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  • 1. Barrio, Isabel C.
    et al.
    Lindén, Elin
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences.
    te Beest, Mariska
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences.
    Olofsson, Johan
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences.
    Rocha, Adrian
    Soininen, Eeva M.
    Alatalo, Juha M.
    Andersson, Tommi
    Asmus, Ashley
    Boike, Julia
    Brathen, Kari Anne
    Bryant, John P.
    Buchwal, Agata
    Bueno, C. Guillermo
    Christie, Katherine S.
    Denisova, Yulia V.
    Egelkraut, Dagmar
    Ehrich, Dorothee
    Fishback, LeeAnn
    Forbes, Bruce C.
    Gartzia, Maite
    Grogan, Paul
    Hallinger, Martin
    Heijmans, Monique M. P. D.
    Hik, David S.
    Hofgaard, Annika
    Holmgren, Milena
    Høye, Toke T.
    Huebner, Diane C.
    Jonsdottir, Ingibjorg Svala
    Kaarlejärvi, Elina
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences. Department of Biology, Vrije Universiteit Brussel (VUB), Pleinlaan 2, 1050 Brussels, Belgium.
    Kumpula, Timo
    Lange, Cynthia Y. M. J. G.
    Lange, Jelena
    Levesque, Esther
    Limpens, Juul
    Macias-Fauria, Marc
    Myers-Smith, Isla
    van Nieukerken, Erik J.
    Normand, Signe
    Post, Eric S.
    Schmidt, Niels Martin
    Sitters, Judith
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences. Department of Biology, Vrije Universiteit Brussel (VUB), Pleinlaan 2, 1050 Brussels, Belgium.
    Skoracka, Anna
    Sokolov, Alexander
    Sokolova, Natalya
    Speed, James D. M.
    Street, Lorna E.
    Sundqvist, Maja K.
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences. The Center for Macroecology, Evolution and Climate, The Natural History Museum of Denmark, University of Copenhagen, Universitetsparken 5, 2100 Copenhagen Ø, Denmark.
    Suominen, Otso
    Tananaev, Nikita
    Tremblay, Jean-Pierre
    Urbanowicz, Christine
    Uvarov, Sergey A.
    Watts, David
    Wilmking, Martin
    Wookey, Philip A.
    Zimmermann, Heike H.
    Zverev, Vitali
    Kozlov, Mikhail V.
    Publisher Correction to: Background invertebrate herbivory on dwarf birch (Betula glandulosa-nana complex) increases with temperature and precipitation across the tundra biome (vol 40, pg 2265, 2017)2018In: Polar Biology, ISSN 0722-4060, E-ISSN 1432-2056, Vol. 41, no 8, p. 1653-1654Article in journal (Refereed)
    Abstract [en]

    The above mentioned article was originally scheduled for publication in the special issue on Ecology of Tundra Arthropods with guest editors Toke T. Hoye . Lauren E. Culler. Erroneously, the article was published in Polar Biology, Volume 40, Issue 11, November, 2017. The publisher sincerely apologizes to the guest editors and the authors for the inconvenience caused.

