peer-reviewed scientific journal publications
72 Inglis, G. N., Bragg, F., Burls, N. J., Cramwinckel, M. J., Evans, D., Foster, G. L., Huber, M., Lunt, D. J., Siler, N., Steinig, S., Tierney, J. E., Wilkinson, R., Anagnostou, E., de Boer, A. M., Dunkley Jones, T., Edgar, K. M., Hollis, C. J., Hutchinson, D. K., and Pancost, R. D., 2020. Global mean surface temperature and climate sensitivity of the early Eocene Climatic Optimum (EECO), Paleocene–Eocene Thermal Maximum (PETM), and latest Paleocene, Clim. Past, 16, 1953–1968. https://doi.org/10.5194/cp-16-1953-2020.
71 Martens, J., Wild, B., Muschitiello, F., O’Regan, M., Jakobsson, M., Semiletov, I., Dudarev, O.V., Gustafsson, Ö., 2020. Remobilization of dormant carbon from Siberian-Arctic permafrost during three past warming events. Science Advances: 6 (42). doi: 10.1126/sciadv.abb6546
70 Manzotti, P., Ballèvre, M., Pitra, P., Putlitz, B., Robyr, M., Müntener, O., 2020. The growth of sodic amphibole at the greenschist- to blueschist-facies transition: bulk-rock chemical control and thermodynamic modelling. Journal of Petrology: 61, 4: egaa044. https://doi.org/10.1093/petrology/egaa044
69 Hällberg, L.P., Stevens, T., Almqvist, B., Snowball, I., Wiers, S., Költringer, C., Lu, H., Zhang, H., Lin, Z., 2020. Magnetic susceptibility parameters as proxies for desert sediment provenance. Aeolian Research: 46, 100615. https://doi.org/10.1016/j.aeolia.2020.100615
68 Rinne, J., Tuovinen, J.-P., Klemedtsson, L., Aurela, M., Holst, J., Lohila, A., Weslien, P., Vestin, P., Łakomiec, P., Peichl, M., Tuittila, E-S., Heiskanen, L., Laurila, T., Li, X., Alekseychik, P., Mammarella, I., Ström, L., Crill, P., Nilsson, M.B., 2020. Effect of the 2018 European drought on methane and carbon dioxide exchange of northern mire ecosystems: 2018 drought on northern mires. Philosophical Transactions of the Royal Society B: Biological Sciences, 2020, 375(1810), 20190517. https://doi.org/10.1098/rstb.2019.0517
67 Bond-Lamberty, B., Christianson, D.S., Malhotra, A., Pennington, S.C., Sihi, D., AghaKouchak, A., Anjileli, H., Arain, M.A., Armesto, J.J., Ashraf, S., Ataka, M., Baldocchi, D., Black, T.A., Buchmann, N., Carbone, M.S., Chang, S-C., Crill, P., Zhang, Q., Zou, J., 2020. COSORE: A community database for continuous soil respiration and other soil-atmosphere greenhouse gas flux data. Global Change Biology. https://doi.org/10.1111/gcb.15353
66 Kiel, S., Altamirano, A.J., Birgel, D., Coxall, H.K., Hybertsen, F., Peckmann, J., 2019. Fossiliferous methane-seep deposits from the Cenozoic Talara Basin in northern Peru. Lethaia. https://doi.org/10.1111/let.12349
65 Reghellin, D., Dickens, G. R., Coxall, H. K., and Backman, J., 2019. Understanding bulk sediment stable isotope records in the Eastern Equatorial Pacific, from seven million years ago to present-day. Published on line, Paleoceanography and Paleoclimatology. https://doi.org/10.1029/2019PA003586
