{tab=Research}Annika Nordin in a winter forestPhoto: Malin Grönborg

Forests are key to CO2 sequestration and how forests are managed influence their potential benefits for mitigating climate change, alongside with their numerous other benefits for people. In my research group we study both forests and forest management visions and decisions by people with different stakes in the forests. Our background is in forest ecophysiology, but we have long experience in interdisciplinary science and successful collaborations with colleagues in social and human sciences.

Our current focus areas are (1) carbon and nitrogen interactions in trees, understory vegetation and soils and how they influence forest growth, (2) new methods for forest regeneration, and (3) local stakeholders’ adaption of forest management to the changing climate.

The left photo shows a close-up of the moss Hylocomium splendens; in the middle, seedlings on a clear-cut site are shown; on the right, a group of people meeting for a presentation in a forest is seen. A) The moss, Hylocomium splendens, has a key role in the forest influencing litter decomposition and soil carbon accumulation as well as the nitrogen supply as it associates to N2-fixing cyanobacteria. We use ecophysiological approaches to study how interactions between the forest’s carbon and nitrogen cycles determine tree growth, understorey species composition and soil carbon accumulation. (Photo: Sverker Johansson) B) Seedlings on a clear-cut are subjected to harsh environmental conditions and large fluctuations in water and nutrient supply. Innovative methods based on new ecophysiological findings on how various nitrogen sources contribute to the seedlings’ successful establishment and growth direct our research activities in forest regeneration. (Photo: Bodil Häggström) C) Forests adaptation to the changing climate depend also on people’s visions on how forests should be managed. In an interdisciplinary project we focus on how stakeholders locally in northern and southern Sweden envision their future forests. (Photo: Lars Klingström)
{tab=Team}
  • Personnel Image
    Bizjak, Tinkara
    PhD Student
    E-mail
    Room: B6-50-51
  • Personnel Image
    Häggström, Bodil Marie
    PhD Student
    E-mail
    Room: SLU building
  • Personnel Image
    Larsson, Marcus
    PhD Student
    E-mail
    Room: SLU building
  • Personnel Image
    Nordin, Annika
    Professor
    E-mail
    Room: SLU building
    Website

{tab=CV A. Nordin}Please find Annika Nordin's CV here: https://www.slu.se/en/ew-cv/annika-nordin2/ {tab=Publications}
  2024 (3)
Diminishing legacy effects from forest fertilization on stand structure, vegetation community, and soil function. Larsson, M., Strengbom, J., Gundale, M. J., & Nordin, A. Forest Ecology and Management, 563: 121967. July 2024.
Diminishing legacy effects from forest fertilization on stand structure, vegetation community, and soil function [link]Paper   doi   link   bibtex   abstract  
Effects of Planting Position, Seedling Size, and Organic Nitrogen Fertilization on the Establishment of Scots Pine (Pinus sylvestris L.) and Norway Spruce (Picea abies (L.) Karst) Seedlings. Häggström, B., Hajek, J., Nordin, A., & Öhlund, J. Forests, 15(4): 703. April 2024. Number: 4 Publisher: Multidisciplinary Digital Publishing Institute
Effects of Planting Position, Seedling Size, and Organic Nitrogen Fertilization on the Establishment of Scots Pine (Pinus sylvestris L.) and Norway Spruce (Picea abies (L.) Karst) Seedlings [link]Paper   doi   link   bibtex   abstract  
Shifts in microbial community composition and metabolism correspond with rapid soil carbon accumulation in response to 20 years of simulated nitrogen deposition. Forsmark, B., Bizjak, T., Nordin, A., Rosenstock, N., Wallander, H., & Gundale, M. Science of the Total Environment, 918(170741). February 2024.
doi   link   bibtex   abstract  
  2023 (5)
Combining scientific and local knowledge improves evaluating future scenarios of forest ecosystem services. Hallberg-Sramek, I., Nordström, E., Priebe, J., Reimerson, E., Mårald, E., & Nordin, A. Ecosystem Services, 60: 101512. April 2023.
