*About 124 articles have been reported until now

Piilo, S.R., Väliranta, M.M., Amesbury, M.J., Aquino-López, M.A., Charman, D.J., Gallego-Sala, A., Garneau, M., Koroleva, N., Kärppä, M., Laine, A.M., Sannel, A.B.K., Tuittila, E-S., Zhang, H., 2022. Consistent centennial-scale change in European sub-Arctic peatland vegetation toward Sphagnum dominance—Implications for carbon sink capacity. Global Change Biology, doi:10.1111/gcb.16554. https://onlinelibrary.wiley.com/doi/full/10.1111/gcb.16554

Greenwood, S.L., Hughes,  A.L.C., Avery, R.S., 2022. Chapter 29 – Fennoscandia: glacial landforms during the Bølling–Allerød Interstadial (14.6–12.9 ka). European Glacial Landscapes: 287–296, ISBN 9780323918992. https://doi.org/10.1016/B978-0-323-91899-2.00004-8

Greenwood, S.L., Hughes, A.L.C., Avery, R.S., 2022. Chapter 10 – Fennoscandia: glacial landforms during initial deglaciation (18.9–14.6 ka). European Glacial Landscapes: 85–94, ISBN 9780323918992. https://doi.org/10.1016/B978-0-323-91899-2.00003-6

Winsborrow, M.C.M., Hughes, A.L.C., Greenwood, S.L., 2022. Chapter 9 – European Ice Sheet Complex evolution during main deglaciation (18.9–14.6 ka). European Glacial Landscapes: 71–83, ISBN 9780323918992. https://doi.org/10.1016/B978-0-323-91899-2.00052-8

Hughes, A.L.C., Greenwood, S.L., Winsborrow, M.C.M., 2022. hapter 45 – The glacial legacy of the EISC during the Younger Dryas Stadial. European Glacial Landscapes: 425–435, ISBN 9780323918992. https://doi.org/10.1016/B978-0-323-91899-2.00046-2

Greenwood, S.L., Winsborrow, M.C.M., Hughes, A.L.C., 2022. Chapter 28 – European Ice Sheet Complex evolution during the Bølling–Allerød Interstadial (14.6–12.9 ka). European Glacial Landscapes: 273–286, ISBN 9780323918992. https://doi.org/10.1016/B978-0-323-91899-2.00016-4

de Boer, A.M., Hutchinson, D.K., Roquet, F., Sime, L.C., Burls, N.J., and Heuzé, C., 2022. The Impact of Southern Ocean Topographic Barriers on the Ocean Circulation and the Overlying Atmosphere. Journal of Climate, open access. https://doi.org/10.1175/JCLI-D-21-0896.1

Zhang, Z., Zhang, Z., He, Z., Tan, N., Guo, Z., Zhu, J., Steinig, S., Donnadieu, Y., Ladant, J-B., Chan, W-L., Abe-Ouchi, A., Niezgodzki, I., Knorr, G., Hutchinson, D.K., and de Boer, A.M., 2022. Impact of Mountains in Southern China on the Eocene Climates of East Asia. JGR Atmospheres: 127, 17. https://doi.org/10.1029/2022JD036510

Gowan, E.J., Zhang, X., Khosravi, S., Rovere, A., Stocchi, P., Hughes, A.L.C., Gyllencreutz, R., Mangerud, J., Svendsen, J-I., & Lohmann, G., 2022.  Reply to: Towards solving the missing ice problem and the importance of rigorous model data comparisons. Nat Commun 13, 6264. https://doi.org/10.1038/s41467-022-33954-x

Björck, S., Kylander, M.E., Larsen, E., Lyså, A., Christoffersen, M., Ludvigsen, M., Wastegård, S., 2022. Nordlaguna – A unique lake basin at the foot of the Beerenberg volcano, Jan Mayen, containing partially enigmatic sediments,
Quaternary Science Advances: 7, 100060, ISSN 2666-0334. https://doi.org/10.1016/j.qsa.2022.100060

Alatarvas, R., O'Regan, M., and Strand, K., 2022. Heavy mineral assemblages of the De Long Trough and southern Lomonosov Ridge glacigenic deposits: implications for the East Siberian Ice Sheet extent. Clim. Past: 18, 1867–1881. https://doi.org/10.5194/cp-18-1867-2022

Patten, C.G.C., Molnár, F., Pitcairn, I.K., Kolb, J., Mertanen, S., and Hector, S., 2022. Multi-source and multi-stage metal mobilization during the tectonic evolution of the Central Lapland Greenstone Belt, Finland: implications for the formation of orogenic Au deposits. Mineralium Deposita. https://doi.org/10.1007

Scharf, A., Mattern, F., Bolhar, R., Callegari, I., Mattern, P., and Ring, U., 2022. Oligocene/Early Miocene E/W-Shortening in the Oman Mountains Related to Oblique Arabia-India Convergence. Tectonics: 41, 12. https://doi.org/10.1029/2022TC007271

Ring, U., Fassoulas, C., Uysal, I.T., Bolhar, R., Tong, K., and Todd, A., 2022. Nappe Imbrication Within the Phyllite-Quartzite Unit of West Crete: Implications for Sustained High-Pressure Metamorphism in the Hellenide Subduction Orogen, Greece. Tectonics: 41, 11. https://doi.org/10.1029/2022TC007430

Villa, I.M., Glodny, J., Peillod, A., Skelton, A., and Ring, U., 2022. Petrochronology of polygenetic white micas (Naxos, Greece). Journal of Metamorphic Geology. https://doi.org/10.1111/jmg.12700

Scharf, A., Bailey, C.M., Bolhar, R., Mattern, F., and Ring, U., 2022. Post-obduction listwaenite genesis in the Oman Mountains inferred from structural analysis and U-Pb carbonate dating. Earth and Planetary Science Letters: 595, 117756, ISSN 0012-821X. https://doi.org/10.1016/j.epsl.2022.117756

Rattray, J.E., Zetterlind, A., Smittenberg, R.H., Potiszil, C., and Neubeck, A., 2022. Complexity of the serpentinization lipidome. Organic Geochemistry: 174, 104514, ISSN 0146-6380. https://doi.org/10.1016/j.orggeochem.2022.104514