64 Bourillot, R., Vennin, E., Dupraz, C., Pace, A., Foubert, A., Rouchy, J-M., Patrier, P., Blanc, P., Bernard, D., Lesseur, J., Visscher, P.T., 2020. The record of environmental and microbial signatures in ancient microbialites: The terminal carbonate complex from the neogene basins of southeastern Spain. Minerals: 10(3), pp. 1-50, 276. https://doi.org/10.3390/min10030276
63 Kylander, M.E., Söderlindh, J., Schenk, F., Gyllencreutz, R., Rydberg, J., Bindler, R., Martínez Cortizas, A., and Skelton, A., 2020. It's in your glass: a history of sea level and storminess from the Laphroaig bog, Islay (southwestern Scotland). Boreas. https://doi.org/10.1111/bor.12409
62 Scarponi, M., Hetényi, G., Berthet, T., Baron, L., Manzotti, P., Petri, B., Pistone, M., Müntener, O., 2020. New gravity data and 3-D density model constraints on the Ivrea Geophysical Body (Western Alps). Geophysical Journal International, Volume 222, Issue 3, September 2020, Pages 1977–1991. https://doi.org/10.1093/gji/ggaa263
61 Ballèvre, M., Camonin, A., Manzotti, P., Poujol, M., 2020. A step towards unraveling the paleogeographic attribution of pre-Mesozoic basement complexes in the Western Alps based on U–Pb geochronology of Permian magmatism. Swiss Journal of Geosciences: 113(1), 12. https://doi.org/10.1186/s00015-020-00367-1
60 Salifu, M., Hällström, L., Aiglsperger, T., Mörth, C.-M., Alakangas, L., 2020. A simple model for evaluating isotopic (18O, 2H and 87Sr/86Sr) mixing calculations of mine – Impacted surface waters. Journal of Contaminant Hydrology: 232, 103640. https://doi.org/10.1016/j.jconhyd.2020.103640
59 Aullón Alcaine, A., Schulz, C., Bundschuh, J., Jacks, G., Thunvik, R., Gustafsson, J-P., Mörth, C-M., Sracek, O., Ahmad, A., Bhattacharya, P., 2020. Hydrogeochemical controls on the mobility of arsenic, fluoride and other geogenic co-contaminants in the shallow aquifers of northeastern La Pampa Province in Argentina. Science of the Total Environment: 715, 136671. https://doi.org/10.1016/j.scitotenv.2020.136671
58 Rocher-Ros, G., Harms, T.K., Sponseller, R.A., Väisänen, M., Mörth, C.-M., Giesler, R., 2020. Metabolism overrides photo-oxidation in CO2 dynamics of Arctic permafrost streams. Limnology and Oceanography. https://doi.org/10.1002/lno.11564
57 Mahdy, N.M., Ntaflos, T., Pease, V., Sami, M., Slobodník, M., Steet, A.A.A., Abdelfadil, K.M., Fathy, D., 2020. Combined zircon U-Pb dating and chemical Th–U–total Pb chronology of monazite and thorite, Abu Diab A-type granite, Central Eastern Desert of Egypt: Constraints on the timing and magmatic-hydrothermal evolution of rare metal granitic magmatism in the Arabian Nubian Shield. Chemie der Erde: 125669. https://doi.org/10.1016/j.chemer.2020.125669
56 Cardenes, V., Merinero, R., Rubio-Ordoñez, Á., Cnudde, V., García-Guinea, J., Pitcairn, I.K., 2020. A morphological and size-based study of the changes of iron sulfides in the caples and torlesse terranes (Otago Schist, New Zealand) during prograde metamorphic evolution. Minerals: 10(5), 459. https://doi.org/10.3390/min10050459
55

Patten, C.G.C., Pitcairn, I.K., Alt, J.C., Zack, T., Lahaye, Y., Teagle, D.A.H., Markdahl, K., 2019. Metal fluxes during magmatic degassing in the oceanic crust: sulfide mineralisation at ODP site 786B, Izu-Bonin forearc. https://doi.org/10.1007/s00126-019-00900-9

