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Expedition-related bibliography*Citation data for IODP publications and journal articles in RIS format IODP publicationsScientific ProspectusAndrén, T., Jørgensen, B.B., and Cotterill, C., 2012. Baltic Sea Basin Paleoenvironment: paleoenvironmental evolution of the Baltic Sea Basin through the last glacial cycle. IODP Sci. Prosp., 347. doi:10.2204/ Preliminary ReportExpedition 347 Scientists, 2014. Baltic Sea Basin Paleoenvironment: paleoenvironmental evolution of the Baltic Sea Basin through the last glacial cycle. IODP Prel. Rept., 347. doi:10.2204/ Proceedings volumeAndrén, T., Jørgensen, B.B., and Cotterill, C., and the Expedition 347 Scientists, 2015. Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Expedition reportsAndrén, T., Jørgensen, B.B., Cotterill, C., Green, S., Andrén, E., Ash, J., Bauersachs, T., Cragg, B., Fanget, A.-S., Fehr, A., Granoszewski, W., Groeneveld, J., Hardisty, D., Herrero-Bervera, E., Hyttinen, O., Jensen, J.B., Johnson, S., Kenzler, M., Kotilainen, A., Kotthoff, U., Marshall, I.P.G., Martin, E., Obrochta, S., Passchier, S., Quintana Krupinski, N., Riedinger, N., Slomp, C., Snowball, I., Stepanova, A., Strano, S., Torti, A., Warnock, J., Xiao, N., and Zhang, R., 2015. Expedition 347 summary. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., Andrén, E., Ash, J., Bauersachs, T., Cragg, B., Fanget, A.-S., Fehr, A., Granoszewski, W., Groeneveld, J., Hardisty, D., Herrero-Bervera, E., Hyttinen, O., Jensen, J.B., Johnson, S., Kenzler, M., Kotilainen, A., Kotthoff, U., Marshall, I.P.G., Martin, E., Obrochta, S., Passchier, S., Quintana Krupinski, N., Riedinger, N., Slomp, C., Snowball, I., Stepanova, A., Strano, S., Torti, A., Warnock, J., Xiao, N., and Zhang, R., 2015. Methods. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., Andrén, E., Ash, J., Bauersachs, T., Cragg, B., Fanget, A.-S., Fehr, A., Granoszewski, W., Groeneveld, J., Hardisty, D., Herrero-Bervera, E., Hyttinen, O., Jensen, J.B., Johnson, S., Kenzler, M., Kotilainen, A., Kotthoff, U., Marshall, I.P.G., Martin, E., Obrochta, S., Passchier, S., Quintana Krupinski, N., Riedinger, N., Slomp, C., Snowball, I., Stepanova, A., Strano, S., Torti, A., Warnock, J., Xiao, N., and Zhang, R., 2015. Site M0059. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., Andrén, E., Ash, J., Bauersachs, T., Cragg, B., Fanget, A.-S., Fehr, A., Granoszewski, W., Groeneveld, J., Hardisty, D., Herrero-Bervera, E., Hyttinen, O., Jensen, J.B., Johnson, S., Kenzler, M., Kotilainen, A., Kotthoff, U., Marshall, I.P.G., Martin, E., Obrochta, S., Passchier, S., Quintana Krupinski, N., Riedinger, N., Slomp, C., Snowball, I., Stepanova, A., Strano, S., Torti, A., Warnock, J., Xiao, N., and Zhang, R., 2015. Site M0060. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., Andrén, E., Ash, J., Bauersachs, T., Cragg, B., Fanget, A.-S., Fehr, A., Granoszewski, W., Groeneveld, J., Hardisty, D., Herrero-Bervera, E., Hyttinen, O., Jensen, J.B., Johnson, S., Kenzler, M., Kotilainen, A., Kotthoff, U., Marshall, I.P.G., Martin, E., Obrochta, S., Passchier, S., Quintana Krupinski, N., Riedinger, N., Slomp, C., Snowball, I., Stepanova, A., Strano, S., Torti, A., Warnock, J., Xiao, N., and Zhang, R., 2015. Site M0061. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., Andrén, E., Ash, J., Bauersachs, T., Cragg, B., Fanget, A.-S., Fehr, A., Granoszewski, W., Groeneveld, J., Hardisty, D., Herrero-Bervera, E., Hyttinen, O., Jensen, J.B., Johnson, S., Kenzler, M., Kotilainen, A., Kotthoff, U., Marshall, I.P.G., Martin, E., Obrochta, S., Passchier, S., Quintana Krupinski, N., Riedinger, N., Slomp, C., Snowball, I., Stepanova, A., Strano, S., Torti, A., Warnock, J., Xiao, N., and Zhang, R., 2015. Site M0062. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., Andrén, E., Ash, J., Bauersachs, T., Cragg, B., Fanget, A.-S., Fehr, A., Granoszewski, W., Groeneveld, J., Hardisty, D., Herrero-Bervera, E., Hyttinen, O., Jensen, J.B., Johnson, S., Kenzler, M., Kotilainen, A., Kotthoff, U., Marshall, I.P.G., Martin, E., Obrochta, S., Passchier, S., Quintana Krupinski, N., Riedinger, N., Slomp, C., Snowball, I., Stepanova, A., Strano, S., Torti, A., Warnock, J., Xiao, N., and Zhang, R., 2015. Site M0063. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., Andrén, E., Ash, J., Bauersachs, T., Cragg, B., Fanget, A.-S., Fehr, A., Granoszewski, W., Groeneveld, J., Hardisty, D., Herrero-Bervera, E., Hyttinen, O., Jensen, J.B., Johnson, S., Kenzler, M., Kotilainen, A., Kotthoff, U., Marshall, I.P.G., Martin, E., Obrochta, S., Passchier, S., Quintana Krupinski, N., Riedinger, N., Slomp, C., Snowball, I., Stepanova, A., Strano, S., Torti, A., Warnock, J., Xiao, N., and Zhang, R., 2015. Site M0064. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., Andrén, E., Ash, J., Bauersachs, T., Cragg, B., Fanget, A.