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Analyses of abyssal holothurian and its gut content and feces collected during SONNE cruise SO242/2, Peru Basin (SE Pacific) (2023)

Stratmann, Tanja ; van Breugel, Peter ; van Oevelen, Dick

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Publication Date: 2024-06-26

Description: Abyssal holothurians were collected during SO242-2 in the Peru Basin in 2015 with ROV Kiel 6000 (Geomar, Germany). Aboard the vessel, holothurians were measured (length, width, height), dissected and stored frozen (-20°C). Feces and gut content of individual holothurian specimens were also kept frozen. At the shore-based laboratory of NIOZ-Yerseke, samples were weight before and after freeze-drying and organic (org.) C/ δ13C and N/ δ15N content of freeze-dried, finely-ground holothurian gut content and feces were measured with an elemental analyzer coupled with an isotope ratio mass spectrometer. Sediment grain size of holothurian gut content was determined by laser diffraction on freeze-dried and sieved (〈1 mm) sediment samples in a Malvern Mastersizer 2000.

Keywords: Carbon, organic; COLBOX; Collector Box; Date/Time of event; Depth, bathymetric; Dry mass; Event label; feces; Feces, dry, total; gut content; Gut content, dry mass; Holothuroidea; In situ incubation chamber; ISCHAM; JPI-OCEANS; JPI Oceans - Ecological Aspects of Deep-Sea Mining; JPIO-MiningImpact; LATITUDE; LONGITUDE; Managing Impacts of Deep-seA reSource exploitation; Median, grain size; MIDAS; Moisture; Nitrogen, total; nitrogen content; organic carbon content; Sample ID; SG; Size fraction 〈 0.00063 mm; Size fraction 0.125-0.063 mm, 3.0-4.0 phi, very fine sand; Size fraction 0.250-0.125 mm, 2.0-3.0 phi, fine sand; Size fraction 0.500-0.250 mm, 1.0-2.0 phi, medium sand; Size fraction 1.000-0.500 mm, 0.0-1.0 phi, coarse sand; Slurp Gun; SO242/2; SO242/2_163_ISCHAM-BICS-1-holothurian-2; SO242/2_163_ISCHAM-BICS-2-holothurian-1; SO242/2_163_ISCHAM-BICS-3-holothurian-3; SO242/2_163_SLURP-1-holothurian-1; SO242/2_163_SLURP-7-holothurian-7; SO242/2_163_SLURP-9-holothurian-9; SO242/2_188_ISCHAM-BICS-1-holothurian-2; SO242/2_188_ISCHAM-BICS-2-holothurian-1; SO242/2_188_ISCHAM-BICS-3-holothurian-3; SO242/2_202_ISCHAM-BICS-1-holothurian-1; SO242/2_202_ISCHAM-BICS-2-holothurian-2; SO242/2_202_ISCHAM-BICS-3-holothurian-3; SO242/2_202_SLURP-1-holothurian; SO242/2_205_COLBOX-2-holothurian-4; SO242/2_205_COLBOX-3-holothurian-5; SO242/2_205_COLBOX-4-holothurian-6; SO242/2_205_SLURP-1-holothurian-2; SO242/2_216_SLURP-4-holothurian; SO242/2_219_COLBOX-1-holothurian-1; SO242/2_219_ISCHAM-BICS-1-benthodytes-1; SO242/2_219_ISCHAM-BICS-2-peniagone-1; SO242/2_219_ISCHAM-BICS-3-palaeopatides-2; SO242/2_219_ISCHAM-BICS-4-palaeopatides-1; SO242/2_219_SLURP-3-benthodytes-1; Sonne_2; South Pacific Ocean, Peru Basin; Species; stable isotope analysis; Station label; Wet mass

Type: Dataset

Format: text/tab-separated-values, 231 data points

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Chemical composition of abyssal holothurian and its gut content collected during SONNE cruise SO242/2, Peru Basin (SE Pacific) (2023)

Stratmann, Tanja ; van Breugel, Peter ; van Oevelen, Dick

PANGAEA

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Publication Date: 2024-06-26

Description: Abyssal holothurians were collected during SO242-2 in the Peru Basin in 2015 with ROV Kiel 6000 (Geomar, Germany). Aboard the vessel, holothurians were measured (length, width, height), dissected and stored frozen (-20°C). At the shore-based laboratory of NIOZ-Yerseke, samples were weight before and after freeze-drying and organic (org.) C/ δ13C and N/ δ15N content of freeze-dried, finely-ground holothurian body wall tissue were measured with an elemental analyzer coupled with an isotope ratio mass spectrometer. Total hydrolizable amino acids (THAA) from holothurian body wall tissue were extracted following a modified protocol of Veuger et al. 2005. Phospholipid-derived fatty acids (PLFAs) and neutral lipid-derived fatty acids (NLFAs) were extracted from holothurian body wall tissue and gut content following a modified Bligh and Dyer extraction method.