Fofana, A., Anderson, D., McCalley, C.K., Hodgkins, S., Wilson, R.M., Cronin, D.,  Raab, N., Torabi, M., Varner, R.K., Crill, P., Saleska, S.R., Chanton, J.P., Tfaily, M.M., Rich, V.I., 2022. Mapping substrate use across a permafrost thaw gradient. Soil Biology and Biochemistry: 175, 108809, ISSN 0038-0717. https://doi.org/10.1016/j.soilbio.2022.108809

Wilson,R.M., Hough, M.A., Verbeke, B.A., Hodgkins, S.B., Tyson, G., Sullivan, M.B., Brodie, E., Riley, W.J., Woodcroft, B., McCalley, C., Dominguez, S.C., Crill, P.M.,  et al., 2022. Plant organic matter inputs exert a strong control on soil organic matter decomposition in a thawing permafrost peatland. Science of The Total Environment: 820, 152757, ISSN 0048-9697. https://doi.org/10.1016/j.scitotenv.2021.152757

Hough, M., McCabe, S., Rose Vining, S., Pedersen, E.P., Wilson, R.M., Lawrence, R., Chang, K-Y., Bohrer, G., The IsoGenie Coordinators, Riley, W.J., Crill, P.M., et al., 2022. Coupling plant litter quantity to a novel metric for litter quality explains C storage changes in a thawing permafrost peatland. Global Change Biology: 28, 3. https://doi.org/10.1111/gcb.15970

Kloenne, U., Nauels, A., Pearson, P. et al., 2022. Only halving emissions by 2030 can minimize risks of crossing cryosphere thresholds. Nat. Clim. Chang. https://doi.org/10.1038/s41558-022-01566-4

Scaini, A., Vico, G., Thorslund, J., Hugelius, G., and Manzoni, S., 2022. Water Availability and Land Management Control Catchment‐Scale Agricultural Nitrogen and Phosphorous Use Efficiencies. Global Biogeochemical Cycles. doi: 10.1029/2022GB007487

Büntgen, U., Crivellaro, A., Arseneault, D., Baillie, M., Barclay, D., Bernabei, M., Bontadi, J., Boswijk, G., Brown, D., Christie, D.A., Churakova (Sidorova), V., Cook, E., D’Arrigo, R., Davi, N., Esper, J., Fonti, P., Greaves, C., Hantemirov, R.M., Hughes, M.K., Kirdyanov, A.V., Krusic, P.J., Le Quesne, C., Ljungqvist, F.C., Myglan, V.S., Nicolussi, K., Oppenheimer, C., Palmer, J., Qin, C., Reinig, F., Salzer, M., Stoffel, M., Torbenson, M., Villalba, R., Wiesenberg, N., Wiles, G., Yang, B. & Piermattei, A., 2022. Global wood anatomical network reveals repeated summer cooling at the onset of the Late Antique Little Ice Age. Science Bulletin, 67: 2336–2344: https://doi.org/10.1016/j.scib.2022.10.019

Diodato, N., Ljungqvist, F.C., Fiorillo, F., Esposito, L., Ventafridda, G. & Bellocchi, G., 2022. Climatic fingerprint of spring discharge depletion in the southern Italian Apennines from 1601 to 2020 CE. Environmental Research Communications, 4: 4: 125011. https://doi.org/10.1088/2515-7620/acae23

Hannachi, A., and Nilsson, J., 2022. The Atlantic Meridional Overturning Circulation: Scientific Information And Public Alert. Tellus A: Dynamic Meteorology and Oceanography, 74(1): 391–392. DOI: https:// doi.org/10.16993/tellusa.911

Mukhin, D., Hannachi, A., Braun, T., and Marwan, N., 2022. Revealing recurrent regimes of mid-latitude atmospheric variability using novel machine learning method. Chaos 32, 113105. https:// doi.org/10.1063/5.0109889

Pulkkinen, K., Undorf, S., Bender, F. A.-M., 2022. Values in climate modelling: testing the practical applicability of the Moral Imagination ideal, Euro. Jnl. Phil. Sci. https://doi.org/10.1007/s13194-022-00488-4

Pruisscher, P., Lehmann, P., Nylin, S., Gotthard, K., and Wheat, C. W., 2022. Extensive transcriptomic profiling of pupal diapause in a butterfly reveals a dynamic phenotype. Molecular Ecology: 31, 1269–1280.

Lindestad, O., Nylin, S., Wheat, C. W., and Gotthard, K., 2022. Local adaptation of life cycles in a butterfly is associated with variation in several circadian clock genes. Molecular Ecology: 31, 1461–1475.

Nielsen, M. E., Lehmann, P., and Gotthard, K., 2022. Longer and warmer prewinter periods reduce post-winter fitness in a diapausing insect. Functional Ecology: 36, 1151–1162.

Süess, P., Dircksen, H., Roberts, K. T., Gotthard, K., Nässel, D. R., Wheat, C. W., Carlsson, M. A., and Lehmann, P., 2022. Time- and temperature-dependent dynamics of prothoracicotropic hormone and ecdysone sensitivity co-regulate pupal diapause in the green-veined white butterfly Pieris napi. Insect Biochemistry and Molecular Biology: 149, 103833.

Greiser, C., von Schmalensee, L., Lindestad, O., Gotthard, K., and Lehmann, P., 2022. Microclimatic variation affects developmental phenology, synchrony and voltinism in an insect population. Functional Ecology: 36, 3036–3048.

Ittonen, M., Hagelin, A., Wiklund, C., and Gotthard, K., 2022. Local adaptation to seasonal cues at the fronts of two parallel, climate-induced butterfly range expansions. Ecology Letters: 25, 2022–2033.

Gaytán, Á., Moreira, X., Castagneyrol, B., Van Halder, I., De Frenne, P., Meeussen, C., Timmermans, B. G. H., Ten Hoopen, J. P. J. G., Rasmussen, P. U., Bos, N., Jaatinen, R., Pulkkinen, P., Söderlund, S., Covelo, F., Gotthard, K., and Tack, A. J. M., 2022. The co-existence of multiple oak leaf flushes contributes to the large within-tree variation in chemistry, insect attack and pathogen infection. New Phytologist: 235,1615–1628.

Gaytán, Á., Gotthard, K., and Tack, A. J. M., 2022. Strong impact of temperature and resource specialisation on patterns of voltinism within an oak-associated insect community. Ecological Entomology: 47, 544–552.

Gaytán, Á., Gotthard, K., and Tack, A. J. M., 2022. Spring phenology and pathogen infection affect multigenerational plant attackers throughout the growing season. Journal of Animal Ecology: 91, 2235–2247.