-S., Fehr, A., Granoszewski, W., Groeneveld, J., Hardisty, D., Herrero-Bervera, E., Hyttinen, O., Jensen, J.B., Johnson, S., Kenzler, M., Kotilainen, A., Kotthoff, U., Marshall, I.P.G., Martin, E., Obrochta, S., Passchier, S., Quintana Krupinski, N., Riedinger, N., Slomp, C., Snowball, I., Stepanova, A., Strano, S., Torti, A., Warnock, J., Xiao, N., and Zhang, R., 2015. Site M0065. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., Andrén, E., Ash, J., Bauersachs, T., Cragg, B., Fanget, A.-S., Fehr, A., Granoszewski, W., Groeneveld, J., Hardisty, D., Herrero-Bervera, E., Hyttinen, O., Jensen, J.B., Johnson, S., Kenzler, M., Kotilainen, A., Kotthoff, U., Marshall, I.P.G., Martin, E., Obrochta, S., Passchier, S., Quintana Krupinski, N., Riedinger, N., Slomp, C., Snowball, I., Stepanova, A., Strano, S., Torti, A., Warnock, J., Xiao, N., and Zhang, R., 2015. Site M0066. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., Andrén, E., Ash, J., Bauersachs, T., Cragg, B., Fanget, A.-S., Fehr, A., Granoszewski, W., Groeneveld, J., Hardisty, D., Herrero-Bervera, E., Hyttinen, O., Jensen, J.B., Johnson, S., Kenzler, M., Kotilainen, A., Kotthoff, U., Marshall, I.P.G., Martin, E., Obrochta, S., Passchier, S., Quintana Krupinski, N., Riedinger, N., Slomp, C., Snowball, I., Stepanova, A., Strano, S., Torti, A., Warnock, J., Xiao, N., and Zhang, R., 2015. Site M0067. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proc. IODP, 347: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/ Expedition research resultsKrüger, M., and Schippers, A., 2017. Data report: cultivation of prokaryotes from subsurface marine sediments of the Baltic Sea (IODP Expedition 347). In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proceedings of the Integrated Ocean Drilling Program, 347: College Station, TX (Integrated Ocean Drilling Program). http://doi.org/ Volz, J.B., Riedinger, N., Hardisty, D.S., and Kasten, S., 2020. Data report: solid-phase major and minor elements and iron and sulfur species in sediments of the Anholt Basin, Baltic Sea, collected during IODP Expedition 347. In Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the Expedition 347 Scientists, Proceedings of the Integrated Ocean Drilling Program, 347: College Station, TX (Integrated Ocean Drilling Program). http://doi.org/ SynthesesJørgensen, B.B., Andrén, T., and Marshall, I.P.G., 2020. Sub‐seafloor biogeochemical processes and microbial life in the Baltic Sea. Environmental Microbiology, 22(5):1688–1706. https://doi.org/ Journals/BooksAlatarvas, R., 2023. Provenance analysis of Late Pleistocene Arctic glacial marine and lacustrine sediments – implications for deglaciation dynamics [PhD dissertation]. University of Oulu, Finland. https://www.oulu.fi/resterr/jutut/A47_Alatarvas.pdf Alatarvas, R., Strand, K., Hyttinen, O., and Kotilainen, A., 2022. Sedimentary facies and clay mineralogy of the late Pleistocene Landsort Deep sediments, Baltic Sea — implications for the Baltic Ice Lake development. Arctic, Antarctic, and Alpine Research, 54(1):624–639. https://doi.org/10.1080/15230430.2022.2155352 Andrén, T., Jørgensen, B.B., Cotterill, C., Green, S., and the IODP Expedition 347 Scientific Party, 2015. IODP Expedition 347: Baltic Sea basin paleoenvironment and biosphere. Scientific Drilling, 20:1–12. https://doi.org/10.5194/sd-20-1-2015 Apler, A., Snowball, I., Frogner-Kockum, P., and Josefsson, S., 2019. Distribution and dispersal of metals in contaminated fibrous sediments of industrial origin. Chemosphere, 215:470–481. https://doi.org/10.1016/j.chemosphere.2018.10.010 Ash, J.L., Egger, M., Treude, T., Kohl, I., Cragg, B., Parkes, R.J., Slomp, C.P., Sherwood Lollar, B., and Young, E.D., 2019. Exchange catalysis during anaerobic methanotrophy revealed by 12CH2D2 and 13CH3D in methane. Geochemical Perspectives Letters, 10:26–30. https://doi.org/10.7185/geochemlet.1910 Bird, J.T., Tague, E.D., Zinke, L., Schmidt, J.M., Steen, A.D., Reese, B., Marshall, I.P.G., Webster, G., Weightman, A., Castro, H.F., Campagna, S.R., and Lloyd, K.G., 2019. Uncultured microbial phyla suggest mechanisms for multi-thousand-year subsistence in Baltic Sea sediments. mBio, 10(2):e02376-02318. https://doi.org/10.1128/mBio.02376-18 Bokhari Friberg, Y., 2015. The paleoceanography of Kattegat during the last deglaciation from benthic foraminiferal stable isotopes [MS thesis]. Lund University, Sweden. https://lup.lub.lu.se/student-papers/search/publication/8229269 Braun, S., Morono, Y., Becker, K.W., Hinrichs, K.