Publication list

Peer-reviewed scientific journal publications

23 Tajčmanová, L., Manzotti, P., and Alvaro, M., 2021. Under Pressure: High-Pressure Metamorphism in the Alps. Elements: 17 (1), 17–22. https://doi.org/10.2138/gselements.17.1.17
22 Stranne, C., Nilsson, J., Ulfsbo, A., O’Regan, M., Coxall, H.K., Meire, L., Muchowski, J., Mayer, L.A., Brüchert, V., Fredriksson, J., Thornton, B., Chawarski, J., West, G., Weidner, E., and Jakobsson, M., 2021. The climate sensitivity of northern Greenland fjords is amplified through sea-ice damming. Communications Earth & Environment.
21 Peillod, A., Tehler, E., and Ring, U., 2021. Quo vadis Zeus – Is there a Zas shear zone on Naxos Island, Aegean Sea, Greece? A review of metamorphic history and new kinematic data. Journal of the Geological Society. doi: https://doi.org/10.1144/jgs2020-217
20 Peillod, A., Majka, J., Ring, U., Drüppel, K., Patten, C., Karlsson, A., Włodek, A., and Tehlera, E., 2021. Differences in decompression of a high-pressure unit: A case study from the Cycladic Blueschist Unit on Naxos Island, Greece. Lithos: 386–387. https://doi.org/10.1016/j.lithos.2021.106043
19

Wilson, R.M., Zayed, A.A., Crossen, K.B., Woodcroft, B., Tfaily, M.M., Emerson, J., Raab, N., Hodgkins, S.B., Verbeke, B., Tyson, G., Crill, P., Saleska, S., Chanton, J.P., Rich, V.I., IsoGenie Project Coordinators, IsoGenie Project Field Team, 2021. Functional capacities of microbial communities to carry out large scale geochemical processes are maintained during ex situ anaerobic incubation. PLoS ONE: 16(2), e0245857. doi: 10.1371/journal.pone.0245857

18 Bruhwiler, L., Parmentier, F-J.W., Crill, P., Leonard, M., and Palmer, P.I., 2021. The Arctic Carbon Cycle and Its Response to Changing Climate. Current Climate Change Reports: 7, 14–34. doi:10.1007/s40641-020-00169-5
17 Kylander, M.E., Holm, M., Fitchett, J., Grab, S., Martinez Cortizas, A., Norström, E., and Bindler, R., 2021. Late glacial (17,060–13,400 cal yr BP) sedimentary and paleoenvironmental evolution of the Sekhokong Range (Drakensberg), southern Africa. PLOS ONE: 16(3), e0246821. https://doi.org/10.1371/journal.pone.0246821
16 Kirchner, N., Kuttenkeuler, J., Rosqvist, G., Hancke, M., Granebeck, A., Weckström, J., Weckström, K., Schenk, F., Korhola, A., & Eriksson, P., 2021. A first continuous three-year temperature record from the dimictic arctic–alpine Lake Tarfala, northern Sweden. Arctic, Antarctic, and Alpine Research: 69–79. https://doi.org/10.1080/15230430.2021.1886577
15 Manzotti, P., Müntener, O., Schmid, S., and Marty, D., 2021. Dynamics of collisional mountain ranges: a progress report on the Alps Special Issue on the results from the 14th Emile Argand Alpine Workshop, Sion 2019, Switzerland. Swiss Journal of Geosciences: 114,10. https://sjg.springeropen.com/articles/10.1186/s00015-021-00386-6
14 Pérez, L., Correa-Metrio, A., Cohuo, S., González, L., Echeverría-Galindo, P., Brenner, M., Curtis, J., Kutterolf, S., Stockhecke, M., Schenk, F., Bauersachs, T., Schwalb, A., 2021. Ecological turnover in neotropical freshwater and terrestrial communities during episodes of abrupt climate change. Quaternary Research: 1–11. https://doi.org/10.1017/qua.2020.124
13 Steinbach, J., Holmstrand, H., Shcherbakova, K., Kosmach, D., Brüchert, V., Shakhova, N., Salyuk, A., Sapart, C.J., Chernykh, D., Noormets, R., Semiletov, I., and Gustafsson, Ö., 2021. Source apportionment of methane escaping the subsea permafrost system in the outer Eurasian Arctic Shelf. Proceedings of the National Academy of Sciences: 118 (10), e2019672118; DOI: 10.1073/pnas.2019672118. https://www.pnas.org/content/118/10/e2019672118
12 Rollinson, H., and Pease, V., 2021. Using Geochemical Data, To Understand Geological Processes. Cambridge University Press, 9781108777834.
