , peerRev

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