Combining scientific and local knowledge improves evaluating future scenarios of forest ecosystem services [link]Paper   doi   link   bibtex   abstract   5 downloads  
Early and repeated nutrient additions support far greater stemwood production in Norway spruce than traditional late-rotation fertilisation. Svensson, C., Bader, M. K., Forsmark, B., Nilsson, U., Lundmark, T., Nordin, A., & Bergh, J. Forest Ecology and Management, 549: 121425. December 2023.
Early and repeated nutrient additions support far greater stemwood production in Norway spruce than traditional late-rotation fertilisation [link]Paper   doi   link   bibtex   abstract  
Effect of arginine-phosphate addition on early survival and growth of Scots pine, Norway spruce and silver birch. Häggström, B., Lutter, R., Lundmark, T., Sjödin, F., & Nordin, A. Silva Fennica, 57(2). September 2023.
Effect of arginine-phosphate addition on early survival and growth of Scots pine, Norway spruce and silver birch [link]Paper   doi   link   bibtex  
Environmental controls on seedling establishment in a boreal forest: implications for Scots pine regeneration in continuous cover forestry. Häggström, B., Gundale, M. J., & Nordin, A. European Journal of Forest Research. October 2023.
Environmental controls on seedling establishment in a boreal forest: implications for Scots pine regeneration in continuous cover forestry [link]Paper   doi   link   bibtex   abstract  
Presence and activity of nitrogen-fixing bacteria in Scots pine needles in a boreal forest: a nitrogen-addition experiment. Bizjak, T., Sellstedt, A., Gratz, R., & Nordin, A. Tree Physiology, 43(8): 1354–1364. August 2023.
Presence and activity of nitrogen-fixing bacteria in Scots pine needles in a boreal forest: a nitrogen-addition experiment [link]Paper   doi   link   bibtex   abstract  
  2022 (4)
Bringing “Climate-Smart Forestry” Down to the Local Level—Identifying Barriers, Pathways and Indicators for Its Implementation in Practice. Hallberg-Sramek, I., Reimerson, E., Priebe, J., Nordström, E., Mårald, E., Sandström, C., & Nordin, A. Forests, 13(1): 98. January 2022.
Bringing “Climate-Smart Forestry” Down to the Local Level—Identifying Barriers, Pathways and Indicators for Its Implementation in Practice [link]Paper   doi   link   bibtex   abstract  
Large-scale assessment of artificially coated seeds for forest regeneration across Sweden. Domevscik, M., Häggström, B., Lim, H., Öhlund, J., & Nordin, A. New Forests. May 2022.
Large-scale assessment of artificially coated seeds for forest regeneration across Sweden [link]Paper   doi   link   bibtex   abstract  
Managing existing forests can mitigate climate change. Kauppi, P. E., Stål, G., Arnesson-Ceder, L., Hallberg Sramek, I., Hoen, H. F., Svensson, A., Wernick, I. K., Högberg, P., Lundmark, T., & Nordin, A. Forest Ecology and Management, 513: 120186. June 2022.
Managing existing forests can mitigate climate change [link]Paper   doi   link   bibtex   abstract  
The carbon sequestration response of aboveground biomass and soils to nutrient enrichment in boreal forests depends on baseline site productivity. Blaško, R., Forsmark, B., Gundale, M. J., Lim, H., Lundmark, T., & Nordin, A. Science of The Total Environment, 838: 156327. September 2022.
The carbon sequestration response of aboveground biomass and soils to nutrient enrichment in boreal forests depends on baseline site productivity [link]Paper   doi   link   bibtex   abstract  
  2021 (7)
Anthropogenic nitrogen enrichment increased the efficiency of belowground biomass production in a boreal forest. Forsmark, B., Nordin, A., Rosenstock, N. P., Wallander, H., & Gundale, M. J. Soil Biology and Biochemistry, 155: 108154. April 2021.
