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Vegetation responses to 26 years of warming at Latnjajaure Field Station, northern Sweden
Department of Earth Sciences, University of Gothenburg, Gothenburg, Sweden; Gothenburg Global Biodiversity Centre, Gothenburg, Sweden.
Department of Earth Sciences, University of Gothenburg, Gothenburg, Sweden; Gothenburg Global Biodiversity Centre, Gothenburg, Sweden.
Department of Earth Sciences, University of Gothenburg, Gothenburg, Sweden; Gothenburg Global Biodiversity Centre, Gothenburg, Sweden.
Department of Earth Sciences, University of Gothenburg, Gothenburg, Sweden; Gothenburg Global Biodiversity Centre, Gothenburg, Sweden.
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2022 (English)In: Arctic Science, E-ISSN 2368-7460, Vol. 8, no 3, p. 858-877Article in journal (Refereed) Published
Abstract [en]

Climate change is rapidly warming high latitude and high elevation regions influencing plant community composition. Changes in vegetation composition have motivated the coordination of ecological monitoring networks across the Arctic, including the International Tundra Experiment. We have established a long-term passive warming experiment using open-top chambers, which includes five distinct plant communities (Dry Heath; Tussock Tundra; and Dry, Mesic, and Wet Meadow). We measured changes in plant community composition based on relative abundance differences over 26 years. In addition, relative abundance changes in response to fertilization and warming treatments were analyzed based on a seven-year Community-Level Interaction Program experiment. The communities had distinct soil moisture conditions, leading to community-specific responses of the plant growth forms (deciduous shrubs, evergreen shrubs, forbs, and graminoids). Warming significantly affected growth forms, but the direction of the response was not consistent across the communities. Evidence of shrub expansion was found in nearly all communities, with soil moisture determining whether it was driven by deciduous or evergreen shrubs. Graminoids increased in relative abundance in the Dry Meadow due to warming. Growth form responses to warming are likely mediated by edaphic characteristics of the communities and their interactions with climate.

Place, publisher, year, edition, pages
Ottawa, ON: Canadian Science Publishing , 2022. Vol. 8, no 3, p. 858-877
Keywords [en]
International Tundra Experiment (ITEX), climate warming, Arctic, vegetation, Latnjajaure
National Category
Ecology
Identifiers
URN: urn:nbn:se:polar:diva-8929DOI: 10.1139/as-2020-0042Scopus ID: 2-s2.0-85139987120OAI: oai:DiVA.org:polar-8929DiVA, id: diva2:1716229
Funder
EU, Horizon 2020, 657627Swedish Research Council Formas, 2016-01187Swedish Research Council Formas, 942-2015-1382Swedish Research Council, 2018-04202
Note

Funding: BECC – Biodiversity and Ecosystem services in a Changing Climate (MPB, HR), The European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie Grant Agreement No. 657627 (MPB), The Swedish Research Council FORMAS – future research leaders No. 2016-01187 (MPB), The Swedish Research Council FORMAS No. 942-2015-1382 (RGB), The Swedish Research Council No. 2018-04202 (RGB), Swedish National Space Board No. 136/15 (HR), Carl Tryggers stiftelse för vetenskaplig forskning (MPB, JMA), Qatar Petroleum (JMA), and Stiftelsen Oscar och Lilli Lamms Minne (JMA).

Available from: 2022-04-04 Created: 2022-12-05 Last updated: 2022-12-05Bibliographically approved
In thesis
1. Impact of climate warming on Arctic plant diversity: Phylogenetic diversity unravels opposing shrub responses in a warming tundra
Open this publication in new window or tab >>Impact of climate warming on Arctic plant diversity: Phylogenetic diversity unravels opposing shrub responses in a warming tundra
2022 (English)Doctoral thesis, comprehensive summary (Other academic)
Abstract [en]

The Arctic biome is at significant risk, with recent observations suggesting thatclimate change is warming the Arctic nearly four times faster than the globalaverage. Last decade, evidence from experimental warming studies andobservations of ambient warming over time shows how increasing airtemperature in the Arctic has led to changes to arctic vegetation, andencroachment of trees and shrubs into the tundra. Thus, this amplified Arcticwarming is threatening biodiversity, changing vegetation patterns, and thawingpermafrost with implications for carbon and nutrient dynamics. These are oneof the main concerns of observed plant biodiversity changes (except the lossof biodiversity itself) as they feedback on the global climate through theireffects on carbon cycling, albedo, and ecosystem energy balance. Studies ofArctic biodiversity have reported responses in either taxonomic, functional, orphylogenetic diversity, though phylogenetic has so far been understudied inthe Arctic. These different measures of quantifying biodiversity will vary intheir explanatory value and can have complementary value when looking atthe implications of vegetation changes. The overall aim of this thesis is todeepen the knowledge of the effect of ambient and experimental climatewarming on taxonomic, functional, and phylogenetic aspects of plant diversitywithin and between communities.In Latnjajaure (northern Sweden) I used a long-term passive warmingexperiment using open-top chambers, which include five distinct plantcommunities. The communities had distinct soil moisture conditions, leadingto community-specific responses of the plant growth forms (deciduous shrubs,evergreen shrubs, forbs, and graminoids) and phylogenetic dissimilarity. Moistcommunities tended to decrease in soil moisture, which drove similarity todryer, more nutrient-poor communities. Warming significantly affectedgrowth forms, but the direction of the response was not consistent across thecommunities. Evidence of shrub expansion was found in nearly allcommunities, with soil moisture determining whether it was driven bydeciduous or evergreen shrubs. These changes are expected to affect climatefeedback as the dry, evergreen-dominated heath community, has slower carboncycling. This slowdown in carbon cycling is at least partially due to theevergreen shrubs whose material is harder to decompose than most other arcticvegetation. As the studied communities are common in the region, it is likelythat future warming will drive community shifts in the tundra landscape.On a Pan-arctic dataset of warming studies, I explored the effect of scalingabundance weighting as well as the importance of deeper against shallownodes in the phylogeny on warming response and its interaction with soil moisture and site temperature in the tundra biome. For all metrics, we lookedat both plot level (α-diversity), and the difference between plots (βdissimilarity). We show that β-dissimilarity is more sensitive to warming thanα-diversity metrics. Furthermore, we show that sensitivity to abundance andphylogenetic weighting depends on local soil moisture conditions.In conclusion, the combined use of taxonomic, phylogenetic, and functionaldiversity measures enhances the quality of our assessment of the implicationsof arctic vegetation response to warming.

Place, publisher, year, edition, pages
University of Gothenburg, 2022. p. 50
Series
Doctoral thesis A series 174, ISSN 1400-3813
Keywords
Arctic, Oroarctic, Tundra, long-term warming, soil moisture, vegetation change, shrubification, biodiversity, phylogenetic diversity, plant community structure
National Category
Climate Research Ecology
Identifiers
urn:nbn:se:polar:diva-8930 (URN)978-91-8069-017-1 (ISBN)978-91-8069-017-1 (ISBN)
Available from: 2022-12-05 Created: 2022-12-05 Last updated: 2022-12-05Bibliographically approved

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