54 Ali, R.A.M., Maurice, A.E., Pitcairn, I.K., Ahmed, A.H., Azer, M.K., Boskabadi, A., Bakhit, B.R., Shahien, M.G., 2020. Neoproterozoic and Cretaceous mantle oxidation states: Controls and heterogeneity through time. Lithos: 356-357, 105375. https://doi.org/10.1016/j.lithos.2020.105375
53 Lang, K.A., Glotzbach, C., Ring, U., Kamp, P.J.J., Ehlers, T.A., 2020. Linking orogeny and orography in the Southern Alps of New Zealand: New observations from detrital fission-track thermochronology of the Waiho-1 borehole. Earth and Planetary Science Letters: 552, 116586. https://doi.org/10.1016/j.epsl.2020.116586
52 S. G. Almqvist, B., Bender, H., Bergman, A., Ring, U., 2020. Magnetic properties of pseudotachylytes from western Jämtland, central Swedish Caledonides. Solid Earth: 11(3), pp. 807-828. https://doi.org/10.5194/se-11-807-2020
51 Ring, U., Uysal, I.T., Tong, K., Todd, A., 2020. K-Ar fault-gouge dating in the Lower Buller gorge constrains the formation of the Paparoa Trough, West Coast, New Zealand. New Zealand Journal of Geology and Geophysics. https://doi.org/10.1080/00288306.2020.1808025
50 Ring, U., Pantazides, H., Glodny, J., Skelton, A., 2020. Forced Return Flow Deep in the Subduction Channel, Syros, Greece. Tectonics: 39(1), e2019TC005768. https://doi.org/10.1029/2019TC005768
49 Uysal, I.T., Ring, U., Ünal-İmer, E., Yüce, G., Shulmeister, J., Imer, A., Italiano, F., Zhao, J.-X., 2020. Comment on “Uranium series dating of Great Artesian Basin travertine deposits: Implications for palaeohydrogeology and palaeoclimate” by Priestley et al. (2018). Palaeogeography, Palaeoclimatology, Palaeoecology: 537, 109420. https://doi.org/10.1016/j.palaeo.2019.109420
48 Shibley, N.C., Timmermans, M.-L., Stranne, C., 2020. Analysis of Acoustic Observations of Double-Diffusive Finestructure in the Arctic Ocean. Geophysical Research Letters:  47(18), e2020GL089845. https://doi.org/10.1029/2020GL089845
47 Fielding, J.J., Croudace, I.W., Kemp, A.E.S., Pearce, R.B., Cotterill, C.J., Langdon, P., Avery, R., 2020. Tracing lake pollution, eutrophication and partial recovery from the sediments of Windermere, UK, using geochemistry and sediment microfabrics. Science of the Total Environment: 722, 137745. https://doi.org/10.1016/j.scitotenv.2020.137745
46 Sjöström, J., Martínez Cortizas, A., Hansson, V.S., Silva Sànchez, N., Bindler, R., Rydberg, J., Mörth, C-M., Ryberg, E,E., Kylander, M,E., 2020. Paleodust deposition and peat accumulation rates – Bog size matters. Chemical Geology, Vol 554. DOI: https://doi.org/10.1016/j.chemgeo.2020.119795
45 Strandberg, N.A., Barliaev, A., Martinsson-Wallin, H., Risberg, J., Hättestrand, M., Croudace, I., Kylander, M., Yokoyama, Y., 2020. Landscape development at Lina myr fen, Eastern Gotland, 9000−2500 cal. yr BP. Holocene: 30, 8, 1205–1219. DOI: 10.1177/0959683620913919
44 Rocha, E., Gunnarson, B., Kylander, M.E., Augustsson, A., Rindby, A., Holzkämper, S., 2020. Testing the applicability of dendrochemistry using X-ray fluorescence to trace environmental contamination at a glassworks site. Sci Total Environ. 10; 720: 137429. doi: 10.1016/j.scitotenv.2020.137429