Anthropogenic nitrogen enrichment increased the efficiency of belowground biomass production in a boreal forest [link]Paper   doi   link   bibtex  
Belowground resource utilization in monocultures and mixtures of Scots pine and Norway spruce. Lutter, R., Henriksson, N., Lim, H., Blaško, R., Magh, R., Näsholm, T., Nordin, A., Lundmark, T., & Marshall, J. D. Forest Ecology and Management, 500: 119647. November 2021.
Belowground resource utilization in monocultures and mixtures of Scots pine and Norway spruce [link]Paper   doi   link   bibtex   abstract   1 download  
Climate Benefit of Different Tree Species on Former Agricultural Land in Northern Europe. Lutter, R., Stål, G., Arnesson Ceder, L., Lim, H., Padari, A., Tullus, H., Nordin, A., & Lundmark, T. Forests, 12(12): 1810. December 2021.
Climate Benefit of Different Tree Species on Former Agricultural Land in Northern Europe [link]Paper   doi   link   bibtex   abstract  
Increased tree growth following long-term optimised fertiliser application indirectly alters soil properties in a boreal forest. Van Sundert, K., Linder, S., Marshall, J. D., Nordin, A., & Vicca, S. European Journal of Forest Research, 140(1): 241–254. February 2021.
Increased tree growth following long-term optimised fertiliser application indirectly alters soil properties in a boreal forest [link]Paper   doi   link   bibtex   abstract  
Long‐term nitrogen enrichment does not increase microbial phosphorus mobilization in a northern coniferous forest. Forsmark, B., Wallander, H., Nordin, A., & Gundale, M. J. Functional Ecology, 35(1): 277–287. January 2021.
Long‐term nitrogen enrichment does not increase microbial phosphorus mobilization in a northern coniferous forest [link]Paper   doi   link   bibtex  
Moving towards multi-layered, mixed-species forests in riparian buffers will enhance their long-term function in boreal landscapes. Maher Hasselquist, E., Kuglerová, L., Sjögren, J., Hjältén, J., Ring, E., Sponseller, R. A., Andersson, E., Lundström, J., Mancheva, I., Nordin, A., & Laudon, H. Forest Ecology and Management, 493: 119254. August 2021.
Moving towards multi-layered, mixed-species forests in riparian buffers will enhance their long-term function in boreal landscapes [link]Paper   doi   link   bibtex   abstract  
Survival and growth of Scots pine (Pinus sylvestris) seedlings in north Sweden: effects of planting position and arginine phosphate addition. Häggström, B., Domevscik, M., Öhlund, J., & Nordin, A. Scandinavian Journal of Forest Research, 0(0): 1–11. July 2021.
Survival and growth of Scots pine (Pinus sylvestris) seedlings in north Sweden: effects of planting position and arginine phosphate addition [link]Paper   doi   link   bibtex   abstract   1 download  
  2020 (6)
Carbon benefits from Forest Transitions promoting biomass expansions and thickening. Kauppi, P. E., Ciais, P., Högberg, P., Nordin, A., Lappi, J., Lundmark, T., & Wernick, I. K. Global Change Biology, 26(10): 5365–5370. October 2020.
Carbon benefits from Forest Transitions promoting biomass expansions and thickening [link]Paper   doi   link   bibtex  
Effects of whole‐tree harvesting at thinning and subsequent compensatory nutrient additions on carbon sequestration and soil acidification in a boreal forest. Lim, H., Olsson, B. A., Lundmark, T., Dahl, J., & Nordin, A. GCB Bioenergy, 12(11): 992–1001. November 2020.
Effects of whole‐tree harvesting at thinning and subsequent compensatory nutrient additions on carbon sequestration and soil acidification in a boreal forest [link]Paper   doi   link   bibtex  
Framing woodland key habitats in the Swedish media – how has the framing changed over time?. Hallberg-Sramek, I., Bjärstig, T., & Nordin, A. Scandinavian Journal of Forest Research, 35(3-4): 198–209. May 2020.
