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Bryozoa diversity and abundance in Phyllophora crispa (Rhodophyta) mats and Posidonia oceanica meadows near Giglio Island (Tyrrhenian Sea, Italy) (2022)

Rossbach, Felix Ivo ; Plewka, Julia ; Schmidt, Neele ; [et al.]

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Publication Date: 2023-10-14

Description: Dataset on the epibenthic abundance of Bryozoa on P. crispa and P. oceanica habitats in the NW Mediterranean Sea (Giglio Island, Italy). Samples were obtained via SCUBA diving in summers 2018 and 2019 and analyzed by microscopic determination and counting of specimens. Sampling was part of a larger project on the diversity of the epiphytic invertebrate community on P. crispa mats in the area. The dataset includes details on the sampling efforts, diversity indices (Shannon (H'), Pielou (J')), and density of colonies m-². The numbers of individuals per family were counted on the subsamples. Densities of bryozoa (Dens) were extrapolated using wet weights of the sub- and main sample, as well as the measured surface area of the subsample. Detailed descriptions of the calculations can be found in the corresponding publication (Rossbach et al. (in review)).

Keywords: Abundance per area; Aeteidae; Alcyonidiidae; Annectocymidae; Beaniidae; Benedeniporidae; Bitectiporidae; Bryocryptellidae; Bryozoa; Bryozoa indeterminata; Bugulidae; Calloporidae; Candidae; Cellariidae; Celleporidae; Chlidoniidae; Chorizoporidae; Counting, Bryozoa; Cribrilinidae; Crisiidae; DATE/TIME; DIVER; Electridae; ELEVATION; Epifauna; Epistomiidae; Escharellidae; Escharinidae; Event label; Exochellidae; Family; Farrellidae; Fenestrulinidae; Flustridae; Giglio_2019; Haplopomidae; Hippothoidae; L_1_S2; L_2_S2; L_3_S2; L_4_S2; L_5_S2; L_6_S2; L_7_S2; L_8_S2; L_9_S2; Lacernidae; LATITUDE; Lichenoporidae; LONGITUDE; Margarettidae; Mediterranean Sea; Microporellidae; Mimosellidae; Oncousoeciidae; P. crispa Project; Pherusellidae; Phidoloporidae; Pielou evenness index; Plagioeciidae; R_1_Co; R_1_Fe; R_1_Pdm; R_1_S2; R_2_Co; R_2_Fe; R_2_Pdm; R_2_S2; R_3_Co; R_3_Fe; R_3_Pdm; R_3_S2; R_4_Co; R_4_Fe; R_4_Pdm; R_4_S2; Rhodophyta; S_1_S2; S_10_S2; S_11_S2; S_16_S2; S_18_S2; S_3_S2; S_4_S2; S_5_S2; S_6_S2; S_8_S2; Sample, wet mass; Sample surface; Sampling by diver; Savignyellidae; Schizoporellidae; Scrupariidae; Shannon Diversity Index; Site; Smittinidae; Stomachetosellidae; Subsample, wet mass; Substrate type; Terviidae; Trypostegidae; Tubuliporidae; Tuscan Archipelago; Tyrrhenian Sea; Vesiculariidae; W1P1; W1P2; W1P3; W2P1; W2P2; W2P3; W3P1; W3P2; W3P3; W4P1; W4P2; W4P3; W5P1; W5P2; W5P3; W6P1; W6P2; W6P3; W7P1; W7P2; W7P3; Walkeriidae; Watersiporidae

Type: Dataset

Format: text/tab-separated-values, 3154 data points

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Food preference and food utilization in the brown shrimp Crangon crangon (2020)

Schmidt, Neele

In: EPIC356 p.

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Publication Date: 2021-06-29

Repository Name: EPIC Alfred Wegener Institut

Type: Thesis , notRev

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Sand grains in the stomach of brown shrimp, Crangon crangon: Crunchy garnish, supportive macerator, or simply dirt? (2021)

Schmidt, Neele ; Korez, Spela ; Saborowski, Reinhard ; [et al.]

ELSEVIER SCIENCE BV

In: EPIC3Journal of Sea Research, ELSEVIER SCIENCE BV, 170, pp. 102020, ISSN: 1385-1101

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Publication Date: 2021-03-02

Description: Brown shrimp, Crangon crangon, inhabit highly productive sandy and muddy grounds of the southern North Sea. The stomachs of the shrimp contain variable and often high numbers of sediment grains. The function of sediment grains inside the stomach and the purpose of their ingestion are only poorly understood. We tested in laboratory experiments whether sediment and associated organic material complement the natural food of C. crangon or if sand grains may be used by the shrimp to support trituration and maceration of ingested food. The shrimp showed no notable preference for sediment with natural organic content over sediment with reduced organic content, limited ingestion of sediment upon starvation, and no additional uptake of sand grains after feeding. Instead, C. crangon took up sediment only while feeding on regular food, suggesting that sand grains are not ingested intentionally but rather incidentally as a side effect of hasty gobbling. This conclusion is supported by the highly variable uptake of sand grains among individuals. Under experimental conditions, sand grains from sediments do not seem to have a crucial function in food processing and digestion in brown shrimp.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

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