  • 2. Bjorkman, Anne D.
    et al.
    Myers-Smith, Isla H.
    Elmendorf, Sarah C.
    Normand, Signe
    Rueger, Nadja
    Beck, Pieter S. A.
    Blach-Overgaard, Anne
    Blok, Daan
    Cornelissen, J. Hans C.
    Forbes, Bruce C.
    Georges, Damien
    Goetz, Scott J.
    Guay, Kevin C.
    Henry, Gregory H. R.
    HilleRisLambers, Janneke
    Hollister, Robert D.
    Karger, Dirk N.
    Kattge, Jens
    Manning, Peter
    Prevey, Janet S.
    Rixen, Christian
    Schaepman-Strub, Gabriela
    Thomas, Haydn J. D.
    Vellend, Mark
    Wilmking, Martin
    Wipf, Sonja
    Carbognani, Michele
    Hermanutz, Luise
    Levesque, Esther
    Molau, Ulf
    Petraglia, Alessandro
    Soudzilovskaia, Nadejda A.
    Spasojevic, Marko J.
    Tomaselli, Marcello
    Vowles, Tage
    Alatalo, Juha M.
    Alexander, Heather D.
    Anadon-Rosell, Alba
    Angers-Blondin, Sandra
    te Beest, Mariska
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences.
    Berner, Logan
    Bjork, Robert G.
    Buchwal, Agata
    Buras, Allan
    Christie, Katherine
    Cooper, Elisabeth J.
    Dullinger, Stefan
    Elberling, Bo
    Eskelinen, Anu
    Frei, Esther R.
    Grau, Oriol
    Grogan, Paul
    Hallinger, Martin
    Harper, Karen A.
    Heijmans, Monique M. P. D.
    Hudson, James
    Huelber, Karl
    Iturrate-Garcia, Maitane
    Iversen, Colleen M.
    Jaroszynska, Francesca
    Johnstone, Jill F.
    Jorgensen, Rasmus Halfdan
    Kaarlejärvi, Elina
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences.
    Klady, Rebecca
    Kuleza, Sara
    Kulonen, Aino
    Lamarque, Laurent J.
    Lantz, Trevor
    Little, Chelsea J.
    Speed, James D. M.
    Michelsen, Anders
    Milbau, Ann
    Nabe-Nielsen, Jacob
    Nielsen, Sigrid Scholer
    Ninot, Josep M.
    Oberbauer, Steven F.
    Olofsson, Johan
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences.
    Onipchenko, Vladimir G.
    Rumpf, Sabine B.
    Semenchuk, Philipp
    Shetti, Rohan
    Collier, Laura Siegwart
    Street, Lorna E.
    Suding, Katharine N.
    Tape, Ken D.
    Trant, Andrew
    Treier, Urs A.
    Tremblay, Jean-Pierre
    Tremblay, Maxime
    Venn, Susanna
    Weijers, Stef
    Zamin, Tara
    Boulanger-Lapointe, Noemie
    Gould, William A.
    Hik, David S.
    Hofgaard, Annika
    Jonsdottir, Ingibjorg S.
    Jorgenson, Janet
    Klein, Julia
    Magnusson, Borgthor
    Tweedie, Craig
    Wookey, Philip A.
    Bahn, Michael
    Blonder, Benjamin
    van Bodegom, Peter M.
    Bond-Lamberty, Benjamin
    Campetella, Giandiego
    Cerabolini, Bruno E. L.
    Chapin, F. Stuart, III
    Cornwell, William K.
    Craine, Joseph
    Dainese, Matteo
    de Vries, Franciska T.
    Diaz, Sandra
    Enquist, Brian J.
    Green, Walton
    Milla, Ruben
    Niinemets, Ulo
    Onoda, Yusuke
    Ordonez, Jenny C.
    Ozinga, Wim A.
    Penuelas, Josep
    Poorter, Hendrik
    Poschlod, Peter
    Reich, Peter B.
    Sande, Brody
    Schamp, Brandon
    Sheremetev, Serge
    Weiher, Evan
    Plant functional trait change across a warming tundra biome2018In: Nature, ISSN 0028-0836, E-ISSN 1476-4687, Vol. 562, no 7725, p. 57-+Article in journal (Refereed)
    Abstract [en]

    The tundra is warming more rapidly than any other biome on Earth, and the potential ramifications are far-reaching because of global feedback effects between vegetation and climate. A better understanding of how environmental factors shape plant structure and function is crucial for predicting the consequences of environmental change for ecosystem functioning. Here we explore the biome-wide relationships between temperature, moisture and seven key plant functional traits both across space and over three decades of warming at 117 tundra locations. Spatial temperature-trait relationships were generally strong but soil moisture had a marked influence on the strength and direction of these relationships, highlighting the potentially important influence of changes in water availability on future trait shifts in tundra plant communities. Community height increased with warming across all sites over the past three decades, but other traits lagged far behind predicted rates of change. Our findings highlight the challenge of using space-for-time substitution to predict the functional consequences of future warming and suggest that functions that are tied closely to plant height will experience the most rapid change. They also reveal the strength with which environmental factors shape biotic communities at the coldest extremes of the planet and will help to improve projections of functional changes in tundra ecosystems with climate warming.