43 Martínez Cortizas, A., López-Costas, O., Orme, L., Mighall, T., Kylander, M.E.,  Bindler, R., Gallego Sala, A., 2020. Holocene atmospheric dust deposition in NW Spain. Holocene: 30, 4, 507–518. DOI: 10.1177/0959683619875193
42 De Vleeschouwer, F., Baron, S., Cloy, J.M., Enrico, M., Ettler, V., Fagel, N., Kempter, H., Kylander, M., Li, C., Longman, J., Martinez-Cortizas, A., Marx, S., Mattielli, N., Mighall, T., Nieminen, T.M., Piotrowska, N., Pontevedra-Pombal, X., Pratte, S., Renson, V., Shotyk, W., Shuttleworth, E., Sikorski, J., Stromsoe, N., Talbot, J., von Scheffer, C., Weiss, D., Zaccone, C., Le Roux, G., 2010. Comment on: "A novel approach to peatlands as archives of total cumulative spatial pollution loads from atmospheric deposition of airborne elements complementary to EMEP data: Priority pollutants (Pb, Cd, Hg)" by Ewa Miszczak, Sebastian Stefaniak, Adam Michczyński, Eiliv Steinnes and Irena Twardowska. Sci Total Environ. 737:138699. doi: 10.1016/j.scitotenv.2020.138699
41 Cappelli, C., Bown, P.R., de Riu, M., and Agnini, C., 2020. The evolution of Eocene (Ypresian/Lutetian) sphenoliths: biostratigraphic implications and paleoceanographic significance from North Atlantic Site IODP U1410. Newsletter on Stratigraphy, doi: 10.1127/nos/2020/0606
40 Jakobsson, M., Mayer, L. A., Bringensparr, C., Castro, C. F., Mohammad, R., Johnson, P., Ketter, T., Accettella, D., Amblas, D., An, L., Arndt, J. E., Canals, M., Casamor, J. L., Chauché, N., Coakley, B., Danielson, S., Demarte, M., Dickson, M.-L., Dorschel, B., Dowdeswell, J. A., Dreutter, S., Fremand, A. C., Gallant, D., Hall, J. K., Hehemann, L., Hodnesdal, H., Hong, J., Ivaldi, R., Kane, E., Klaucke, I., Krawczyk, D. W., Kristoffersen, Y., Kuipers, B. R., Millan, R., Masetti, G., Morlighem, M., Noormets, R., Prescott, M. M., Rebesco, M., Rignot, E., Semiletov, I., Tate, A. J., Travaglini, P., Velicogna, I., Weatherall, P., Weinrebe, W., Willis, J. K., Wood, M., Zarayskaya, Y., Zhang, T., Zimmermann, M., and Zinglersen, K. B., 2020. The International Bathymetric Chart of the Arctic Ocean Version 4.0. Scientific Data, v. 7, no. 1, p. 176. Doi:10.1038/s41597-020-0520-9
39 Ware, C., Mayer, L., Johnson, P., Jakobsson, M. and Ferrini, V., 2020. A global geographic grid system for visualizing bathymetry. Geoscientific Instrumentation Methods and Data Systems, 9(2): 375–384. Doi: 10.5194/gi-9-375-2020
38 Jennings, A., Andrews, J., Reilly, B., Walczak, M., Jakobsson, M., Mix, A., Stoner, J., Nicholls, K.W. and Cheseby, M., 2020. Modern foraminiferal assemblages in northern Nares Strait, Petermann Fjord, and beneath Petermann ice tongue, NW Greenland. Arctic, Antarctic, and Alpine Research, 52(1): 491–511. Doi: 10.1080/15230430.2020.1806986
37 Broman, E., Sun, X., Stranne, C., Salgado, M.G., Bonaglia, S., Geibel., M.C., Jakobsson, M., Norkko, A., Humborg, C., Nascimento, F.J., 2020. Low abundance of methanotrophs in sediments of shallow boreal coastal zones with high water methane concentrations, Frontiers Microbiology. doi: 10.3389/fmicb.2020.01536.