Gaytán, Á., Abdelfattah, A., Faticov, M., Moreira, X., Castagneyrol, B., Van Halder, I., De Frenne, P., Meeussen, C., Timmermans, B. G. H., Ten Hoopen, J. P. J. G., Rasmussen, P. U., Bos, N., Jaatinen, R., Pulkkinen, P., Söderlund, S., Gotthard, K., Pawlowski, K., and Tack, A. J. M., 2022. Changes in the foliar fungal community between oak leaf flushes along a latitudinal gradient in Europe. Journal of Biogeography: 49, 2269–2280.

Roquet, F., Ferreira, D., Caneill, R., Schlesinger, D., and Madec, G., 2022. Unique thermal expansion properties of water key to the formation of sea ice on Earth. Science Advances: 8, 46. DOI: 10.1126/sciadv.abq0793

P. Glantz, O. G. Fawole, J. Ström, M. Wild, K. J. Noone, 2022. Unmasking the Effects of Aerosols on Greenhouse Warming Over Europe. JGR Atmospheres: 127, 22, e2021JD035889. https://doi.org/10.1029/2021JD035889

Huusko,, L., Modak, A., and Mauritsen, T., 2022. Stronger Response to the Aerosol Indirect Effect Due To Cooling in Remote Regions. Geophys. Res. Lett. http://dx.doi.org/10.1029/2022GL101184

Undorf, S., Pulkkinen, K., Wikman‐Svahn, P., and Bender, F. A.-M, 2022. How do value‐judgements enter model‐based assessments of climate sensitivity? Climatic Change, https://doi.org/10.1007/ s10584-022-03435-7

Siegel, K., Neuberger, A., Karlsson, L., Zieger, P., Mattsson, F., Duplessis, P., Dada, L., Daellenbach, K., Schmale, J., Baccarini, A., Krejci, R., Svenningsson, B., Chang, R., Ekman, A.M.L., Riipinen, I., and Mohr, C., 2022. Using Novel Molecular-Level Chemical Composition Observations of High Arctic Organic Aerosol for Predictions of Cloud Condensation Nuclei. Environ. Sci. Technol. https://doi.org/10.1021/acs.est.2c02162

Watts, H., Booth, A.D., Clark, R.A., Reinardy, B.T.I., 2022. The sensitivity of seismic refraction velocity models to survey geometry errors, assessed using Monte Carlo analysis. J. Appl. Geophys. 208, 104888. https://doi.org/10.1016/J.JAPPGEO.2022.104888

Askjær, T.G., Zhang, Q., Schenk, F., Ljungqvist, F.C., Lu, Z., Brierley, C.M., Hopcroft, P.O., Jungclaus, J., Shi, X., Lohmann, G., Sun, W., Liu, J., Braconnot, P., Otto-Bliesner, B.L., Wu, Z., Yin, Q., Kang, Y., Yang, H., 2022. Multi-centennial Holocene climate variability in proxy records and transient model simulations. Quaternary Science Reviews 296, 107801. Doi: https://doi.org/10.1016/j.quascirev.2022.107801

Möller, P., Björck, S., Dowling, T.P.F., Hammarlund, D., Jakobsson, M., Ljung, K., Lund, M., Paradeisis-Stathis, S., Deglaciation history and subsequent lake dynamics in the Siljan region, south-central Sweden, based on new LiDAR evidence and sediment records. Earth Surface Processes and Landforms. Doi: https://doi.org/10.1002/esp.5471

Shupe, Matthew D. et al. (including Gunilla Svensson) 2022. Overview of the MOSAiC expedition: Atmosphere. Elementa, 10 (1): 00060. doi: https://doi.org/10.1525/elementa.2021.00060

Ortega, P., Blockley, E. W., Køltzow, M., Massonnet, F., Sandu, I., Svensson, G., Acosta Navarro, J. C., Arduini, G., Batté, L., Bazile, E., Chevallier, M., Cruz-García, R., Day, J. J., Fichefet, T., Flocco, D., Gupta, M., Hartung, K., Hawkins, E., Hinrichs, C., Magnusson, L., Moreno-Chamarro, E., Pérez-Montero, S., Ponsoni, L., Semmler, T., Smith, D., Sterlin, J., Tjernström, M., Välisuo, I., & Jung, T., 2022. Improving Arctic weather and seasonal climate prediction: recommendations for future forecast systems evolution from the European project APPLICATE, Bulletin of the American Meteorological Society https://journals.ametsoc.org/view/journals/bams/aop/BAMS-D-22-0083.1/BAMS-D-22-0083.1.xml

Wild, B., Shakhova, N., Dudarev, O., Ruban, A., Kosmach, D., Tumskoy, V., Tesi, T., Grimm, H., Nybom, I., Matsubara, F., Alexanderson, H., Jakobsson, M., Mazurov, A., Semiletov, I., and Gustafsson, Ö, 2022. Organic matter composition and greenhouse gas production of thawing subsea permafrost in the Laptev Sea. Nature Communications: v. 13, no. 1, p. 5057. Doi: 10.1038/s41467-022-32696-0

Glueder, A., Mix, A.C., Milne, G.A., Reilly, B.T., Clark, J., Jakobsson, M., Mayer, L., Fallon, S.J., Southon, J., Padman, J., Ross, A., Cronin, T., McKay, J.L., 2022. Calibrated relative sea levels constrain isostatic adjustment and ice history in northwest Greenland. Quaternary Science Reviews: 293, 107700. Doi: 10.1016/j.quascirev.2022.107700

Mauritsen, T., Redler, R., Esch, M., Stevens, B., Hohenegger, C., Klocke, D., Brokopf, R., Haak, H., Linardakis, L., Röber, N. and Schnur, R., 2022. Early Development and Tuning of a Global Coupled Cloud Resolving Model, and its Fast Response to Increasing CO2. Tellus A: 74(1), pp.346–363. DOI: http://doi.org/10.16993/tellusa.54

You, C., M. Tjernström and A. Devasthale, 2022. Warm and moist air intrusions into the winter Arctic: A Lagrangian view on the near-surface energy budgets. Atmos. Chem. Phys.: 22, 8037–8057. https://doi.org/10.5194/acp-22-8037-2022