  • 3. Bjorkman, Anne D.
    et al.
    Myers-Smith, Isla H.
    Elmendorf, Sarah C.
    Normand, Signe
    Thomas, Haydn J. D.
    Alatalo, Juha M.
    Alexander, Heather
    Anadon-Rosell, Alba
    Angers-Blondin, Sandra
    Bai, Yang
    Baruah, Gaurav
    te Beest, Mariska
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences. Environmental Sciences, Copernicus Institute of Sustainable Development, Utrecht University, Utrecht, The Netherlands.
    Berner, Logan
    Bjork, Robert G.
    Blok, Daan
    Bruelheide, Helge
    Buchwal, Agata
    Buras, Allan
    Carbognani, Michele
    Christie, Katherine
    Collier, Laura S.
    Cooper, Elisabeth J.
    Cornelissen, J. Hans C.
    Dickinson, Katharine J. M.
    Dullinger, Stefan
    Elberling, Bo
    Eskelinen, Anu
    Forbes, Bruce C.
    Frei, Esther R.
    Iturrate-Garcia, Maitane
    Good, Megan K.
    Grau, Oriol
    Green, Peter
    Greve, Michelle
    Grogan, Paul
    Haider, Sylvia
    Hajek, Tomas
    Hallinger, Martin
    Happonen, Konsta
    Harper, Karen A.
    Heijmans, Monique M. P. D.
    Henry, Gregory H. R.
    Hermanutz, Luise
    Hewitt, Rebecca E.
    Hollister, Robert D.
    Hudson, James
    Huelber, Karl
    Iversen, Colleen M.
    Jaroszynska, Francesca
    Jimenez-Alfaro, Borja
    Johnstone, Jill
    Jorgensen, Rasmus Halfdan
    Kaarlejarvi, Elina
    Klady, Rebecca
    Klimesova, Jitka
    Korsten, Annika
    Kuleza, Sara
    Kulonen, Aino
    Lamarque, Laurent J.
    Lantz, Trevor
    Lavalle, Amanda
    Lembrechts, Jonas J.
    Levesque, Esther
    Little, Chelsea J.
    Luoto, Miska
    Macek, Petr
    Mack, Michelle C.
    Mathakutha, Rabia
    Michelsen, Anders
    Milbau, Ann
    Molau, Ulf
    Morgan, John W.
    Morsdorf, Martin Alfons
    Nabe-Nielsen, Jacob
    Nielsen, Sigrid Scholer
    Ninot, Josep M.
    Oberbauer, Steven F.
    Olofsson, Johan
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences.
    Onipchenko, Vladimir G.
    Petraglia, Alessandro
    Pickering, Catherine
    Prevey, Janet S.
    Rixen, Christian
    Rumpf, Sabine B.
    Schaepman-Strub, Gabriela
    Semenchuk, Philipp
    Shetti, Rohan
    Soudzilovskaia, Nadejda A.
    Spasojevic, Marko J.
    Speed, James David Mervyn
    Street, Lorna E.
    Suding, Katharine
    Tape, Ken D.
    Tomaselli, Marcello
    Trant, Andrew
    Treier, Urs A.
    Tremblay, Jean-Pierre
    Tremblay, Maxime
    Venn, Susanna
    Virkkala, Anna-Maria
    Vowles, Tage
    Weijers, Stef
    Wilmking, Martin
    Wipf, Sonja
    Zamin, Tara
    Tundra Trait Team: a database of plant traits spanning the tundra biome2018In: Global Ecology and Biogeography, ISSN 1466-822X, E-ISSN 1466-8238, Vol. 27, no 12, p. 1402-1411Article in journal (Refereed)
    Abstract [en]

    Motivation: The Tundra Trait Team (TTT) database includes field‐based measurements of key traits related to plant form and function at multiple sites across the tundra biome. This dataset can be used to address theoretical questions about plant strategy and trade‐offs, trait–environment relationships and environmental filtering, and trait variation across spatial scales, to validate satellite data, and to inform Earth system model parameters.