-U., Kjeldsen, K.U., Jørgensen, B.B., and Lomstein, B.A., 2016. Cellular content of biomolecules in sub-sea floor microbial communities. Geochimica et Cosmochimica Acta, 188:330–351. https://doi.org/10.1016/j.gca.2016.06.019 Braun, S., Morono, Y., Littmann, S., Kuypers, M., Aslan, H., Dong, M., Jørgensen, B.B., and Lomstein, B.A., 2016. Size and carbon content of sub-seafloor microbial cells at Landsort Deep, Baltic Sea. Frontiers in Microbiology, 7(1375). https://doi.org/10.3389/fmicb.2016.01375 Brodecka-Goluch, A., Siudek, P., and Bolałek, J., 2019. Impact of sampling techniques on the concentration of ammonia and sulfide in pore water of marine sediments. Oceanological and Hydrobiological Studies, 48(2):184–195. https://doi.org/10.1515/ohs-2019-0017 Buongiorno, J., Turner, S., Webster, G., Asai, M., Shumaker, A.K., Roy, T., Weightman, A., Schippers, A., and Lloyd, K.G., 2017. Interlaboratory quantification of Bacteria and Archaea in deeply buried sediments of the Baltic Sea (IODP Expedition 347). FEMS Microbiology Ecology, 93(3):fix007. https://doi.org/10.1093/femsec/fix007 Cai, L., Jørgensen, B.B., Suttle, C.A., He, M., Cragg, B.A., Jiao, N., and Zhang, R., 2019. Active and diverse viruses persist in the deep sub-seafloor sediments over thousands of years. The ISME Journal, 13(7):1857–1864. https://doi.org/10.1038/s41396-019-0397-9 Castillo, D., Vandieken, V., Engelen, B., Engelhardt, T., and Middelboe, M., 2018. Draft genome sequences of six Vibrio diazotrophicus strains isolated from deep subsurface sediments of the Baltic Sea. Genome Announcements, 6(10):e00081-00018. https://doi.org/10.1128/genomeA.00081-18 Dijkstra, N., 2017. Phosphorous dynamics in the Black Sea and Baltic Sea [PhD dissertation]. University Utrecht, Netherlands. http://dspace.library.uu.nl/handle/1874/348635 Dijkstra, N., Hagens, M., Egger, M., and Slomp, C.P., 2018. Post-depositional formation of vivianite-type minerals alters sediment phosphorus records. Biogeosciences, 15(3):861–883. https://doi.org/10.5194/bg-2017-295 Dijkstra, N., Quintana Krupinski, N.B., Yamane, M., Obrochta, S.P., Miyairi, Y., Yokoyama, Y., and Slomp, C.P., 2018. Holocene refreshening and reoxygenation of a Bothnian Sea estuary led to enhanced phosphorus burial. Estuaries and Coasts, 41(1):139–157. https://doi.org/10.1007/s12237-017-0262-x Dijkstra, N., Slomp, C.P., and Behrends, T., 2016. Vivianite is a key sink for phosphorus in sediments of the Landsort Deep, an intermittently anoxic deep basin in the Baltic Sea. Chemical Geology, 438:58–72. https://doi.org/10.1016/j.chemgeo.2016.05.025 Egger, M., Hagens, M., Sapart, C.J., Dijkstra, N., van Helmond, N.A.G.M., Mogollón, J.M., Risgaard-Petersen, N., van der Veen, C., Kasten, S., Riedinger, N., Böttcher, M.E., Röckmann, T., Jørgensen, B.B., and Slomp, C.P., 2017. Iron oxide reduction in methane-rich deep Baltic Sea sediments. Geochimica et Cosmochimica Acta, 207:256–276. https://doi.org/10.1016/j.gca.2017.03.019 Frogner-Kockum, P., Kononets, M., Apler, A., Hall, P.O.J., and Snowball, I., 2020. Less metal fluxes than expected from fibrous marine sediments. Marine Pollution Bulletin, 150:110750. https://doi.org/10.1016/j.marpolbul.2019.110750 Garber, A.I., Ramírez, G.A., McAllister, S.M., Orsi, W., and D'Hondt, S., 2021. Cryptic metabolisms in anoxic subseafloor sediment. Environmental Microbiology Reports, 13(5):696−701. https://doi.org/10.1111/1758-2229.12983 Glombitza, C., Egger, M., Roy, H., and Jørgensen, B.B., 2019. Controls on volatile fatty acid concentrations in marine sediments (Baltic Sea). Geochimica et Cosmochimica Acta, 258:226–241. https://doi.org/10.1016/j.gca.2019.05.038 Hardisty, D.S., Riedinger, N., Planavsky, N.J., Asael, D., Andrén, T., Jørgensen, B.B., and Lyons, T.W., 2016. A Holocene history of dynamic water column redox conditions in the Landsort Deep, Baltic Sea. American Journal of Science, 316(8):713–745. https://doi.org/10.2475/08.2016.01 Hardisty, D.S., Riedinger, N., Planavsky, N.J., Asael, D., Bates, S.M., and Lyons, T.W., 2021. Holocene spatiotemporal redox variations in the Southern Baltic Sea. Frontiers in Earth Science, 9. https://doi.org/10.3389/feart.2021.671401 Hausmann, B., Vandieken, V., Pjevac, P., Schreck, K., Herbold, C.W., and Loy, A., 2019. Draft genome sequence of Desulfosporosinus fructosivorans strain 63.6FT, isolated from marine sediment in the Baltic Sea. Microbiology Resource Announcements, 8(31):e00427-00419. https://doi.org/10.1128/MRA.00427-19 Herrero-Bervera, E., and Snowball, I., 2020. Integrated high-resolution PSV, RPI and 14C study of IODP-347 Site M0060 (Anholt Loch, Baltic Sea) for the last c. 14 ka. Geological Society Special Publication, 497(1):179–192. https://doi.org/10.1144/SP497-2019-147 Hoehler, T.M., and Jørgensen, B.B., 2013. Microbial life under extreme energy limitation. Nature Reviews Microbiology, 11(2):83. http://hdl.handle.net/10.1038/nrmicro2939 Hoshino, T., Doi, H., Uramoto, G.-I., Wörmer, L., Adhikari, R.R., Xiao, N., Morono, Y., D’Hondt, S., Hinrichs, K.