Framing woodland key habitats in the Swedish media – how has the framing changed over time? [link]Paper   doi   link   bibtex  
Impacts of tree species identity and species mixing on ecosystem carbon and nitrogen stocks in a boreal forest. Blaško, R., Forsmark, B., Gundale, M. J., Lundmark, T., & Nordin, A. Forest Ecology and Management, 458: 117783. February 2020.
Impacts of tree species identity and species mixing on ecosystem carbon and nitrogen stocks in a boreal forest [link]Paper   doi   link   bibtex   1 download  
Low and High Nitrogen Deposition Rates in Northern Coniferous Forests Have Different Impacts on Aboveground Litter Production, Soil Respiration, and Soil Carbon Stocks. Forsmark, B., Nordin, A., Maaroufi, N. I., Lundmark, T., & Gundale, M. J. Ecosystems, 23(7): 1423–1436. November 2020.
Low and High Nitrogen Deposition Rates in Northern Coniferous Forests Have Different Impacts on Aboveground Litter Production, Soil Respiration, and Soil Carbon Stocks [link]Paper   doi   link   bibtex   abstract  
Policy goals and instruments for achieving a desirable future forest: Experiences from backcasting with stakeholders in Sweden. Sandström, C., Kanyama, A. C., Räty, R., Sonnek, K. M., Nordström, E., Mossing, A., & Nordin, A. Forest Policy and Economics, 111: 102051. February 2020.
Policy goals and instruments for achieving a desirable future forest: Experiences from backcasting with stakeholders in Sweden [link]Paper   doi   link   bibtex  
  2019 (4)
A struggling collaborative process – revisiting the woodland key habitat concept in Swedish forests. Bjärstig, T., Sandström, C., Sjögren, J., Soneson, J., & Nordin, A. Scandinavian Journal of Forest Research, 34(8): 699–708. November 2019.
A struggling collaborative process – revisiting the woodland key habitat concept in Swedish forests [link]Paper   doi   link   bibtex  
Anthropogenic nitrogen enrichment enhances soil carbon accumulation by impacting saprotrophs rather than ectomycorrhizal fungal activity. Maaroufi, N. I., Nordin, A., Palmqvist, K., Hasselquist, N. J., Forsmark, B., Rosenstock, N. P., Wallander, H., & Gundale, M. J. Global Change Biology, 25(9): 2900–2914. September 2019.
Anthropogenic nitrogen enrichment enhances soil carbon accumulation by impacting saprotrophs rather than ectomycorrhizal fungal activity [link]Paper   doi   link   bibtex  
From ecological knowledge to conservation policy: a case study on green tree retention and continuous-cover forestry in Sweden. Sténs, A., Roberge, J., Löfmarck, E., Beland Lindahl, K., Felton, A., Widmark, C., Rist, L., Johansson, J., Nordin, A., Nilsson, U., Laudon, H., & Ranius, T. Biodiversity and Conservation, 28(13): 3547–3574. November 2019.
From ecological knowledge to conservation policy: a case study on green tree retention and continuous-cover forestry in Sweden [link]Paper   doi   link   bibtex  
Nitrogen supply and other controls of carbon uptake of understory vegetation in a boreal Picea abies forest. Palmroth, S., Bach, L. H., Lindh, M., Kolari, P., Nordin, A., & Palmqvist, K. Agricultural and Forest Meteorology, 276-277: 107620. October 2019.
Nitrogen supply and other controls of carbon uptake of understory vegetation in a boreal Picea abies forest [link]Paper   doi   link   bibtex  
  2018 (8)
Capturing complexity: Forests, decision-making and climate change mitigation action. Klapwijk, M., Boberg, J., Bergh, J., Bishop, K., Björkman, C., Ellison, D., Felton, A., Lidskog, R., Lundmark, T., Keskitalo, E., Sonesson, J., Nordin, A., Nordström, E., Stenlid, J., & Mårald, E. Global Environmental Change, 52: 238–247. September 2018.