    Main types of variable contained: The database contains 91,970 measurements of 18 plant traits. The most frequently measured traits (> 1,000 observations each) include plant height, leaf area, specific leaf area, leaf fresh and dry mass, leaf dry matter content, leaf nitrogen, carbon and phosphorus content, leaf C:N and N:P, seed mass, and stem specific density.

    Spatial location and grain: Measurements were collected in tundra habitats in both the Northern and Southern Hemispheres, including Arctic sites in Alaska, Canada, Greenland, Fennoscandia and Siberia, alpine sites in the European Alps, Colorado Rockies, Caucasus, Ural Mountains, Pyrenees, Australian Alps, and Central Otago Mountains (New Zealand), and sub‐Antarctic Marion Island. More than 99% of observations are georeferenced.

    Time period and grain: All data were collected between 1964 and 2018. A small number of sites have repeated trait measurements at two or more time periods.

    Major taxa and level of measurement: Trait measurements were made on 978 terrestrial vascular plant species growing in tundra habitats. Most observations are on individuals (86%), while the remainder represent plot or site means or maximums per species.

    Software format: csv file and GitHub repository with data cleaning scripts in R; contribution to TRY plant trait database (www.try-db.org) to be included in the next version release.

    Download full text (pdf)
    fulltext
  • 4. Myers-Smith, Isla H.
    et al.
    Kerby, Jeffrey T.
    Phoenix, Gareth K.
    Bjerke, Jarle W.
    Epstein, Howard E.
    Assmann, Jakob J.
    John, Christian
    Andreu-Hayles, Laia
    Angers-Blondin, Sandra
    Beck, Pieter S. A.
    Berner, Logan T.
    Bhatt, Uma S.
    Bjorkman, Anne D.
    Blok, Daan
    Bryn, Anders
    Christiansen, Casper T.
    Cornelissen, J. Hans C.
    Cunliffe, Andrew M.
    Elmendorf, Sarah C.
    Forbes, Bruce C.
    Goetz, Scott J.
    Hollister, Robert D.
    de Jong, Rogier
    Loranty, Michael M.
    Macias-Fauria, Marc
    Maseyk, Kadmiel
    Normand, Signe
    Olofsson, Johan
    Umeå University, Faculty of Science and Technology, Department of Ecology and Environmental Sciences.
    Parker, Thomas C.
    Parmentier, Frans-Jan W.
    Post, Eric
    Schaepman-Strub, Gabriela
    Stordal, Frode
    Sullivan, Patrick F.
    Thomas, Haydn J. D.
    Tommervik, Hans
    Treharne, Rachael
    Tweedie, Craig E.
    Walker, Donald A.
    Wilmking, Martin
    Wipf, Sonja
    Complexity revealed in the greening of the Arctic2020In: Nature Climate Change, ISSN 1758-678X, E-ISSN 1758-6798, Vol. 10, no 2, p. 106-117Article in journal (Refereed)
    Abstract [en]

    As tundra ecosystems respond to rapid Arctic warming, satellite records suggest a widespread greening. This Perspective highlights the challenges of interpreting complex Arctic greening trends and provides direction for future research by combining ecological and remote sensing approaches. As the Arctic warms, vegetation is responding, and satellite measures indicate widespread greening at high latitudes. This 'greening of the Arctic' is among the world's most important large-scale ecological responses to global climate change. However, a consensus is emerging that the underlying causes and future dynamics of so-called Arctic greening and browning trends are more complex, variable and inherently scale-dependent than previously thought. Here we summarize the complexities of observing and interpreting high-latitude greening to identify priorities for future research. Incorporating satellite and proximal remote sensing with in-situ data, while accounting for uncertainties and scale issues, will advance the study of past, present and future Arctic vegetation change.

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