-U., and Inagaki, F., 2020. Global diversity of microbial communities in marine sediment. Proceedings of the National Academy of Sciences of the United States of America, 117(44):27587–27597. https://doi.org/10.1073/pnas.1919139117 Hoshino, T., and Inagaki, F., 2024. Distribution of eukaryotic environmental DNA in global subseafloor sediments. Progress in Earth and Planetary Science, 11(1):19. https://doi.org/10.1186/s40645-024-00621-2 Hyttinen, O., Kotilainen, A.T., Virtasalo, J.J., Kekäläinen, P., Snowball, I., Obrochta, S., and Andrén, T., 2017. Holocene stratigraphy of the Ångermanälven River estuary, Bothnian Sea. Geo-Marine Letters, 37(3):273–288. https://doi.org/10.1007/s00367-016-0490-2 Hyttinen, O., Quintana Krupinski, N., Bennike, O., Wacker, L., Filipsson, H.L., Obrochta, S., Jensen, J.B., Lougheed, B., Ryabchuk, D., Passchier, S., Snowball, I., Herrero-Bervera, E., Andrén, T., and Kotilainen, A.T., 2021. Deglaciation dynamics of the Fennoscandian Ice Sheet in the Kattegat, the gateway between the North Sea and the Baltic Sea Basin. Boreas, 50(2):351–368. https://doi.org/10.1111/bor.12494 Jensen, J.B., Moros, M., Endler, R., and the IODP Expedition 347 Members, 2017. The Bornholm Basin, southern Scandinavia: a complex history from Late Cretaceous structural developments to recent sedimentation. Boreas, 46(1):3–17. https://doi.org/10.1111/bor.12194 Jochum, L.M., Chen, X., Lever, M.A., Loy, A., Jørgensen, B.B., Schramm, A., Kjeldsen, K.U., and Drake, H.L., 2017. Depth distribution and assembly of sulfate-reducing microbial communities in marine sediments of Aarhus Bay. Applied and Environmental Microbiology, 83(23):e01547-01517. https://doi.org/10.1128/AEM.01547-17 Jørgensen, B.B., Egger, M., Lever, M.A., and Røy, H., 2024. Seawater contamination by coring and pore water sampling of marine sediments. Chemical Geology, 651:122020. https://doi.org/10.1016/j.chemgeo.2024.122020 Jørgensen, B.B., Findlay, A.J., and Pellerin, A., 2019. The biogeochemical sulfur cycle of marine sediments. Frontiers in Microbiology, 10:849. https://doi.org/10.3389/fmicb.2019.00849 Kaislo, L., 2021. XRD-based clay mineralogy of the Landsort Deep sediments, Baltic Sea (IODP, Site M0063) [MS thesis]. University of Oulu, Oulu, Finland. http://jultika.oulu.fi/files/nbnfioulu-202107038784.pdf Kelly, A.L., 2017. Determining late Pleistocene to early Holocene deglaciation of the Baltic Ice Lake through sedimentological and geochemical analysis of IODP Site M0064 [MS thesis]. Montclair State University, Montclair, NJ. https://digitalcommons.montclair.edu/etd/440/ Kelly, A.L., and Passchier, S., 2018. A sub-millennial sediment record of ice-stream retreat and meltwater storage in the Baltic Ice Lake during the Bølling-Allerød interstadial. Quaternary Science Reviews, 198:126–139. https://doi.org/10.1016/j.quascirev.2018.08.018 Kotthoff, U., Groeneveld, J., Ash, J.L., Fanget, A.-S., Krupinski, N.Q., Peyron, O., Stepanova, A., Warnock, J., van Helmond, N.A.G.M., Passey, B.H., Clausen, O.R., Bennike, O., Andrén, E., Granoszewski, W., Andren, T., Filipsson, H.L., Seidenkrantz, M.-S., Slomp, C.P., and Bauersachs, T., 2017. Reconstructing Holocene temperature and salinity variations in the western Baltic Sea region: a multi-proxy comparison from the Little Belt (IODP Expedition 347, Site M0059). Biogeosciences, 14(23):5607–5632. https://doi.org/10.5194/bg-2017-101 Langwig, M.V., 2019. Expansion of Deltaproteobacteria diversity from marine sediment reveals unique metabolic features [MS thesis]. The University of Texas, Austin, TX. https://repositories.lib.utexas.edu/handle/2152/86831 Löfroth, H., O'Regan, M., Snowball, I., Holmén, M., Kopf, A., Göransson, G., Hedfors, J., Apler, A., and Frogner-Kockum, P., 2021. Challenges in slope stability assessment of contaminated fibrous sediments along the northern Baltic coast of Sweden. Engineering Geology, 289:106190. https://doi.org/10.1016/j.enggeo.2021.106190 Marshall, I.P.G., Karst, S.M., Nielsen, P.H., and Jørgensen, B.B., 2018. Metagenomes from deep Baltic Sea sediments reveal how past and present environmental conditions determine microbial community composition. Marine Genomics, 37:58–68. https://doi.org/10.1016/j.margen.2017.08.004 Mhatre, S.S., Kaufmann, S., Marshall, I.P.G., Obrochta, S., Andrén, T., Jørgensen, B.B., and Lomstein, B.A., 2019. Microbial biomass turnover times and clues to cellular protein repair in energy-limited deep Baltic Sea sediments. FEMS Microbiology Ecology, 95(6):fiz068. https://doi.org/10.1093/femsec/fiz068 Mitnick, E.H., Lammers, L.N., Zhang, S., Zaretskiy, Y., and DePaolo, D.J., 2018. Authigenic carbonate formation rates in marine sediments and implications for the marine δ13C record. Earth and Planetary Science Letters, 495:135–145. https://doi.org/10.1016/j.epsl.2018.05.018 Möller, P., Alexanderson, H., Anjar, J., and Björck, S., 2020. MIS 3 sediment stratigraphy in southern Sweden sheds new light on the complex glacial history and dynamics across southern Scandinavia. Boreas, 49(3):389–416. https://doi.org/10.1111/bor.12433 Ni, S., 2020. Tracing marine hypoxic conditions during warm periods using a microanalytical approach [PhD dissertation]. Lund University, Sweden. https://lucris.lub.lu.se/ws/portalfiles/portal/86851215/Sha_Ni_thesis.pdf Ni, S., Quintana Krupinski, N.B., Groeneveld, J., Fanget, A.S., Böttcher, M.E., Liu, B., Lipka, M., Knudsen, K.L., Naeraa, T., Seidenkrantz, M.