Keywords: Alanine; Aspartic acid; Aspartic acid, δ13C; Aspartic acid, δ15N; Carbon, organic, total; Carbon, total; COLBOX; Collector Box; Date/Time of event; Depth, bathymetric; Event label; feces; Glutamic acid; Glycine; Glycine, δ13C; Glycine, δ15N; gut content; Holothuroidea; In situ incubation chamber; ISCHAM; Isoleucine; Isoleucine, δ13C; Isoleucine, δ15N; JPI-OCEANS; JPI Oceans - Ecological Aspects of Deep-Sea Mining; JPIO-MiningImpact; L-Alanine, δ13C; L-Alanine, δ15N; LATITUDE; Leucine; Leucine, δ13C; Leucine, δ15N; L-Glutamic acid, δ13C; L-Glutamic acid, δ15N; LONGITUDE; Lysine; Managing Impacts of Deep-seA reSource exploitation; Methionine; Methionine, δ13C; Methionine, δ15N; MIDAS; Neutral lipid fatty acids; Neutral lipid fatty acids, δ13C; Nitrogen; nitrogen content; organic carbon content; Phenylalanine; Phenylalanine, δ13C; Phenylalanine, δ15N; Phospholipid fatty acids; Phospholipid fatty acids, δ13C; Proline; Proline, δ13C; Proline, δ15N; Sample ID; Sample type; Serine; Serine, δ13C; Serine, δ15N; SG; Slurp Gun; SO242/2; SO242/2_163_ISCHAM-BICS-1-holothurian-2; SO242/2_163_ISCHAM-BICS-2-holothurian-1; SO242/2_163_ISCHAM-BICS-3-holothurian-3; SO242/2_163_SLURP-1-holothurian-1; SO242/2_163_SLURP-2-holothurian-2; SO242/2_163_SLURP-7-holothurian-7; SO242/2_163_SLURP-8-holothurian-8; SO242/2_163_SLURP-9-holothurian-9; SO242/2_188_ISCHAM-BICS-1-holothurian-2; SO242/2_188_ISCHAM-BICS-2-holothurian-1; SO242/2_188_ISCHAM-BICS-3-holothurian-3; SO242/2_202_ISCHAM-BICS-1-holothurian-1; SO242/2_202_ISCHAM-BICS-2-holothurian-2; SO242/2_202_ISCHAM-BICS-3-holothurian-3; SO242/2_202_SLURP-1-holothurian; SO242/2_205_COLBOX-1-holothurian-1; SO242/2_205_COLBOX-2-holothurian-4; SO242/2_205_COLBOX-3-holothurian-5; SO242/2_205_COLBOX-4-holothurian-6; SO242/2_205_COLBOX-5-holothurian-7; SO242/2_205_SLURP-1-holothurian-2; SO242/2_211_COLBOX-3-holothurian-1; SO242/2_211_SLURP-2-peniagone-1; SO242/2_216_COLBOX-1-holothurian-1; SO242/2_216_SLURP-3-peniagone; SO242/2_216_SLURP-4-holothurian; SO242/2_219_COLBOX-1-holothurian-1; SO242/2_219_ISCHAM-BICS-1-benthodytes-1; SO242/2_219_ISCHAM-BICS-2-peniagone-1; SO242/2_219_ISCHAM-BICS-3-palaeopatides-2; SO242/2_219_ISCHAM-BICS-4-palaeopatides-1; SO242/2_219_SLURP-3-benthodytes-1; Sonne_2; South Pacific Ocean, Peru Basin; Species; stable isotope analysis; Station label; Threonine; Threonine, δ13C; Threonine, δ15N; Tyrosine; Tyrosine + Lysine, δ13C; Tyrosine + Lysine, δ15N; Valine; Valine, δ13C; Valine, δ15N; δ13C, organic carbon; δ13C, total carbon; δ15N

Type: Dataset

Format: text/tab-separated-values, 9285 data points

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Abyssal food-web model indicates faunal carbon flow recovery and impaired microbial loop 26 years after a sediment disturbance experiment (2020)

de Jonge, Daniëlle S.W. ; Stratmann, Tanja ; Lins, Lidia ; [et al.]

Elsevier

In: Progress in Oceanography, 189 . Art.Nr. 102446.

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Publication Date: 2021-01-08

Description: Highlights • Total modeled carbon cycling at disturbed sites is lower than at reference sites. • Projected microbial loop functioning is reduced 26 years after sediment disturbance. • Estimated faunal respiration has recovered from sediment disturbance. • Estimated microbial respiration has not recovered from the sediment disturbance. Abstract Due to the predicted future demand for critical metals, abyssal plains covered with polymetallic nodules are currently being prospected for deep-seabed mining. Deep-seabed mining will lead to significant sediment disturbance over large spatial scales and for extended periods of time. The environmental impact of a small-scale sediment disturbance was studied during the ‘DISturbance and reCOLonization’ (DISCOL) experiment in the Peru Basin in 1989 when 10.8 km2 of seafloor were ploughed with a plough harrow. Here, we present a detailed description of carbon-based food-web models constructed from various datasets collected in 2015, 26 years after the experiment. Detailed observations of the benthic food web were made at three distinct sites: inside 26-year old plough tracks (IPT, subjected to direct impact from ploughing), outside the plough tracks (OPT, exposed to settling of resuspended sediment), and at reference sites (REF, no impact). The observations were used to develop highly-resolved food-web models for each site that quantified the carbon (C) fluxes between biotic (ranging from prokaryotes to various functional groups in meio-, macro-, and megafauna) and abiotic (e.g. detritus) compartments. The model outputs were used to estimate total system throughput, i.e., the sum of all C flows in the food web (the ‘ecological size’ of the system), and microbial loop functioning, i.e., the C-cycling through the prokaryotic compartment for each site. Both the estimated total system throughput and the microbial loop cycling were significantly reduced (by 16% and 35%, respectively) inside the plough tracks compared to the other two sites. Site differences in modelled faunal respiration varied among the different faunal compartments. Overall, modelled faunal respiration appeared to have recovered to, or exceeded reference values after 26-years. The model results indicate that food-web functioning, and especially the microbial loop, have not recovered from the disturbance that was inflicted on the abyssal site 26 years ago.

Type: Article , PeerReviewed

Format: text

Format: archive

DOI: 10.1016/j.pocean.2020.102446

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OceanRep: Article in a Scientific Journal - peer-reviewed

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