You, C., M. Tjernström, A. Devasthale & D. Steinfeld, 2022. The role of atmospheric blocking in regulating Arctic warming. Geophys. Res. Let.: 49, e2022GL097899. https://doi.org/10.1029/2022GL097899

Stridbeck, P., Björklund, J., Fuentes, M., Gunnarson, B.E., Jönsson, A.M., Linderholm, H.W., Ljungqvist, F.C., Ohlson, C., Rayner, D., Rocha, E., Zhang, P. & Seftigen, K., 2022. Partly decoupled tree-ring width and leaf phenology response to 20th century temperature change in Sweden. Dendrochronologia, 75: 125993. https://doi.org/10.1016/j.dendro.2022.125993

Diodato, N., Ljungqvist, F.C. & Bellocchi, G., 2022. Empirical modelling of snow cover duration patterns in complex terrains of Italy. Theoretical and Applied Climatology, 147: 1195–1212. https://doi.org/10.1007/s00704-021-03867-8

Yang, B., Qin, C., Bräuning, A., Osborn, T.J., Trouet, V., Ljungqvist, F.C., Esper, J., Schneider, L., Grießinger, J., Büntgen, U., Rossi, S., Dong, G., Yan, M., Ning, L., Wang, J., Wang, X., Fan, B., Wang, S., Luterbacher, J., Cook, E.R. & Stenseth, N.C., 2022. Reply to Weiss: Tree-ring stable oxygen isotopes suggest an increase in Asian monsoon rainfall at 4.2 ka BP. Proceedings of the National Academy of Sciences, 119: e2204067119. https://doi.org/10.1073/pnas.2204067119

Nota, K., Klaminder, J., Milesi, P., Bindler, R., Nobile, A., van Steijn, T., Bertilsson, S., Svensson, B., Hirota, S.K., Matsuo, A., Gunnarsson, U., Seppä, H., Väliranta, M. Wohlfarth, B., Suyama, Y., & Parducci, L., 2022. Norway spruce postglacial recolonization of Fennoscandia. Nat Commun: 13, 1333. https://doi.org/10.1038/s41467-022-28976-4

Hällberg, P. L., Schenk, F., Yamoah, K. A., Kuang, X., and Smittenberg, R. H., 2022. Seasonal aridity in the Indo-Pacific Warm Pool during the Late Glacial driven by El Niño-like conditions. Clim. Past: 18, 1655–1674. https://doi.org/10.5194/cp-18-1655-2022

Boschetti, T., Barbieri, M., Barberio, M.D., Skelton, A., Stockmann, G., Toscani, L., 2022. Geothermometry and water–rock interaction modelling at Hafralækur: Possible implications of temperature and CO2 on hydrogeochemical changes previously linked to earthquakes in northern Iceland. Geothermics: 105, 102535, 0375-6505. https://doi.org/10.1016/j.geothermics.2022.102535

Fischer, S., Jarsjö, J., Rosqvist, G., Mörth, C-M., 2022. Catchment-scale microbial sulfate reduction (MSR) of acid mine drainage (AMD) revealed by sulfur isotopes. Environmental Pollution: 292, Part B, 118478, 0269-7491. https://doi.org/10.1016/j.envpol.2021.118478

Fischer, S., Mörth, C-M., Rosqvist, G., Chalov, S.R., Efimov, V., Jarsjö, J., 2022. Microbial Sulfate Reduction (MSR) as a Nature-Based Solution (NBS) to Mine Drainage: Contrasting Spatiotemporal Conditions in Northern Europe. Water Resources Research: 58, 4, e2021WR031777. https://doi.org/10.1029/2021WR031777

Seaman, P., Sturkell, E., Gyllencreutz, R., Stockmann, G.J., Geirsson, H., 2022. New multibeam mapping of the unique Ikaite columns in Ikka Fjord, SW Greenland. Marine Geology: 444, 106710, 0025-3227. https://doi.org/10.1016/j.margeo.2021.106710

Williams, C.J.R., Lunt, D.J., Salzmann, U., Reichgelt, T., Inglis, G.N., Greenwood, D.R., Chan, W-L., Abe-Ouchi, A., Donnadieu, Y., Hutchinson, D.K., de Boer, A.M., Ladant, J-B., Morozova, P.A., Niezgodzki, I., Knorr, G., Steinig, S., Zhang, Z., Zhu, J., Huber, M., Otto-Bliesner, B.L., 2022. African Hydroclimate During the Early Eocene From the DeepMIP Simulations. Paleoceanography and Paleoclimatology:37, 5, e2022PA004419. https://doi.org/10.1029/2022PA004419

Niezgodzki, I., Knorr, G., Lohmann, G., Lunt, D.L., Poulsen, C.J., Steinig, S. Zhu, J., de Boer, A.M., Chan, W-L., Donnadieu, Y., Hutchinson, D.K., Ladant, J-B., Morozova, P.A., 2022. Simulation of Arctic sea ice within the DeepMIP Eocene ensemble: Thresholds, seasonality and factors controlling sea ice development. Global and Planetary Change: 214, 103848, 0921-8181. https://doi.org/10.1016/j.gloplacha.2022.103848

Roth, F., Sun, X., Geibel, M.C., Prytherch, J., Brüchert, V., Bonaglia, S., Broman, E., Nascimento, F., Norkko, A., Humborg, C., 2022. High spatiotemporal variability of methane concentrations challenges estimates of emissions across vegetated coastal ecosystems. Global Change Biology: 28, 14, 4308-4322. https://doi.org/10.1111/gcb.16177

Stranne, C., O’Regan, M., Hong, W.L., Brüchert, V., Ketzer, M., Thornton, B.F. & Jakobsson, M., 2022. Anaerobic oxidation has a minor effect on mitigating seafloor methane emissions from gas hydrate dissociation. Commun Earth Environ 3, 163). https://doi.org/10.1038/s43247-022-00490-x

Cronin, T.M., Olds, B.M., Regnier, A.M., O'Regan, M., Gemery, L., Detlef, H., Pearce, C., Jakobsson, M., 2022. Holocene paleoceanography and glacial history of Lincoln Sea, Ryder Glacier, Northern Greenland, based on foraminifera and ostracodes. Marine Micropaleontology, 102158. Doi: 10.1016/j.marmicro.2022.102158