-S., and Filipsson, H.L., 2020. Holocene hydrographic variations from the Baltic-North Sea transitional area (IODP Site M0059). Paleoceanography and Paleoclimatology, 35(2):e2019PA003722. https://doi.org/10.1029/2019PA003722 Ni, S., Quintana Krupinski, N.B., Groeneveld, J., Persson, P., Somogyi, A., Brinkmann, I., Knudsen, K.L., Seidenkrantz, M.S., and Filipsson, H.L., 2020. Early diagenesis of foraminiferal calcite under anoxic conditions: a case study from the Landsort Deep, Baltic Sea (IODP Site M0063). Chemical Geology, 558:119871. https://doi.org/10.1016/j.chemgeo.2020.119871 Niu, J., Chen, H., Cai, L., He, M., Zhang, R., and Wang, L., 2022. Grinding beads influence microbial DNA extraction from organic-rich sub-seafloor sediment. Microorganisms, 10(12):2505. https://doi.org/10.3390/microorganisms10122505 Obrochta, S.P., Andrén, T., Fazekas, S.Z., Lougheed, B.C., Snowball, I., Yokoyama, Y., Miyairi, Y., Kondo, R., Kotilainen, A.T., Hyttinen, O., and Fehr, A., 2017. The undatables: quantifying uncertainty in a highly expanded late Glacial-Holocene sediment sequence recovered from the deepest Baltic Sea Basin—IODP Site M0063. Geochemistry, Geophysics, Geosystems, 18(3):858–871. https://doi.org/10.1002/2016GC006697 Papadomanolaki, N.M., Dijkstra, N., van Helmond, N.A.G.M., Hagens, M., Bauersachs, T., Kotthoff, U., Sangiorgi, F., and Slomp, C.P., 2018. Controls on the onset and termination of past hypoxia in the Baltic Sea. Palaeogeography, Palaeoclimatology, Palaeoecology, 490:347–354. https://doi.org/10.1016/j.palaeo.2017.11.012 Samudovszky, E., 2020. Anisotropy of magnetic susceptibility and remanent magnetization studies in sediments from the Ångermanälven River estuary (IODP Expedition 347, Site M0061) [MS thesis]. Uppsala Universitet, Sweden. http://www.diva-portal.org/smash/get/diva2:1376445/FULLTEXT02 Sandefur, M.L., 2020. The behavior of the Baltic Sea ice stream during the deglaciation of the Baltic Ice Lake, recorded in the particle size and geochemistry within Bornholm Basin, IODP Site M0065 [MS thesis]. Montclair State University, Montclair, NJ. https://www.proquest.com/docview/2541948881 Sanyal, A., Larsson, J., van Wirdum, F., Andrén, T., Moros, M., Lönn, M., and Andrén, E., 2022. Not dead yet: diatom resting spores can survive in nature for several millennia. American Journal of Botany, 109(1):67–82. https://doi.org/10.1002/ajb2.1780 Schmidt, J.M., Royalty, T.M., Lloyd, K.G., and Steen, A.D., 2021. Potential activities and long lifetimes of organic carbon-degrading extracellular enzymes in deep subsurface sediments of the Baltic Sea. Frontiers in Microbiology, 12:702015. https://doi.org/10.3389/fmicb.2021.702015 Snowball, I., Almqvist, B., Lougheed, B.C., Wiers, S., Obrochta, S., and Herrero-Bervera, E., 2019. Coring induced sediment fabrics at IODP Expedition 347 Sites M0061 and M0062 identified by anisotropy of magnetic susceptibility (AMS): criteria for accepting palaeomagnetic data. Geophysical Journal International, 217(2):1089–1107. https://doi.org/10.1093/gji/ggz075 Starnawski, P., Bataillon, T., Ettema, T.J.G., Jochum, L.M., Schreiber, L., Chen, X., Lever, M.A., Polz, M.F., Jørgensen, B.B., Schramm, A., and Kjeldsen, K.U., 2017. Microbial community assembly and evolution in subseafloor sediment. Proceedings of the National Academy of Sciences of the United States of America, 114(11):2940–2945. https://doi.org/10.1073/pnas.1614190114 Stepanova, A., Obrochta, S., Quintana Krupinski, N.B., Hyttinen, O., Kotilainen, A., and Andrén, T., 2019. Late Weichselian to Holocene history of the Baltic Sea as reflected in ostracod assemblages. Boreas, 48(3):761–778. https://doi.org/10.1111/bor.12375 van Helmond, N.A.G.M., Lougheed, B.C., Vollebregt, A., Peterse, F., Fontorbe, G., Conley, D.J., and Slomp, C.P., 2020. Recovery from multi-millennial natural coastal hypoxia in the Stockholm Archipelago, Baltic Sea, terminated by modern human activity. Limnology and Oceanography, 65(12):3085–3097. https://doi.org/10.1002/lno.11575 van Helmond, N.A.G.M., Quintana Krupinski, N.B., Lougheed, B.C., Obrochta, S.P., Andrén, T., and Slomp, C.P., 2017. Seasonal hypoxia was a natural feature of the coastal zone in the Little Belt, Denmark, during the past 8 ka. Marine Geology, 387:45–57. https://doi.org/10.1016/j.margeo.2017.03.008 van Wirdum, F., Andrén, E., Wienholz, D., Kotthoff, U., Moros, M., Fanget, A.-S., Seidenkrantz, M.