Capturing complexity: Forests, decision-making and climate change mitigation action [link]Paper   doi   link   bibtex  
Carbon balance in production forestry in relation to rotation length. Lundmark, T., Poudel, B. C., Stål, G., Nordin, A., & Sonesson, J. Canadian Journal of Forest Research, 48(6): 672–678. June 2018.
Carbon balance in production forestry in relation to rotation length [link]Paper   doi   link   bibtex   abstract  
Growth and survival relationships of 71 tree species with nitrogen and sulfur deposition across the conterminous U.S. Horn, K. J., Thomas, R. Q., Clark, C. M., Pardo, L. H., Fenn, M. E., Lawrence, G. B., Perakis, S. S., Smithwick, E. A. H., Baldwin, D., Braun, S., Nordin, A., Perry, C. H., Phelan, J. N., Schaberg, P. G., St. Clair, S. B., Warby, R., & Watmough, S. PLOS ONE, 13(10): e0205296. October 2018.
Growth and survival relationships of 71 tree species with nitrogen and sulfur deposition across the conterminous U.S. [link]Paper   doi   link   bibtex  
Interplay between N-form and N-dose influences ecosystem effects of N addition to boreal forest. Hedwall, P., Gruffman, L., Ishida, T., From, F., Lundmark, T., Näsholm, T., & Nordin, A. Plant and Soil, 423(1-2): 385–395. February 2018.
Interplay between N-form and N-dose influences ecosystem effects of N addition to boreal forest [link]Paper   doi   link   bibtex   1 download  
Modified forest rotation lengths: Long-term effects on landscape-scale habitat availability for specialized species. Roberge, J., Öhman, K., Lämås, T., Felton, A., Ranius, T., Lundmark, T., & Nordin, A. Journal of Environmental Management, 210: 1–9. March 2018.
Modified forest rotation lengths: Long-term effects on landscape-scale habitat availability for specialized species [link]Paper   doi   link   bibtex  
Nutrient optimization of tree growth alters structure and function of boreal soil food webs. Maaroufi, N. I., Palmqvist, K., Bach, L. H., Bokhorst, S., Liess, A., Gundale, M. J., Kardol, P., Nordin, A., & Meunier, C. L. Forest Ecology and Management, 428: 46–56. November 2018.
Nutrient optimization of tree growth alters structure and function of boreal soil food webs [link]Paper   doi   link   bibtex  
Trade-offs in the multi-use potential of managed boreal forests. Strengbom, J., Axelsson, E. P., Lundmark, T., & Nordin, A. Journal of Applied Ecology, 55(2): 958–966. March 2018.
Trade-offs in the multi-use potential of managed boreal forests [link]Paper   doi   link   bibtex  
Understanding context dependency in the response of forest understorey plant communities to nitrogen deposition. Perring, M. P., Diekmann, M., Midolo, G., Schellenberger Costa, D., Bernhardt-Römermann, M., Otto, J. C., Gilliam, F. S., Hedwall, P., Nordin, A., Dirnböck, T., Simkin, S. M., Máliš, F., Blondeel, H., Brunet, J., Chudomelová, M., Durak, T., De Frenne, P., Hédl, R., Kopecký, M., Landuyt, D., Li, D., Manning, P., Petřík, P., Reczyńska, K., Schmidt, W., Standovár, T., Świerkosz, K., Vild, O., Waller, D. M., & Verheyen, K. Environmental Pollution, 242: 1787–1799. November 2018.
Understanding context dependency in the response of forest understorey plant communities to nitrogen deposition [link]Paper   doi   link   bibtex  
  2017 (3)
Forest future s by Swedish students – developing a mind mapping method for data collection. Nummelin, T., Widmark, C., Riala, M., Sténs, A., Nordström, E., & Nordin, A. Scandinavian Journal of Forest Research, 32(8): 807–817. November 2017.