Dorschel, B., Hehemann, L., Viquerat, S., Warnke, F., Dreutter, S., Tenberge, Y. S., Accettella, D., An, L., Barrios, F., Bazhenova, E., Black, J., Bohoyo, F., Davey, C., De Santis, L., Dotti, C. E., Fremand, A. C., Fretwell, P. T., Gales, J. A., Gao, J., Gasperini, L., Greenbaum, J. S., Jencks, J. H., Hogan, K., Hong, J. K., Jakobsson, M., Jensen, L., Kool, J., Larin, S., Larter, R. D., Leitchenkov, G., Loubrieu, B., Mackay, K., Mayer, L., Millan, R., Morlighem, M., Navidad, F., Nitsche, F. O., Nogi, Y., Pertuisot, C., Post, A. L., Pritchard, H. D., Purser, A., Rebesco, M., Rignot, E., Roberts, J. L., Rovere, M., Ryzhov, I., Sauli, C., Schmitt, T., Silvano, A., Smith, J., Snaith, H., Tate, A. J., Tinto, K., Vandenbossche, P., Weatherall, P., Wintersteller, P., Yang, C., Zhang, T., and Arndt, J. E., 2022. The International Bathymetric Chart of the Southern Ocean Version 2: Scientific Data: 9, 1, 275. 10.1038/s41597-022-01366-7.

Wastegård, S., 2022. The Holocene of Sweden – a review. GFF, 1–24. https://doi.org/10.1080/11035897.2022.2086290

Büntgen, U., Arseneault, D., Boucher, E., Churakova (Sidorova), O.V., Gennaretti, F., Crivellaro, A., Hughes, M.K., Kirdyanov, A.V., Klippel, L., Krusic, P.J., Linderholm, H.W., Ljungqvist, F.C., Ludescher, J., McCormick, M., Myglan, V.S., Nicolussi, K., Piermattei, A., Oppenheimer. C., Reinig, F., Sigl, M., Vaganov, E.A. & Esper, J., 2022. Recognising bias in Common Era temperature reconstructions. Dendrochronologia: 74, 125982.

Dorschel, B., Hehemann, L., Viquerat, S., Warnke, F., Dreutter, S., Tenberge, Y. S., Accettella, D., An, L., Barrios, F., Bazhenova, E., Black, J., Bohoyo, F., Davey, C., De Santis, L., Dotti, C. E., Fremand, A. C., Fretwell, P. T., Gales, J. A., Gao, J., Gasperini, L., Greenbaum, J. S., Jencks, J. H., Hogan, K., Hong, J. K., Jakobsson, M., Jensen, L., Kool, J., Larin, S., Larter, R. D., Leitchenkov, G., Loubrieu, B., Mackay, K., Mayer, L., Millan, R., Morlighem, M., Navidad, F., Nitsche, F. O., Nogi, Y., Pertuisot, C., Post, A. L., Pritchard, H. D., Purser, A., Rebesco, M., Rignot, E., Roberts, J. L., Rovere, M., Ryzhov, I., Sauli, C., Schmitt, T., Silvano, A., Smith, J., Snaith, H., Tate, A. J., Tinto, K., Vandenbossche, P., Weatherall, P., Wintersteller, P., Yang, C., Zhang, T., and Arndt, J. E., 2022. The International Bathymetric Chart of the Southern Ocean Version 2: Scientific Data: 9, 1, 275. 10.1038/s41597-022-01366-7.

Kondetharayil Soman, A., Chafik, L., & Nilsson, J., 2022. Linking coherent anticyclonic eddies in the Iceland Basin to decadal oceanic variability in the Subpolar North Atlantic. Journal of Geophysical Research: Oceans, 127, e2021JC018046. https://doi.org/10.1029/2021JC018046

Åkesson, H., Morlighem, M., Nilsson, J., Stranne, C., and Jakobsson, M., 2022. Petermann ice shelf may not recover after a future breakup. Nature Communications 13, 2519. Doi: 10.1038/s41467-022-29529-5

West, G., Nilsson, A., Geels, A., Jakobsson, M., Moros, M., Muschitiello, F., Pearce, C., Snowball, I., O’Regan, M., 2022. Late Holocene Paleomagnetic Secular Variation in the Chukchi Sea, Arctic Ocean. Geochemistry, Geophysics, Geosystems 23, e2021GC010187. Doi: 10.1029/2021GC010187

Sjöström, J.K., Bindler, R., Martínez Cortizas, A., Björck, S., Hansson, S.V., Karlsson, A., Ellerton, D.T., Kylander, M.E., 2022. Late Holocene peat paleodust deposition in south-western Sweden – exploring geochemical properties, local mineral sources and regional aeolian activity. Chemical Geology: 602, 120881. https://doi.org/10.1016/j.chemgeo.2022.120881

Porter, G.C.E., Adams, M.P., Brooks, I.M., Ickes, L., Karlsson, L., Leck, C., et al., 2022. Highly active ice-nucleating particles at the summer North Pole. Journal of Geophysical Research: Atmospheres, 127, e2021JD036059. https://doi.org/10.1029/2021JD036059

Roth, F., Sun, X., Geibel, M.C., Prytherch, J., Brüchert, V., Bonaglia, S., Broman, E., Nascimento, F., Norkko, A., & Humborg, C., 2022. High spatiotemporal variability of methane concentrations challenges estimates of emissions across vegetated coastal ecosystems. Global Change Biology: 1–15. https://onlinelibrary.wiley.com/doi/10.1111/gcb.16177

Kjellström, E., Hansen, F. and Belušić, D., 2022. Contributions from changing large-scale atmospheric conditions to changes in Scandinavian temperature and precipitation between two climate normals. Tellus A: Dynamic Meteorology and Oceanography, 74, 204–221. DOI: http://doi.org/10.16993/tellusa.49

Rutgersson, A., Kjellström, E., Haapala, J., Stendel, M., Danilovich, I., Drews, M., Jylhä, K., Kujala, P., Guo-Larsén, X., Halsnaes, K., Lehtonen, I., Luomaranta, A., Nilsson, E., Olsson, T., Särkkä, J., Tuomi, L. and Wasmund, N. 2022. Natural Hazards and Extreme Events in the Baltic Sea region, Earth Syst. Dynam., 13, 251–301, DOI:10.5194/esd-13-251-2022.