11 Gowan, E.J., Zhang, X., Khosravi, S., Rovere, A., Stocchi, P., Hughes, A.L.C., Gyllencreutz, R., Mangerud, J., Svendsen, J-I., and Lohmann, G., 2021. A new global ice sheet reconstruction for the past 80 000 years. Nat Commun: 12, 1199. https://doi.org/10.1038/s41467-021-21469-w
10 Hong, W.L., Pape, T., Schmidt, C., Yao, H., Wallmann, K., Plaza-Faverola, A., Rae, J.W.B., Lepland, A., Bünz, S., and Bohrmann, G., 2021. Interactions between deep formation fluid and gas hydrate dynamics inferred from pore fluid geochemistry at active pockmarks of the Vestnesa Ridge, west Svalbard margin. Marine and Petroleum Geology. https://www.sciencedirect.com/science/article/pii/S0264817221000611
9 Decrausaz, T., Müntener, O., Manzotti, P., Lafay R., Spandler C., 2021. Fossil oceanic core complexes in the Alps. New field, geochemical and isotopic constraints from the Tethyan Aiguilles Rouges Ophiolite (Val d’Hérens, Western Alps, Switzerland). Swiss Journal of Geosciences: 114, 3. https://doi.org/10.1186/s00015-020-00380-4
8 Rollinson, H., and Pease, V., 2021. Using Geochemical Data: To Understand Geological Processes, Second Edition, Book.
7 Norström, E., West, J., Kouli, K., Katrantsiotis, C., Hättestrand, M., Smittenberg, R.H., 2021. Evaluation of anhydrosugars as a molecular proxy for paleofire activity: A case study on a Holocene sediment core from Agios Floros, Peloponnese, Greece. Organic Geochemistry: 104193. https://doi.org/10.1016/j.orggeochem.2021.104193
6 Pease, V., 2021. Eastern Europe: The Timanian and Uralian Orogens. Encyclopedia of Geology:  Pages 302–310. https://doi.org/10.1016/B978-0-08-102908-4.00028-X
5 Hutchinson, D.K., Coxall, H.K., Lunt, D.J., Steinthorsdottir, M., de Boer, A.M., Baatsen, M., von der Heydt, A., Huber, M., Kennedy-Asser, A.T., Kunzmann, L., Ladant, J.-B., Lear, C.H., Moraweck, K., Pearson, P.N., Piga, E., Pound, M.J., Salzmann, U., Scher, H.D., Sijp, W.P., Śliwińska, K.K., Wilson, P.A., and Zhang, Z., 2021. The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons, Clim. Past: 17, 269–315. https://doi.org/10.5194/cp-17-269-2021.
4 Greenwood, S.L., Simkins, L.M., Winsborrow, M.C.M., and Bjarnadóttir, L.R., 2021. Exceptions to bed-controlled ice sheet flow and retreat from glaciated continental margins worldwide. Science Advances: 7, 3, eabb6291. DOI: 10.1126/sciadv.abb6291
3 Kweku A. Yamoah, Akkaneewut Chabangborn, Sakonvan Chawchai, Sherilyn Fritz, Ludvig Löwemark, Stefanie Kaboth-Bahr, Paula J. Reimer, Rienk H. Smittenberg, Barbara Wohlfarth, 2021. A muted El Niño-like condition during late MIS 3. Quaternary Science Reviews: 254, 106782. https://doi.org/10.1016/j.quascirev.2020.106782
2 Lunt, D. J., Bragg, F., Chan, W.-L., Hutchinson, D. K., Ladant, J.-B., Morozova, P., Niezgodzki, I., Steinig, S., Zhang, Z., Zhu, J., Abe-Ouchi, A., Anagnostou, E., de Boer, A. M., Coxall, H. K., Donnadieu, Y., Foster, G., Inglis, G. N., Knorr, G., Langebroek, P. M., Lear, C. H., Lohmann, G., Poulsen, C. J., Sepulchre, P., Tierney, J. E., Valdes, P. J., Volodin, E. M., Dunkley Jones, T., Hollis, C. J., Huber, M., and Otto-Bliesner, B. L., 2021. DeepMIP: model intercomparison of early Eocene climatic optimum (EECO) large-scale climate features and comparison with proxy data. Climate of the Past: 17, 203–227. https://doi.org/10.5194/cp-17-203-2021.
1 Martínez Cortizas, A., Horák-Terra, I., Pérez-Rodríguez, M., Bindler, R., Cooke, C.A., Kylander, M., 2021. Structural equation modeling of long-term controls on mercury and bromine accumulation in Pinheiro mire (Minas Gerais, Brazil). Science of The Total Environment: 757,143940. https://www.sciencedirect.com/science/article/pii/S0048969720374714?dgcid=coauthor
86 Sayedi, S.S., Abbott, B.W., Thornton, B.F., Frederick, J.M., Vonk, J.E., Overduin, P., et al. (incl. Jakobsson, M., O'Regan, M., Stranne, C.), 2020. Subsea permafrost carbon stocks and climate change sensitivity estimated by expert assessment. Environmental Research Letters: 15(12), 124075. https://doi.org/10.1088/1748-9326/abcc29
85 Weidner, E., Stranne, C., Sundberg, J. H., Weber, T. C., Mayer, L., & Jakobsson, M., 2020. Tracking the spatiotemporal variability of the oxic–anoxic interface in the Baltic Sea with broadband acoustics. ICES Journal of Marine Science: 77(7–8), 2814–2824. https://doi.org/10.1093/icesjms/fsaa153
84 Björck, S., Sjolte, J., Ljung, K., Adolphi, F., Flower, R., Smittenberg, R.H., Kylander, M.E., Stocker, T.M., Holmgren, S., Jiang, H., Muscheler, R., Afrifa, Y.K.K., Rattray, J.E., and Van der Putten, N., 2020. A South Atlantic island record uncovers shifts in westerlies and hydroclimate during the last glacial. Clim. Past,: 15, 1939–1958. https://doi.org/10.5194/cp-15-1939-2019
83 Åkesson, H., Gyllencreutz, R., Mangerud, J., Svendsen, J.I., Nick, F.M., Nisancioglu, K.M., 2020. Rapid retreat of a Scandinavian marine outlet glacier in response to warming at the last glacial termination. Quaternary Science Reviews: 250, 2020, 106645, 0277-3791. https://doi.org/10.1016/j.quascirev.2020.106645
82 Wilson, S.T., Al-Haj, A.N. et al. (inkl Thornton, B.F., and Crill, P.M.), 2020. Ideas and perspectives: A strategic assessment of methane and nitrous oxide measurements in the marine environment. Biogeosciences. doi:10.5194/bg-17-5809-2020.