Forest future s by Swedish students – developing a mind mapping method for data collection [link]Paper   doi   link   bibtex  
Nitrogen enrichment impacts on boreal litter decomposition are driven by changes in soil microbiota rather than litter quality. Maaroufi, N. I., Nordin, A., Palmqvist, K., & Gundale, M. J. Scientific Reports, 7(1): 4083. December 2017.
Nitrogen enrichment impacts on boreal litter decomposition are driven by changes in soil microbiota rather than litter quality [link]Paper   doi   link   bibtex  
The potential role of forest management in Swedish scenarios towards climate neutrality by mid century. Cintas, O., Berndes, G., Hansson, J., Poudel, B. C., Bergh, J., Börjesson, P., Egnell, G., Lundmark, T., & Nordin, A. Forest Ecology and Management, 383: 73–84. January 2017.
The potential role of forest management in Swedish scenarios towards climate neutrality by mid century [link]Paper   doi   link   bibtex  
  2016 (7)
Chronic Nitrogen Deposition Has a Minor Effect on the Quantity and Quality of Aboveground Litter in a Boreal Forest. Maaroufi, N. I., Nordin, A., Palmqvist, K., & Gundale, M. J. PLOS ONE, 11(8): e0162086. August 2016.
Chronic Nitrogen Deposition Has a Minor Effect on the Quantity and Quality of Aboveground Litter in a Boreal Forest [link]Paper   doi   link   bibtex  
Comparison of carbon balances between continuous-cover and clear-cut forestry in Sweden. Lundmark, T., Bergh, J., Nordin, A., Fahlvik, N., & Poudel, B. C. Ambio, 45(S2): 203–213. February 2016.
Comparison of carbon balances between continuous-cover and clear-cut forestry in Sweden [link]Paper   doi   link   bibtex  
Effects of simulated long-term N deposition on Picea abies and Pinus sylvestris growth in boreal forest. From, F., Lundmark, T., Mörling, T., Pommerening, A., & Nordin, A. Canadian Journal of Forest Research, 46(11): 1396–1403. November 2016.
Effects of simulated long-term N deposition on <i>Picea abies</i> and <i>Pinus sylvestris</i> growth in boreal forest [link]Paper   doi   link   bibtex  
Impacts of global climate change mitigation scenarios on forests and harvesting in Sweden. Nordström, E., Forsell, N., Lundström, A., Korosuo, A., Bergh, J., Havlík, P., Kraxner, F., Frank, S., Fricko, O., Lundmark, T., & Nordin, A. Canadian Journal of Forest Research, 46(12): 1427–1438. December 2016.
Impacts of global climate change mitigation scenarios on forests and harvesting in Sweden [link]Paper   doi   link   bibtex   abstract  
Nitrogen dynamics in managed boreal forests: Recent advances and future research directions. Sponseller, R. A., Gundale, M. J., Futter, M., Ring, E., Nordin, A., Näsholm, T., & Laudon, H. Ambio, 45(S2): 175–187. February 2016.
Nitrogen dynamics in managed boreal forests: Recent advances and future research directions [link]Paper   doi   link   bibtex  
Socio-ecological implications of modifying rotation lengths in forestry. Roberge, J., Laudon, H., Björkman, C., Ranius, T., Sandström, C., Felton, A., Sténs, A., Nordin, A., Granström, A., Widemo, F., Bergh, J., Sonesson, J., Stenlid, J., & Lundmark, T. Ambio, 45(S2): 109–123. February 2016.
Socio-ecological implications of modifying rotation lengths in forestry [link]Paper   doi   link   bibtex  
The role of biogeochemical hotspots, landscape heterogeneity, and hydrological connectivity for minimizing forestry effects on water quality. Laudon, H., Kuglerová, L., Sponseller, R. A., Futter, M., Nordin, A., Bishop, K., Lundmark, T., Egnell, G., & Ågren, A. M. Ambio, 45(S2): 152–162. February 2016.
