Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/25823
Appears in Collections:Biological and Environmental Sciences Journal Articles
Peer Review Status: Refereed
Title: Background invertebrate herbivory on dwarf birch (Betula glandulosa-nana complex) increases with temperature and precipitation across the tundra biome
Author(s): Barrio, Isabel C
Linden, Elin
te Beest, Mariska
Olofsson, Johan
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
Wookey, Philip
Contact Email: philip.wookey1@stir.ac.uk
Keywords: Background insect herbivory
Climate change
Externally feeding defoliators
Latitudinal Herbivory Hypothesis
Leaf damage
Leaf miners
Gall makers
Macroecological pattern
Issue Date: Nov-2017
Date Deposited: 5-Sep-2017
Citation: Barrio IC, Linden E, te Beest M, Olofsson J, Rocha A, Soininen EM, Alatalo JM, Andersson T, Asmus A, Boike J, Brathen KA, Bryant JP, Buchwal A, Bueno CG & Wookey P (2017) Background invertebrate herbivory on dwarf birch (Betula glandulosa-nana complex) increases with temperature and precipitation across the tundra biome. Polar Biology, 40 (11), pp. 2265-2278. https://doi.org/10.1007/s00300-017-2139-7
Abstract: Chronic, low intensity herbivory by invertebrates, termed background herbivory, has been understudied in tundra, yet its impacts are likely to increase in a warmer Arctic. The magnitude of these changes is however hard to predict as we know little about the drivers of current levels of invertebrate herbivory in tundra. We assessed the intensity of invertebrate herbivory on a common tundra plant, the dwarf birch (Betula glandulosa-nana complex), and investigated its relationship to latitude and climate across the tundra biome. Leaf damage by defoliating, mining and gall-forming invertebrates was measured in samples collected from 192 sites at 56 locations. Our results indicate that invertebrate herbivory is nearly ubiquitous across the tundra biome but occurs at low intensity. On average, invertebrates damaged 11.2% of the leaves and removed 1.4% of total leaf area. The damage was mainly caused by external leaf feeders, and most damaged leaves were only slightly affected (12% leaf area lost). Foliar damage was consistently positively correlated with mid-summer (July) temperature and, to a lesser extent, precipitation in the year of data collection, irrespective of latitude. Our models predict that, on average, foliar losses to invertebrates on dwarf birch are likely to increase by 6–7% over the current levels with a 1 °C increase in summer temperatures. Our results show that invertebrate herbivory on dwarf birch is small in magnitude but given its prevalence and dependence on climatic variables, background invertebrate herbivory should be included in predictions of climate change impacts on tundra ecosystems. © 2017 Springer-Verlag GmbH Germany
DOI Link: 10.1007/s00300-017-2139-7
Rights: This item has been embargoed for a period. During the embargo please use the Request a Copy feature at the foot of the Repository record to request a copy directly from the author. You can only request a copy if you wish to use this work for your own research or private study. Publisher policy allows this work to be made available in this repository; The final publication is available at Springer via https://doi.org/10.1007/s00300-017-2139-7
Notes: Additional co-authors: Katherine S. Christie, Yulia V. Denisova, Dagmar Egelkraut, Dorothee Ehrich, LeeAnn Fishback, Bruce C. Forbes, Maite Gartzia, Paul Grogan, Martin Hallinger, Monique M. P. D. Heijmans, David S. Hik, Annika Hofgaard, Milena Holmgren, Toke T. Høye, Diane C. Huebner, Ingibjorg Svala Jonsdottir, Elina Kaarlejarvi, Timo Kumpula, Cynthia Y. M. J. G. Lange, Jelena Lange, Esther Levesque, Juul Limpens, Marc Macias-Fauria, Isla Myers-Smith, Erik J. van Nieukerken, Signe Normand, Eric S. Post, Niels Martin Schmidt, Judith Sitters, Anna Skoracka, Alexander Sokolov, Natalya Sokolova, James D. M. Speed, Lorna E. Street, Maja K. Sundqvist, Otso Suominen, Nikita Tananaev, Jean-Pierre Tremblay, Christine Urbanowicz, Sergey A. Uvarov, David Watts, Martin Wilmking, Heike H. Zimmermann, Vitali Zverev, Mikhail V. Kozlov

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