Larsson, S.A., Kylander, M.E., Sannel, A.B.K., Hammarlund, D., 2022. Synchronous or Not? The Timing of the Younger Dryas and Greenland Stadial-1 Reviewed Using Tephrochronology. Quaternary, 5(2), 19. https://doi.org/10.3390/quat5020019

Geerts, B., Giangrande, S.E., McFarquhar, G.M., Abel, S.J., Comstock, J.M., Crewell, S., DeMott, P.J., Ebell, K., Field, P., Hill, T.C.J., Hunzinger, A., Jensen, M.P., Johnson, K.L., Juliano, T.W., Kollias, P., Kosovic, B., Lackner, C., Luke, E., Lüpkes, C., Matthews, A.A., Neggers, R., Ovchinnikov, M., Powers, H., Shupe, M., Spengler, T., Swanson, B.E., Tjernström, M., Theisen, A.K., Wales, N.A., Wang, Y., Wendisch, M., Wu, P., 2022. The COMBLE campaign: a study of marine boundary-layer clouds in Arctic cold-air outbreaks. Bulletin of the American Meteorological Society, publsihed on-line: https://doi.org/10.1175/BAMS-D-21-0044.1

Geoffroy, G., Nycander, J., 2022. Global Mapping of the Nonstationary Semidiurnal Internal Tide Using Argo Data. JGR Oceans. https://doi.org/10.1029/2021JC018283.

Artaxo, P, Hansson, H-C., Andreae, M.O., Bäck, J., Alves, E.G., Barbosa, H.M.J., Bender, F., Bourtsoukidis, E., Carbone, S., Chi, J., Decesari, S., Després, V.R., Ditas, F., Ezhova, E., Fuzzi, S., Hasselquist, N.J., Heintzenberg, J., Holanda, B.A., Guenther, A., Hakola, H., Heikkinen, L., Kerminen, V-M., Kontkanen, J., Krejci, R., Kulmala, M., Lavric, J.V., de Leeuw, G., Lehtipalo, K., Machado, L.A.T., McFiggans, G., Franco, M.A.M., Meller, B.B., Morais, F.G., Mohr, C., Morgan, W., Nilsson, M.B., Peichl, M., Petäjä, T., Praß, M., Pöhlker, C., Pöhlker, M.L., Pöschl, U., Von Randow, C., Riipinen, I., Rinne, J., Rizzo, L.V., Rosenfeld, D., Dias, M.A.F.S., Sogacheva, L., Stier, P., Swietlicki, E., Sörgel, M., Tunved, P., Virkkula, A., Wang, J., Weber, B., Yáñez-Serrano, A.M., Zieger, P., Mikhailov, E., Smith, J.N. and Kesselmeier, J., 2022. Tropical and Boreal Forest – Atmosphere Interactions: A Review. Tellus B: Chemical and Physical Meteorology, 74, 24–163. https://doi.org/10.16993/tellusb.34

Srivastava, P., Brooks, I.M., Prytherch, J., Salisbury, D.J., Elvidge, A.D., Renfrew, I.A., and Yelland, M.J., 2022. Ship-based estimates of momentum transfer coefficient over sea ice and recommendations for its parameterization. Atmos. Chem. Phys.: 22, 4763–4778. https://doi.org/10.5194/acp-22-4763-2022.

Berglund, S., Döös, K., Groeskamp, S., and McDougall, T., 2022. The downward spiralling nature of the North Atlantic Subtropical Gyre. Nature Communications: 14;13(1):2000. doi: 10.1038/s41467-022-29607-8.

Watts H, Booth AD, Reinardy BTI, Killingbeck SF, Jansson P, Clark RA, Chandler BMP and Nesje A (2022) An Assessment of Geophysical Survey Techniques for Characterising the Subsurface Around Glacier Margins, and Recommendations for Future Applications. Front. Earth Sci. https://doi.org/10.3389/feart.2022.734682 

Jakobsson, M., Mayer, L.A., 2022. Polar Region Bathymetry: Critical Knowledge for the Prediction of Global Sea Level Rise. Frontiers in Marine Science 8. Doi: 10.3389/fmars.2021.788724

Jennings, A., Reilly, B., Andrews, J., Hogan, K., Walczak, M., Jakobsson, M., Stoner, J., Mix, A., Nicholls, K.W., O'Regan, M., Prins, M.A., Troelstra, S.R., 2022. Modern and early holocene ice shelf sediment facies from Petermann Fjord and northern Nares Strait, northwest Greenland. Quaternary Science Reviews: 283, 107460. DOi: 10.1016/j.quascirev.2022.107460

Larsson, S.A., Kylander, M.E., Sannel, A.B.K., Hammarlund, D. (2022). Synchronous or Not? The Timing of the Younger Dryas and Greenland Stadial-1 Reviewed Using Tephrochronology. Quaternary, 5(2), 19. https://doi.org/10.3390/quat5020019

Singh, C., van der Ent, R., Wang‐Erlandsson, L., & Fetzer, I. (2022). Hydroclimatic adaptation critical to the resilience of tropical forests. Global Change Biology. https://doi.org/10.1111/gcb.16115

Izdebski, A., Guzowski, P., Poniat, R., Masci, L., Palli, J., Vignola, C., Bauch, M., Cocozza, C., Fernandes, R., Ljungqvist, F.C., et al. 2022. Palaeoecological data indicates land-use changes across Europe linked to spatial heterogeneity in mortality during the Black Death pandemic. Nature Ecology & Evolution, 6: 297–306: https://doi.org/10.1038/s41559-021-01652-4

Eckes-Shephard, A.H., Ljungqvist, F.C., Drew, D.M., Rathgeber, C.B.K. & Friend, A.D., 2022. Wood formation modelling – a research review and future perspectives. Frontiers in Plant Science, 13: 837648, http://doi.org/10.3389/fpls.2022.837648

Magnússon, R.Í., Hamm, A., Karsanaev, S.V. et al. Extremely wet summer events enhance permafrost thaw for multiple years in Siberian tundra. Nat Commun 13, 1556 (2022). https://doi.org/10.1038/s41467-022-29248-x

Chen, K., Axelsson, J., Zhang, Q., Li, J., & Wang, L. 2022. EC-Earth simulations reveal enhanced inter-hemispheric ther- mal contrast during the Last Interglacial further intensified the Indian monsoon. Geophysical Research Letters, 49, e2021GL094551. https://doi.org/10.1029/2021GL094551