The role of biogeochemical hotspots, landscape heterogeneity, and hydrological connectivity for minimizing forestry effects on water quality [link]Paper   doi   link   bibtex  
  2015 (4)
Anthropogenic nitrogen deposition enhances carbon sequestration in boreal soils. Maaroufi, N. I., Nordin, A., Hasselquist, N. J., Bach, L. H., Palmqvist, K., & Gundale, M. J. Glob Chang Biol, 21(8): 3169–80. August 2015. Edition: 2015/02/26
Anthropogenic nitrogen deposition enhances carbon sequestration in boreal soils [link]Paper   doi   link   bibtex   abstract  
Nitrogen-retention capacity in a fertilized forest after clear-cutting - the effect of forest-floor vegetation. Hedwall, P. O., Bergh, J., & Nordin, A. Canadian Journal of Forest Research, 45(1): 130–134. January 2015.
Nitrogen-retention capacity in a fertilized forest after clear-cutting - the effect of forest-floor vegetation [link]Paper   doi   link   bibtex   abstract  
Relative contributions of set-asides and tree retention to the long-term availability of key forest biodiversity structures at the landscape scale. Roberge, J. M., Lamas, T., Lundmark, T., Ranius, T., Felton, A., & Nordin, A. J Environ Manage, 154: 284–92. May 2015. Edition: 2015/03/10
Relative contributions of set-asides and tree retention to the long-term availability of key forest biodiversity structures at the landscape scale [link]Paper   doi   link   bibtex   abstract  
Residual Long-Term Effects of Forest Fertilization on Tree Growth and Nitrogen Turnover in Boreal Forest. From, F., Strengbom, J., & Nordin, A. Forests, 6(4): 1145–1156. April 2015.
Residual Long-Term Effects of Forest Fertilization on Tree Growth and Nitrogen Turnover in Boreal Forest [link]Paper   doi   link   bibtex   abstract  
  2014 (4)
Anthropogenic nitrogen deposition in boreal forests has a minor impact on the global carbon cycle. Gundale, M. J., From, F., Bach, L. H., & Nordin, A. Global Change Biology, 20(1): 276–286. January 2014.
Anthropogenic nitrogen deposition in boreal forests has a minor impact on the global carbon cycle [link]Paper   doi   link   bibtex  
Belowground Competition Directs Spatial Patterns of Seedling Growth in Boreal Pine Forests in Fennoscandia. Axelsson, E., Lundmark, T., Högberg, P., & Nordin, A. Forests, 5(9): 2106–2121. September 2014.
Belowground Competition Directs Spatial Patterns of Seedling Growth in Boreal Pine Forests in Fennoscandia [link]Paper   doi   link   bibtex  
Potential Roles of Swedish Forestry in the Context of Climate Change Mitigation. Lundmark, T., Bergh, J., Hofer, P., Lundström, A., Nordin, A., Poudel, B., Sathre, R., Taverna, R., & Werner, F. Forests, 5(4): 557–578. March 2014.
Potential Roles of Swedish Forestry in the Context of Climate Change Mitigation [link]Paper   doi   link   bibtex  
Serum Metabolomic Biomarkers of Dementia. Mousavi, M., Jonsson, P., Antti, H., Adolfsson, R., Nordin, A., Bergdahl, J., Eriksson, K., Moritz, T., Nilsson, L., & Nyberg, L. Dementia and Geriatric Cognitive Disorders Extra, 4(2): 252–262. July 2014.
Serum Metabolomic Biomarkers of Dementia [link]Paper   doi   link   bibtex  
  2013 (3)
Can thinning alleviate negative effects of fertilization on boreal forest floor vegetation?. Hedwall, P., Strengbom, J., & Nordin, A. Forest Ecology and Management, 310: 382–392. December 2013.
Can thinning alleviate negative effects of fertilization on boreal forest floor vegetation? [link]Paper   doi   link   bibtex  
Does background nitrogen deposition affect the response of boreal vegetation to fertilization?. Hedwall, P. O., Nordin, A., Strengbom, J., Brunet, J., & Olsson, B. Oecologia, 173(2): 615–624. October 2013.