36 Agnini, C., Backman, J., Boscolo Glazzo, F., Condon, D., Fornaciari, E., Galeotti, S., Giusberti, L., Lanci, L., Luciani, V., Monechi, S., Muttoni, G., Pälike, H., Pampaloni M.L., Papazzoni, C.A., Pearson, P., Pignatti, P, Premoli Silva, I., Raffi, I., Rio, D., Sahy, D., Spofforth, D., Stefani, C, and Wade, B., 2020. Proposal for the Global Boundary Stratotype Section and Point (GSSP) for the Priabonian Stage (Eocene) at the Alano section (Italy). Episodes: https://doi.org/10.18814/epiiugs/2020/020074
35 Visscher, P.T., Gallagher, K.L., Bouton, A. et al. (inc. Christophe Dupraz). Modern arsenotrophic microbial mats provide an analogue for life in the anoxic Archean. Commun Earth Environ 1, 24 (2020). https://doi.org/10.1038/s43247-020-00025-2
34 Cramwinckel, M.J. Coxall, H.K., Śliwińska, K.K., Polling, M., Harper, D.T., Bijl, P.K., Brinkhuis, H., Eldrett, J.S., Houben, A.J.P., Peterse, F., Schouten, S., Reichart, G-J., Zachos, J.C., and Sluijs, A., 2020. A warm, stratified, and restricted Labrador Sea across the middle Eocene and its Climatic Optimum. Paleoceanography and Paleoclimatology. https://doi.org/10.1029/2020PA003932
33 O’Regan, M., Backman, J., Fornaciari, E., Jakobsson, M., and West, G., 2020. Calcareous nannofossils anchor chronologies for Arctic Ocean sediments back to 500 ka. Geology, v. 48, doi.org/10.1130/G47479.1
32 Tessin, A., Maerz, C., Blais, M-A., Brumsack, H., Matthiessen, J., O’Regan, M., and Schnetger, B., 2020. Arctic continental margin sediments as possible Fe and Mn sources to seawater as sea ice retreats: Insights from the Eurasian Margin. Global Biogeochemical Cycles, v. 34(8). doi.org/10.1029/2020GB006581
31 Tessin, A., Maerz, C., Kedra, M., Morata, N., Nairn, M., Matthiessen, J., O’Regan, M., and Peeken, I., 2020. Benthic phosphorus cycling within the Eurasian marginal sea ice zone. Phil. Trans. R. Soc. A., v. 378, Issue 2181. doi.org/10.1098/rsta.2019.0358
30 Wiers, S., Snowball, I., O’Regan, M., Pearce, C., and Almqvist, B., 2020. The Arctic Ocean Manganese Cycle, an Overlooked Mechanism in the Anomalous Palaeomagnetic Sedimentary Record. Front. Earth Sci. 8:75. doi: 10.3389/feart.2020.00075
29 Rattray, J.E. and Smittenberg, R.H., 2020. Separation of branched and isoprenoid glycerol dialkyl glycerol tetraether (GDGT) isomers in peat soils and marine sediments using reverse phase chromatography. Front. Mar. Sci. doi: 10.3389/fmars.2020.539601
28 Bolduc, B., Hodgkins, S.B., Varner, R.K., Crill, P.M., McCalley, C.K., Chanton, J.P., Tyson, G.W., Riley, W.J., Palace, M., Duhaime, M.B., Hough, M.A., Saleska, S.R., Sullivan, M.B., Rich, V.I., 2020. The IsoGenie database: an interdisciplinary data management solution for ecosystems biology and environmental research. PeerJ 8: 9467. doi: 10.7717/peerj.9467.
27 Järveoja, J., Nilsson, M.B., Crill, P.M., and Peichl, M., 2020. Bimodal diel pattern in peatland ecosystem respiration rebuts uniform temperature response. Nature Communications. doi.org:10.1038/s41467-020-18027-1.
26 Thanh Duc, N., Silverstein, S., Wik, M., Crill, P., Bastviken, D., and Varner, R. K., 2020. Technical note: Greenhouse gas flux studies: an automated online system for gas emission measurements in aquatic environments, Hydrol. Earth Syst. Sci.: 24, 3417–3430. doi: 10.5194/hess-24-3417-2020.
25 Jansen, J., Wik, M., Thornton, B.F., MacIntyre, S., and Crill, P.M., 2020. Temperature proxies as a solution to biased sampling of lake methane emissions. Geophys. Res. Letts. doi: 10.1029/2020GL088647.
24 Douglas, P.M.J., Moguel, R.G., Walter Anthony, K.M., Wik, M., Crill, P.M., Dawson, K.S., Smith, D.A., Yanay, E., Lloyd, M.K., Stolper, D.A., Eiler, J.M., and Sessions, A.L., 2020. Clumped isotopes link older carbon substrates with slower rates of methanogenesis in northern lakes. Geophys. Res. Letts. doi: 10.1029/2019GL086756.