Feng, R., Bhattacharya, T., Otto-Bliesner, B. L., Brady, E. C., Haywood, A. M., Tindall, J. C., Hunter, S. J., Abe-Ouchi, A., Chan, W.-L., Kageyama, M., Contoux, C., Guo, C., Li, X., Lohmann, G., Stepanek, C., Tan, N., Zhang, Q., Zhang, Z., Han, Z., Williams, C. J. R., Lunt, D. J., Dowsett, H. J., Chandan, D., and Peltier, W. R. 2022. Past terrestrial hydroclimate sensitivity controlled by Earth system feedbacks, Nature Communications, 13, 1306, https://doi.org/10.1038/s41467-022-28814-7

Matana Levi, Derek E Lee, Monica L Bond, Anna C Treydte. Forage selection by Masai giraffes (Giraffa camelopardalis tippelskirchi) at multiple spatial scales. Journal of Mammalogy, gyac007, https://doi.org/10.1093/jmammal/gyac007

Abhay Prakash, Qin Zhou, Tore Hattermann, Weiyang Bao, Rune Graversen, Nina Kirchner. A nested high-resolution unstructured grid 3-D ocean-sea ice-ice shelf setup for numerical investigations of the Petermann ice shelf and fjord, MethodsX, ScienceDirect. https://doi.org/10.1016/j.mex.2022.101668

Meier, H.E.M., Kniebusch, M., Dieterich, C., Gröger, M., Zorita, E., Elmgren, R., Myrberg, K., Ahola, M., Bartosova, A., Bonsdorff, E., Börgel, F., Capell, R., Carlén, I., Carlund, T., Carstensen, J., Bøssing Christensen, O., Dierschke, V., Frauen, C., Frederiksen, M., Gaget, E, Galatius, A., Haapala, J.J., Halkka, A., Hugelius, G., Hünicke, B., Jaagus, J., Jüssi, M., Käyhkö, J., Kirchner, N., Kjellström, E., Kulinski, K., Lehmann, A., Lindström, G., May, W. , Miller, P.A., Mohrholz, Müller-Karulis, B., Pavon-Jordan, D., Quante, M., Reckermann, M., Rutgersson, A., Savchuk, O.P., Stendel, M., Tuomi, L., Viitasalo, M., Weisse, R., Zhang, W. Climate Change in the Baltic Sea Region: A Summary. Earth System Dynamics. https://doi.org/10.5194/esd-13-457-2022

Piemontese, L., Kamugisha, R.N., Barron, J., Tukahirwa, J.M.B., Harari, N., Jaramillo, F., 2022. Investing in sustainable intensification for smallholders: quantifying large-scale costs and benefits in Uganda. Environ. Res. Lett. 17, 045010. https://doi.org/10.1088/1748-9326/ac5ae0

Ntukey, Lucas T., Linus K. Munishi, Edward Kohi, and Anna C. Treydte. 2022. Land Use/Cover Change Reduces Elephant Habitat Suitability in the Wami Mbiki–Saadani Wildlife Corridor, Tanzania. Land 11, no. 2: 307. https://doi.org/10.3390/land11020307

Elisie Kåresdotter, Jessica Page, Ulla Mörtberg, Helena Näsström & Zahra Kalantari (2022) First Mile/Last Mile Problems in Smart and Sustainable Cities: A Case Study in Stockholm County, Journal of Urban Technology,
https://doi.org/10.1080/10630732.2022.2033949

Ljungqvist, F.C., Thejll, P., Christiansen, B., Seim, A., Hartl, C. & Esper, J., 2022. The significance of climate variability on early modern European grain prices. Cliometrica, 16: 29–77. https://doi.org/10.1007/s11698-021-00224-7

Ljungqvist, F.C., Seim, A., Tegel, W., et al, 2022. Regional patterns of late medieval and early modern European building activity revealed by felling dates. Frontiers in Ecology and Evolution, 9: 825751. http://doi.org/10.3389/fevo.2021.825751

Fuentes-Franco, R., Koenigk, T., Docquier, D. et al, 2022. Exploring the influence of the North Pacific Rossby wave sources on the variability of summer atmospheric circulation and precipitation over the Northern Hemisphere. Clim Dyn. https://doi.org/10.1007/s00382-022-06194-4

Reghellin, D., Coxall, H.K., Dickens, G.R., Galeotti, S., Backman, J., 2022. The late Miocene-early Pliocene biogenic bloom in the eastern Equatorial Pacific: New insigts from Integrated Ocean Drilling Program Site U1335. Paleoceanography and Paleoclimatology: 37(3), 1–16. http://dx.doi.org/10.1029/2021PA004313

Strandberg, G., Lindström, J., Poska, A., Zhang, Q., Fyfe, R., Githumbi, E., Kjellström, E., Mazier, F., Nielsen, A. B., Sugita, S., Trondman, A.-K., Woodbridge, J., and Gaillard, M.-J., 2022. Mid-Holocene European climate revisited: New high-resolution regional climate model simulations using pollen-based land-cover, Quaternary Science Reviews, 281, 107431, https://doi.org/10.1016/j.quascirev.2022.107431

Pulkkinen, K., Undorf, S., Bender, F.A.-M., Wikman-Svahn, P., Doblas-Reyes, F., Flynn, C., Hegerl, G.C., Jönsson, A., Leung, G.-K., Roussos, J., Shepherd, T. G., Thompson, E., 2022. The value of values in climate science, Nat. Clim. Chang. https://doi.org/10.1038/s41558-021-01238-9

Shupe, MD, Rex, M, Blomquist, B, (inc. Svensson, G.) et al., 2022. Overview of the MOSAiC expedition—Atmosphere. Elementa: Science of the Anthropocene 10(1). DOI: https://doi.org/10.1525/elementa.2021.00060

Hedemann, C., Mauritsen, T., Jungclaus, J., & Marotzke, J. (2022). Reconciling conflicting accounts of local radiative feedbacks in climate models, J. Climate. https://journals.ametsoc.org/view/journals/clim/aop/JCLI-D- 21-0513.1/JCLI-D-21-0513.1.xml

Belyazid S, Akselsson C, Zanchi G. Water Limitation in Forest Soils Regulates the Increase in Weathering Rates under Climate Change. Forests. 2022; 13(2):310. https://doi.org/10.3390/f13020310

Basu NB, Van Meter KJ, Byrnes DK, Van Cappellen P, Brouwer R, Jacobsen BH, Jarsjö J, Rudolph DL, Cunha MC, Nelson N, Bhattacharya R, Destouni G, Olsen SB., 2022. Managing Nitrogen Legacies to Accelerate Water Quality Improvement, Nature Geoscience. https://www.nature.com/articles/s41561-021-00889-9