-S., and Andrén, T., 2019. Middle to late Holocene variations in salinity and primary productivity in the central Baltic Sea: a multiproxy study from the Landsort Deep. Frontiers in Marine Science, 6:51. https://doi.org/10.3389/fmars.2019.00051 Vandieken, V., Marshall, I.P.G., Niemann, H., Engelen, B., and Cypionka, H., 2018. Labilibaculum manganireducens gen. nov., sp. nov. and Labilibaculum filiforme sp. nov., novel Bacteroidetes isolated from subsurface sediments of the Baltic Sea. Frontiers in Microbiology, 8:2614. https://doi.org/10.3389/fmicb.2017.02614 Vandieken, V., Niemann, H., Engelen, B., and Cypionka, H., 2017. Marinisporobacter balticus gen. nov., sp. nov., Desulfosporosinus nitroreducens sp. nov. and Desulfosporosinus fructosivorans sp. nov., new spore-forming bacteria isolated from subsurface sediments of the Baltic Sea. International Journal of Systematic and Evolutionary Microbiology, 67(6):1887–1893. https://doi.org/10.1099/ijsem.0.001883 Warnock, J., Andrén, E., Juggins, S., Lewis, J., Ryves, D.B., Andrén, T., and Weckström, K., 2020. A high-resolution diatom-based middle and late Holocene environmental history of the Little Belt region, Baltic Sea. Boreas, 49(1):1–16. https://doi.org/10.1111/bor.12419 Warnock, J.P., Bauersachs, T., Kotthoff, U., Brandt, H.-T., and Andrén, E., 2018. Holocene environmental history of the Angermanalven Estuary, northern Baltic Sea. Boreas, 47(2):593–608. https://doi.org/10.1111/bor.12281 Wittenborn, A.K., Radtke, H., Dutheil, C., Arz, H.W., and Kaiser, J., 2022. A downcore calibration of the TEXL86 temperature proxy for the Baltic Sea. Continental Shelf Research, 251:104875. https://doi.org/10.1016/j.csr.2022.104875 Yano, M., Yasukawa, K., Nakamura, K., Ikehara, M., and Kato, Y., 2020. Geochemical features of redox-sensitive trace metals in sediments under oxygen-depleted marine environments. Minerals, 10(11):1021. https://doi.org/10.3390/min10111021 Zhou, X., Jenkyns, H.C., Lu, W., Hardisty, D.S., Owens, J.D., Lyons, T.W., and Lu, Z., 2017. Organically bound iodine as a bottom-water redox proxy: preliminary validation and application. Chemical Geology, 457:95–106. https://doi.org/10.1016/j.chemgeo.2017.03.016 Zinke, L.A., 2018. Microbial communities in marine sediments affecting and effecting biogeochemical cycling: influence of microbial ecology on geochemical transformations in two contrasting marine settings [PhD dissertation]. University of Southern California, Los Angeles, CA. https://www.proquest.com/docview/2183250091?pq-origsite=gscholar Zinke, L.A., Glombitza, C., Bird, J.T., Røy, H., Jørgensen, B.B., Lloyd, K.G., Amend, J.P., and Reese, B.K., 2019. Microbial organic matter degradation potential in Baltic Sea sediments is influenced by depositional conditions and in situ geochemistry. Applied and Environmental Microbiology, 85(4):e02164-02118. https://doi.org/10.1128/AEM.02164-18 Zinke, L.A., Mullis, M.M., Bird, J.T., Marshall, I.P.G., Jørgensen, B.B., Lloyd, K.G., Amend, J.P., and Kiel Reese, B., 2017. Thriving or surviving? Evaluating active microbial guilds in Baltic Sea sediment. Environmental Microbiology Reports, 9(5):528–536. https://doi.org/10.1111/1758-2229.12578 ConferencesAmerican Geophysical Union (AGU) Fall Meeting 2014Bird, J.T., and Lloyd, K.G., 2014. Genomic analysis of deeply-branching bacteria and archaea from IODP Leg 347: Baltic Sea paleoenvironment [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract B13A-0170) http://abstractsearch.agu.org/ Dijkstra, N., Quintana Krupinski, N.B., and Slomp, C.P., 2014. Reconstruction of redox conditions and productivity in coastal waters of the Bothnian Sea during the Holocene [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract PP21C-1349) http://abstractsearch.agu.org/ Herrero-Bervera, E., Lau, J.K.S., and Snowball, I., 2014. Magnetostratigraphy and rock magnetic characterization of Baltic Sea IODP Expedition 347 Sites M0059 and M0060 [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract GP23B-3674) http://abstractsearch.agu.org/ Lloyd, K.G., Bird, J.T., and Shumaker, A., 2014. Potential physiologies of deep branches on the tree of life with deep subsurface samples from IODP Leg 347: Baltic Sea paleoenvironment [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract B24A-03) http://abstractsearch.agu.org/ Reese, B.K., Zinke, L., Carvalho, G., Lloyd, K.G., Marshall, I., Shumaker, A., and Amend, J., 2014. Active microbial community structure of deep subsurface sediments within Baltic Sea Basin [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract B11H-0140) http://abstractsearch.agu.org/ AGU Fall Meeting 2015Xiao, N., 2015. Cultivation and diversity of fungi buried in the Baltic Sea sediments [presented at the 2015 American Geophysical Union Fall Meeting, San Francisco, California, 14–18 December 2015]. (Abstract B23A-0595) http://abstractsearch.agu.org/ AGU Fall Meeting 2016Ash, J.L., Egger, M., Slomp, C.P., Kohl, I.E., Treude, T., Rumble, D., and Young, E.D., 2016. Resolved 12CH2D2 and 13CH3D in CH4 as sensitive indicators of disequilibrium and equilibrium during microbial methane cycling [presented at the 2016 American Geophysical Union Fall Meeting, San Francisco, California, 11–15 December 2016]. (Abstract B21H-0527) http://abstractsearch.agu.org/ Kelly, A.L., and Passchier, S., 2016. Determining late Pleistocene