23 Saunois, M., Stavert, A. R., Poulter, B., Bousquet, P., et al. (inkl. P.M. Crill and B.F. Thornton), 2020. The Global Methane Budget 2000–2017, Earth Syst. Sci. Data: 12, 1–63. doi:10.5194/essd-12-1561-2020.
22 Patten, C.G.C., Pitcairn, I.K. , Molnár, F., Kolb, J., Beaudoin, G., Guilmette, C. and Peillod, A., 2020. Gold mobilization during metamorphic devolatilization of Archean and Paleoproterozoic metavolcanic rocks. Geology. https://doi.org/10.1130/G47658.1
21 Chen, D., et al., 2020. Summary of a workshop on extreme weather events in a warming world organized by the Royal Swedish Academy of Sciences. Tellus B: Chemical and Physical Meteorology: 72, 1, 1–13. https://doi.org/10.1080/16000889.2020.1794236
20 Edgar, K. M., Bohaty, S. M., Coxall, H. K., Bown, P. R., Batenburg, S. J., Lear, C. H., and Pearson, P. N., 2020. New composite bio- and isotope stratigraphies spanning the Middle Eocene Climatic Optimum at tropical ODP Site 865 in the Pacific Ocean. J. Micropalaeontol.: v. 39, no. 2, p. 117–138. https://doi.org/10.5194/jm-39-117-2020.
19 McNeill, L., Dugan, B., Petronotis, K., Milliken, K., Francis, J., and the Expedition 362 Scientists (incl. Backman, J.), 2020. Late Miocene wood recovered in Bengal-Nicobar submarine fan sediments by IODP Expediiton 362. Scientific Drilling: 27, 49–52. https:// doi.org/10.5194/sd-27-49-2020
18 Kharbush, J.J., Close, H.G., Van Mooy, B.A.S., Arnosti, C., Smittenberg, R.H., Le Moigne, F.A.C., Mollenhauer, G., Scholz-Böttcher, B., Obreht, I., Koch, B.P., Becker, K.W., Iversen, M.H., and Mohr, W., 2020. Particulate Organic Carbon Deconstructed: Molecular and Chemical Composition of Particulate Organic Carbon in the Ocean. Front. Mar. Sci. 7:518. doi: 10.3389/fmars.2020.00518
17 Sjöberg, S., Stairs, C., Allard, B., Hallberg, R., Homa, F., Martin, T., Etterna, T.J.G., and Dupraz, C.,2020. Bubble biofilm: Bacterial colonization of air-air interface. Biofilm: 2. https://doi.org/10.1016/j.bioflm.2020.100030
16 Pérez, L. F., Jakobsson, M., Funck, T., Andresen, K. J, Nielsen, T., O'Regan, M., and Mørk, F., 2020. Late Quaternary sedimentary processes in the central Arctic Ocean inferred from geophysical mapping. Geomorphology: 107309, doi: https://doi.org/10.1016/j.geomorph.2020.107309.
15 Muschitiello, F., O'Regan, M., Martens, J., West, G., Gustafsson, Ö. and Jakobsson, M., 2020. A new 30 000-year chronology for rapidly deposited sediments on the Lomonosov Ridge using bulk radiocarbon dating and probabilistic stratigraphic alignment. Geochronology, 2(1), 81–91. doi:10.5194/gchron-2-81-2020.
14 Jakobsson, M., 2020. Tracking the rapid pace of a retreating ice sheet. Science, 368(6494), 939–940. doi:10.1126/science.abc3583.