81 Seco, R., Holst, T., Matzen, M.S., Westergaard-Nielsen, A., Li, T., Simin, T., Jansen, J., Crill, P.M., Friborg, T., Rinne, J., and Rinnan, R., 2020. Volatile Organic Compound fluxes in a subarctic peatland and lake. Atmos. Chem. Phys. doi: 10.5194/acp-20-13399-2020
80 Wik, M., Thornton, B.F., Varner, R.K., McCalley, C., and Crill, P.M., 2020. Stable methane isotopologues from northern lakes suggest ebullition is dominated by sub-lake scale processes. J. Geophys. Res. Biogeosci. doi. 10.1029/2019JG005601.
79 Chang, K.-Y., Riley, W.J., Crill, P.M., Grant, R.F., Rich, V.I., and Saleska, S.R., 2020. Hysteretic temperature sensitivity of wetland CH4 fluxes explained by substrate availability and microbial activity. Biogeosciences. doi: 10.5194/bg-17-5849-2020.
78 Billström, K., Broman, C., Larsson, A., Schérsten, A. and Schmitt, M., 2020. Sandstone-hosted Pb-Zn deposits along the margin of the Scandinavian Caledonides and their possible relationship with nearby Pb-Zn vein mineralization. Ore Geology Reviews: Vol. 127 Art no. 103839. 20 pages. Doi: 10.1016/j.oregeorev.2020.103839.
77 Neubeck, A., Broman, C., Ivarsson, M., Holm, N.G., Whitehouse, M., Nilsson, S., Geppert, W., and Gervilla, F., 2020. Graphite formation temperatures in ”Los Pobres” graphite mine, Ronda, Spain. Journal of Petrology: 61(4). https://doi.org/10.1093/petrology/egaa042
76 Avery, R.S., Greenwood, S.L., Schenk, F., Morén, B.M., Mckay, D.I.A., Brunnberg, L., Wohlfarth, B., 2020. A 725‐year integrated offshore terrestrial varve chronology for southeastern Sweden suggests rapid ice retreat ~15 ka BP. Boreas. https://doi.org/10.1111/bor.12490
75 Ao, H., Dupont-Nivet, G., Rohling, E. J., Zhang, P., Ladant, J.-B., Roberts, A. P., Licht, A., Liu, Q., Liu, Z., Dekkers, M. J., Coxall, H. K., Jin, Z., Huang, C., Xiao, G., Poulsen, C. J., Barbolini, N., Meijer, N., Sun, Q., Qiang, X., Yao, J., and An, Z., 2020. Orbital climate variability on the northeastern Tibetan Plateau across the Eocene–Oligocene transition. Nature Communications: v. 11, no. 1, p. 5249. https://www.nature.com/articles/s41467-020-18824-8
74 Jakobsson, M., Mayer, L.A., Nilsson, J., Stranne, C., Calder, B., O'Regan, M., Farrell, J.W., Cronin, T.M., Brüchert, V., Chawarski, J., Eriksson, B., Fredriksson, J., Gemery, L., Glueder, A., Holmes, F.A., Jerram, K., Kirchner, N., Mix, A., Muchowski, J., Prakash, A., Reilly, B., Thornton, B., Ulfsbo A., Weidner, E., Åkesson, E., Handl, T., Ståhl, E., Boze, L-G., Reed, S., West, G., & Padman, J., 2020. Ryder Glacier in northwest Greenland is shielded from warm Atlantic water by a bathymetric sill. Commun Earth Environ: 1, 45. https://doi.org/10.1038/s43247-020-00043-0
73 Sjöberg, S., Stairs, C.W., Allard, B., Homa, F., Martin, T., Sjöberg, V., Ettema, T.J.G., and Dupraz, C., 2020. Microbiomes in a manganese oxide producing ecosystem in the Ytterby mine, Sweden: impact on metal mobility. FEMS Microbiology Ecology: 96, 11. https://doi.org/10.1093/femsec/fiaa169
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
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