to early Holocene deglaciation of the Baltic Ice Lake through sedimentological core sample analysis of IODP Site M0064 [presented at the 2016 American Geophysical Union Fall Meeting, San Francisco, California, 11–15 December 2016]. (Abstract PP13B-2078) http://abstractsearch.agu.org/ Reese, B.K., Zinke, L.A., Bird, J.T., Lloyd, K.G., Marshall, I., Amend, J., Jorgensen, B.B., 2016. Active subsurface cellular function in the Baltic Sea Basin, IODP Exp 347 [presented at the 2016 American Geophysical Union Fall Meeting, San Francisco, California, 11–15 December 2016]. (Abstract B13G-0731) http://abstractsearch.agu.org/ AGU Fall Meeting 2017Herrero-Bervera, E., Lau, J.K.S., Snowball, I., Andren, T., Kotthoff, U., and Granoszewski, W., 2017. Integrated PSV, 14C, pollen study of the IODP Expedition 347, Site M0059 at Little Belt, Baltic Sea, for the last 9000 years [presented at the 2017 American Geophysical Union Fall Meeting, New Orleans, LA, 11–15 December 2017]. (Abstract PP53A-1108) http://abstractsearch.agu.org/ AGU Fall Meeting 2018Passchier, S., and Kelly, A.L., 2018. A sub-millennial sediment record of ice-stream retreat and meltwater storage in the Baltic Ice Lake during the Blling-Allerd interstadial. Presented at the 2018 American Geophysical Union Fall Meeting, Washington, DC, December 2018. https://abstractsearch.agu.org/ Australian Earth Sciences Convention 2016Johnson, S.C., McGoldrick, P.J., Hardisty, D., Meffre, S., Large, R.R., Noble, T., Olin, P., Dietz, C., Jorgensen, B.B., and Andren, T., 2016. The biological and chemical evolution of the Baltic Sea Basin reflected in changing sulphide geochemistry. Initial results from IODP Exp. 347 [presented at the Australian Earth Sciences Convention 2016, Adelaide, Australia, 26–30 June 2016]. http://ecite.utas.edu.au/ Baltic Sea Science Congress (BSSC) 2017Böttcher, M.E., Schmiedinger, I., Slomp, C., and Lipka, M., 2017. The H and O isotope geochemistry of modern and paleo waters of the Baltic Sea: a water column and interstitial water study [presented at the 11th Baltic Sea Science Congress, Rostock, Germany, 12–16 June 2017]. Dutch Society of Medical Microbiology (NVMM)/Royal Dutch Society of Microbiology (KNVM) Scientific Meeting 2015Schippers, A., 2015. Microbial interactions in the deep subsurface [presented at the Dutch Society of Medical Microbiology and the Royal Dutch Society of Microbiology Scientific Spring Meeting, Papendal, Netherlands, 14 and 15 April 2015]. European Geosciences Union (EGU) General Assembly 2014Andrén, E., 2014. The Baltic Sea IODP Expedition 347 “Baltic Sea Paleoenvironment”—preliminary results from the cruise. Geophys. Res. Abstr., 16:EGU2014-15526. http://meetingorganizer.copernicus.org/ Kotilainen, A., Hyttinen, O., Andrén, T., Cotterill, C., Hale, W., and the IODP Expedition 347 Science Party, 2014. Stratigraphic correlation for the IODP Expedition 347—toward an integrated Baltic Sea Basin stratigraphy. Geophys. Res. Abstr., 16:EGU2014-14273. http://meetingorganizer.copernicus.org/ EGU General Assembly 2015Dijkstra, N., Slomp, C.P., Ash, J., Bauersachs, T., Hardisty, D., Martin, E., Riedinger, N., and the IODP Expedition 347 Scientists Team, 2015. Shelf-to-basin shuttling of iron and manganese as a driver of phosphorus burial in the Landsort Deep during past periods of hypoxia. Geophysical Research Abstracts, 17:EGU2015-8924. http://meetingorganizer.copernicus.org/ Egger, M., Slomp, C.P., Dijkstra, N., Sapart, C.J., Risgaard-Petersen, N., Kasten, S., Riedinger, N., Jørgensen, B.B., and the IODP Expedition 347 Scientists Team, 2015. Iron oxide reduction in deep Baltic Sea sediments: the potential role of anaerobic oxidation of methane. Geophysical Research Abstracts, 17:EGU2015-10980. http://meetingorganizer.copernicus.org/ Groeneveld, J., Filipsson, H.L., Austin,
W.E.N., Darling, K., and Quintana Krupinski, N.B., 2015. Benthic foraminifera cultured over a large salinity gradient: first results and comparison with field data from the Baltic Sea. Geophysical Research Abstracts, 17:EGU2015-11429. http://meetingorganizer.copernicus.org/ Kotilainen, A., Hyttinen, O., Kekäläinen, P., Obrochta, S., Andrén, T., Ryabchuk, D., and Snowball, I., 2015. Holocene sedimentation in the Ångermanälven River estuary, the Baltic SeaIODP Site M0062. Geophysical Research Abstracts, 17:EGU2015-13198-1. http://meetingorganizer.copernicus.org/ Kotthoff, U., Andrén, T., Bauersachs, T., Fanget, A.-S., Granoszewski, W., Groeneveld, J., Krupinski, N., Peyron, O., Stepanova, A., and Cotterill, C., 2015. Reconstructing palaeo-environmental conditions in the Baltic: a multi-proxy comparison from IODP Site M0059 (Little Belt). Geophysical Research Abstracts, 17:EGU2015-10527. http://meetingorganizer.copernicus.org/ Passchier, S., Jensen, J.B., Kenzler, M., Johnson, S., Andrén, T., Jørgensen, B.B., and the Expedition 347 Science Team, 2015. A late glacial record of ice-sheet dynamics and melt supply recovered in the sediments of IODP Expedition 347 in the Baltic Sea. Geophysical Research Abstracts, 17:EGU2015-6394. http://meetingorganizer.copernicus.org/ Quintana Krupinski, N., Filipsson, H., Bokhari-Friberg, Y., Knudsen, K.