13 Tollefsen, E., B-Z, T., Mörth, C-M., Brüchert, V., Lee, C. & Skelton, A., 2020. Ikaite nucleation at 35°C challenges the use of glendonite as a paleotemperature indicator. Scientific Reports. http://doi.org/10.1038/s41598-020-64751-5
12 Thornton, B.F., 2020. Orderly as a swarm of bees. Nat Rev Chem. https://doi.org/10.1038/s41570-020-0188-x
11 Berchet, A., Pison, I., Crill, P.M., Thornton, B.F., Bousquet, P., Thonat, T., Hocking, T., Thanwerdas, J., Paris, J-D. and Saunois, M., 2020. Using ship-borne observations of methane isotopic ratio in the Arctic Ocean to understand methane sources in the Arctic. Atmos. Chem. Phys., 20, 3987–3998, https://doi.org/10.5194/acp-20-3987-2020
10 Jansen, J., Thornton, B.F., Cortés, A., Snöälv, J., Wik, M., MacIntyre, S., and Crill, P.M., 2020. Drivers of diffusive CH4 emissions from shallow subarctic lakes on daily to multi-year timescales. Biogeosciences, 17, 1911–1932, https://doi.org/10.5194/bg-17-1911-2020
9 Schenk, F., Bennike, O., Väliranta, M., Avery, R., Björck, S., and Wohlfarth, B., 2020. Floral evidence for high summer temperatures in southern Scandinavia during 15–11 cal ka BP. Quaternary Science Reviews: 233, 106243. https://www.sciencedirect.com/science/article/pii/S027737912030024X?via%3Dihub
8 Thornton, B. F., Prytherch, J., Andersson, K. , Brooks, I. M. , Salisbury, D. , Tjernström, M. , and Crill, P. M., 2020. Shipborne eddy covariance observations of methane fluxes constrain Arctic sea emissions. Science Advances: 6 (5), 7934.  doi:10.1126/sciadv.aay7934.
7 Hogan, K. A., Jakobsson, M., Mayer, L., Reilly, B. T., Jennings, A. E., Stoner, J. S., Nielsen, T., Andresen, K. J., Nørmark, E., Heirman, K. A., Kamla, E., Jerram, K., Stranne, C., and Mix, A., 2020. Glacial sedimentation, fluxes and erosion rates associated with ice retreat in Petermann Fjord and Nares Strait, north-west Greenland. The Cryosphere:14, 1,  261–286. https://doi.org/10.5194/tc-14-261-2020
6 Boskabadi, A., Pitcairn, I.K., Leybourne, M.I., Teagle, D.A.H., Cooper, M.J., Hadizadeh, H., Bezenjani, R.N., and Bagherzadeh, R.M., 2020. Carbonation of ophiolitic ultramafic rocks: Listvenite formation in the Late Cretaceous ophiolites of eastern Iran. Lithos: 352–353, 105307. https://doi.org/10.1016/j.lithos.2019.105307
5 López-Costas, O., Kylander, M., Mattielli, N., Álvarez-Fernández, N., Pérez-Rodríguez, M., Mighall, T., Bindler, R., and Martínez Cortizas, A., 2020. Human bones tell the story of atmospheric mercury and lead exposure at the edge of Roman World. Science of The Total Environment: 710, 136319. https://doi.org/10.1016/j.scitotenv.2019.136319
4 Jakobsson, M., O’Regan, M., Mörth, C.-M., Stranne, C., Weidner, E., Hansson, J., Gyllencreutz, R., Humborg, C., Elfwing, T., Norkko, A., Norkko, J., Nilsson, B., and Sjöström, A., 2020. Potential links between Baltic Sea submarine terraces and groundwater seeping. Earth Surface Dynamics: 8, 1–15. Doi: https://www.earth-surf-dynam.net/8/1/2020/
3 Hirst, C., Andersson, P.S., Kooijman, E., Schmitt, M., Kutscher, L., Maximov, T., Mört, C-M., and Porcelli, D., 2020. Iron isotopes reveal the sources of Fe-bearing particles and colloids in the Lena River basin. Geochimica et Cosmochimica Acta: 269, 678–692. https://doi.org/10.1016/j.gca.2019.11.004
2 Gdaniec, S., Roy-Barman, M., Levier, M., Valk, O., van der Loeff, M.R., Foliot, L., Dapoigny, A., Missiaen, L., Mörth, C-M., and Andersson, P.S., 2020. 231Pa and 230Th in the Arctic Ocean: Implications for boundary scavenging and 231Pa230Th fractionation in the Eurasian Basin. Chemical Geology: 532, 119380. https://doi.org/10.1016/j.chemgeo.2019.119380
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