Sjöberg Y., Dessirier B., Zou L., Ghajarnia N., Panahi D. M., Diandian Xu, Jarsjö J., Jaramillo F., and Manzoni S., 2022. Scaling relations reveal global and regional differences in morphometry of reservoirs and natural lakes. Science of the Total Environment 822, 153510. https://doi.org/10.1016/j.scitotenv.2022.153510

Scaini, A., Stritih, A., Brouillet, C., and Scaini, C., 2022. What locals want: citizen preferences and priorities for the Tagliamento River. Environmental Research Letters 17, 025008. https://iopscience.iop.org/article/10.1088/1748-9326/ac4d50

Devasthale, A., Carlund, T., Karlsson, K., 2022. Recent trends in the agrometeorological climate variables over Scandinavia, Agricultural and Forest Meteorology: 316, 108849, ISSN 0168-1923.   https://doi.org/10.1016/j.agrformet.2022.108849

Ryberg, E.E., Väliranta, M., Martinez-Cortizas, A., Ehrlén, J., Sjöström, J.K., and Kylander, M.E., 2022. Postglacial peatland vegetation succession in Store Mosse bog, south-central Sweden: An exploration of factors driving species change. Boreas, An international journal of Quaternary research. https://doi.org/10.1111/bor.12580

Meeussen, C., Govaert, S., Vanneste, T., Bollmann, K., Brunet, J., Calders, K., Cousins, S.A.O., De Pauw, K., Diekmann, M., Gasperini, C., Hedwall, P-O., Hylander, K., Iacopetti, G., Lenoir, J., Lindmo, S., Orczewska, A., Ponette, Q., Plue, J., Sanczuk, P., Selvi, F., Spicher, F., Verbeeck, H., Zellweger, F., Verheyen, K., Vangansbeke, P., De Frenne, P., 2022. Microclimatic edge-to-interior gradients of European deciduous forests. Agricultural and Forest Meteorology: 311, 108699, ISSN 0168-1923. https://doi.org/10.1016/j.agrformet.2021.108699.

Palomino-Ángel, S., Vázquez, R.F., Hampel, H., Anaya, J.A., Mosquera, P.V., Lyon, S.W., Jaramillo, F., 2022. Retrieval of Simultaneous Water-Level Changes in Small Lakes With InSAR. Geophysical Research Letters 49, e2021GL095950. https://doi.org/10.1029/2021GL095950

Chuvilin, E., Bukhanov, B., Yurchenko, A., Davletshina, D., Shakhova, N., Spivak, E., Rusakov, V., Dudarev, O., Khaustova, N., Tikhonova, A., Gustafsson, O., Tesi, T., Martens, J., Jakobsson, M., Spasennykh, M., Semiletov, I., 2022. In-situ temperatures and thermal properties of the East Siberian Arctic shelf sediments: Key input for understanding the dynamics of subsea permafrost. Marine and Petroleum Geology, 105550. Doi: 10.1016/j.marpetgeo.2022.105550

Artaxo, P., Hansson, H.-C. et al. (2021) Tropical and Boreal Forest – Atmosphere Interactions: A Review, Tellus B, https://doi.org/10.1080/16000889.2021.2015129

De Lombaerde, E., rVangansbeke, P., Lenoir, J., Van Meerbeek, K., Lembrechts, J., Rodríguez-Sánchez, F., Luoto, M., Scheffers, B., Haesen, S., Aalto, J., Christiansen, D.M., De Pauw, K., Depauw, L., Govaert, S., Greiser, C., Hampe, A., Hylander, K., Klinges, D., Koelemeijer, I., Meeussen, C., Ogée, J., Sanczuk, P., Vanneste, T., Zellweger, F., Baeten, L., De Frenne, P., 2022. Maintaining forest cover to enhance temperature buffering under future climate change. Science of The Total Environment: 810, 151338. https://doi.org/10.1016/j.scitotenv.2021.151338

Lindh M., Hoeber S., Weih M. and S. Manzoni (2022). Interactions of nutrient and water availability control growth and diversity effects in a Salix two-species mixture. Ecohydrology https://doi.org/10.1002/eco.2401

Murto, S., Caballero, R., Svensson, G., and Papritz, L.: Interaction between Atlantic cyclones and Eurasian atmospheric blocking drives wintertime warm extremes in the high Arctic, Weather Clim. Dynam.: 3, 21–44. https://doi.org/10.5194/wcd-3-21-2022

Qiu, C., Ciais, P., Zhu, D., Guenet, B., Chang, J., Chaudhary, N., Kleinen, T., Li, X., Müller, J., Xi, Y., Zhang, W., Ballantyne, A., Brewer, S.C., Brovkin, V., Charman, D.J., Gustafson, A., Gallego-Sala, A.V., Gasser, T., Holden, J., Joos, F., Kwon, M.J., Lauerwald, R., Miller, P.A., Peng, S., Page, S., Smith, B., Stocker, B.D., Sannel, A.B.K., Salmon, E., Schurgers, G., Shurpali, N.J., Wårlind, D., Westermann, S., 2022. A strong mitigation scenario maintains climate neutrality of northern peatlands. One Earth: 5. https://doi:10.1016/j.oneear.2021.12.008

Holmes, M.E., Crill, P.M., Burnett, W.C., McCalley, C.K., Wilson, R.M., Frolking, S., Chang, K.-Y., Riley, W.J., Varner, R.K., Hodgkins, S.B., IsoGenie Project Coordinators, IsoGenie Field Team, McNichol, A.P., Saleska, S.R., Rich, V.I., Chanton, J.P., 2022. Carbon Accumulation, Flux, and Fate in Stordalen Mire, a Permafrost Peatland in Transition. Global Biogeochemical Cycles. https://doi.org/10.1029/2021GB007113.

Clement Kinney, J., Assmann, K.M., Maslowski, W., Björk, G., Jakobsson, M., Jutterström, S., Lee, Y.J., Osinski, R., Semiletov, I., Ulfsbo, A., Wåhlström, I., Anderson, L.G., 2022. On the circulation, water mass distribution, and nutrient concentrations of the western Chukchi Sea. Ocean Sci. 18, 29–49. Doi: 10.5194/os-18-29-2022