-L., Mackensen, A., Groeneveld, J., and Austin, W., 2015. Foraminiferal stable isotope constraints on salinity changes in the deglacial and early Holocene Baltic Sea region. Geophysical Research Abstracts, 17:EGU2015-7196. http://meetingorganizer.copernicus.org/ Slomp, C., Dijkstra, N., Egger, M., Gustafsson, B., Ash, J., Bauersachs, T., Hardisty, D., Martin, E., Riedinger, N., Andren, T., Jorgensen, B.B., and the IODP Expedition 347 Scientists Team, 2015. Towards an improved understanding of Baltic Sea hypoxia during the Holocene: preliminary results from IODP Expedition 347. Geophysical Research Abstracts, 17:EGU2015-11988. http://meetingorganizer.copernicus.org/ EGU General Assembly 2020Ni, S., Quintana Krupinski, N., Groeneveld, J., Knudsen, K.L., Persson, P., Somogyi, A., Brinkman, I., Seidenktrantz, M.-S., and Filipsson, H.L., 2020. Early diagenesis in benthic foraminifera under anoxic conditions from the Landsort Deep, Baltic Sea (IODP Site M0063). Presented at the European Geosciences Union General Assembly 2020 (online), 4–8 May 2020. https://doi.org/ Geobiology, Gordon Research Conference 2016Røy, H., Glombitza, C., Jaussi, M., Turner, S., Schippers, A., and Jørgensen, B.B., 2016. Sulfate reduction in methanogenic Holocene Baltic Sea sediments [presented at the Geobiology, Gordon Research Conference 2016, Galveston, TX, 31 January–5 February 2016]. Geological Society of America (GSA) Annual Meeting 2017Stepanova, A., Andren, T., Obrochta, S., Hyttinen, O., Quintana Krupinski, N., and Kotilainen, A., 2017. Deglacial and Holocene Ostracoda from the Baltic Sea, Sites M0059, M0060 and M0063 (IODP Expedition 347). Geological Society of America Abstracts with Programs, 49(6):302-15. https://doi.org/ Goldschmidt Conference 2016Lloyd, K.G., Buongiorno, J., Turner, S., Webster, G., Bird, J., Reese, B., Marshall, I., et al., 2016. Quantification of deep sedimentary microorganisms and single-cell genomic analysis from IODP Leg 347 Baltic Sea paleoenvironment. Goldschmidt Conference Abstracts, 2016:1880. https://goldschmidtabstracts.info/abstracts/abstractView?id=2016004923 International Geological Congress (IGC) 2016Hyttinen, O., Kotilainen, A.T., Obrochta, S., Andren, T., Quintana-Krupinski, N., Bokhari-Friberg, Y., Jensen, J.B., Lougheed, B., Bennike, O., Wacker, L., Passchier, S., Snowball, I., and Herrero-Bervera, E., 2016. Deglacial dynamics of Scandinavian Ice Sheet (SIS) and changes in atmospheric ocean circulation in North Atlantic region [presented at the 35th International Geological Congress, Cape Town, South Africa, 27 August–4 September 2016]. (Paper 4575) https://www.americangeosciences.org/ Kotilainen, A.T., Hyttinen, O., Kekäläinen, P., Obrochta, S., Andrén, T., Ryabchuk, D., and Snowball, I., 2016. Holocene sedimentation in the Ångermanälven River estuary, the Baltic Sea—IODP Site M0062 [presented at the 35th International Geological Congress, Cape Town, South Africa, 27 August–4 September 2016]. (Paper 3183) https://www.americangeosciences.org/ International Workshop on Marine Geomicrobiology 2017Turner, S., Frohloff, D., Horn, M.A., and Schippers, A., 2017. Microbial nitgrogen cycling potential in deep sediments of the Baltic Sea [presented at the International Workshop on Marine Geomicrobiology 2017, Sandbjerg Manor, Denmark, 28 August–1 September 2017]. IODP/ICDP Kolloquium 2016Buongiorno, J., Webster, G., Weightman, A., Schumaker, A., Turner, S., Schippers, A., Roy, T., and Lloyd, K., 2016. Quantification of deep subseafloor Bacteria and Archaea—an inter-laboratory comparison [presented at the 2016 IODP/ICDP Kolloquium, Heidelberg, Germany, 14–16 March 2016]. IODP/ICDP Kolloquium 2017Böttcher, M.E., Liu, B., Schmiedinger, I., and Slomp, C., 2016. The hydrogen and oxygen isotope geochemistry of interstitial fluids from IODP Leg 347: a study of hydrographic changes in the Baltic Sea since the late Pleistocene [presented at the 2017 IODP/ICDP Kolloquium, Braunschweig, Germany, 14–16 March 2017]. Turner, S., and Schippers, A., 2017. Microbial nitrogen cycling potential in deep sediments of the Baltic Sea [presented at the 2017 IODP/ICDP Kolloquium, Braunschweig, Germany, 14–16 March 2017]. Joint European Stable Isotopes User Group Meeting (JESIUM) 2016Böttcher, M.E., Schmiedinger, I., Liu, B., and Slomp, C., 2016. The H and O isotope geochemistry of interstitial fluids from the Baltic Sea (IODP Leg 347): a study of hydrographic changes since the late Pleistocene [presented at the Joint European Stable Isotopes User Group Meeting (JESIUM) 2016, Ghent, Belgium, 4–8 September 2016]. *The Expedition-related bibliography is continually updated online. Please send updates to PubCrd@iodp.tamu.edu. |