Does background nitrogen deposition affect the response of boreal vegetation to fertilization? [link]Paper   doi   link   bibtex  
The impact of simulated chronic nitrogen deposition on the biomass and N $_{\textrm{2}}$ -fixation activity of two boreal feather moss–cyanobacteria associations. Gundale, M. J., Bach, L. H., & Nordin, A. Biology Letters, 9(6): 20130797. December 2013.
The impact of simulated chronic nitrogen deposition on the biomass and N $_{\textrm{2}}$ -fixation activity of two boreal feather moss–cyanobacteria associations [link]Paper   doi   link   bibtex   abstract  
  2012 (1)
Physical disturbance determines effects from nitrogen addition on ground vegetation in boreal coniferous forests. Strengbom, J., & Nordin, A. Journal of Vegetation Science, 23(2): 361–371. April 2012.
Physical disturbance determines effects from nitrogen addition on ground vegetation in boreal coniferous forests [link]Paper   doi   link   bibtex  
  2011 (3)
Bryophytes attenuate anthropogenic nitrogen inputs in boreal forests: BRYOPHYTES ATTENUATE NITROGEN DEPOSITION. Gundale, M. J., Deluca, T. H., & Nordin, A. Global Change Biology, 17(8): 2743–2753. August 2011.
Bryophytes attenuate anthropogenic nitrogen inputs in boreal forests: BRYOPHYTES ATTENUATE NITROGEN DEPOSITION [link]Paper   doi   link   bibtex   1 download  
Decreased variation of forest understory vegetation is an effect of fertilisation in young stands of Picea abies. Hedwall, P., Brunet, J., Nordin, A., & Bergh, J. Scandinavian Journal of Forest Research, 26(S11): 46–55. June 2011. Publisher: Taylor & Francis _eprint: https://doi.org/10.1080/02827581.2011.564397
Decreased variation of forest understory vegetation is an effect of fertilisation in young stands of Picea abies [link]Paper   doi   link   bibtex   abstract  
Patterns of Plant Biomass Partitioning Depend on Nitrogen Source. Cambui, C. A., Svennerstam, H., Gruffman, L., Nordin, A., Ganeteg, U., & Näsholm, T. PLoS ONE, 6(4): e19211. April 2011.
Patterns of Plant Biomass Partitioning Depend on Nitrogen Source [link]Paper   doi   link   bibtex  
  2010 (4)
Compositional changes of forest-floor vegetation in young stands of Norway spruce as an effect of repeated fertilisation. Hedwall, P., Nordin, A., Brunet, J., & Bergh, J. Forest Ecology and Management, 259(12): 2418–2425. May 2010.
Compositional changes of forest-floor vegetation in young stands of Norway spruce as an effect of repeated fertilisation [link]Paper   doi   link   bibtex  
Global assessment of nitrogen deposition effects on terrestrial plant diversity: a synthesis. Bobbink, R., Hicks, K., Galloway, J., Spranger, T., Alkemade, R., Ashmore, M., Bustamante, M., Cinderby, S., Davidson, E., Dentener, F., Emmett, B., Erisman, J., Fenn, M., Gilliam, F., Nordin, A., Pardo, L., & De Vries, W. Ecological Applications, 20(1): 30–59. January 2010.
Global assessment of nitrogen deposition effects on terrestrial plant diversity: a synthesis [link]Paper   doi   link   bibtex  
No evidence that nitrogen enrichment affect fungal communities of Vaccinium roots in two contrasting boreal forest types. Ishida, T. A., & Nordin, A. Soil Biology and Biochemistry, 42(2): 234–243. February 2010.
No evidence that nitrogen enrichment affect fungal communities of Vaccinium roots in two contrasting boreal forest types [link]Paper   doi   link   bibtex  
Responses of epiphytic lichens to an experimental whole‐tree nitrogen‐deposition gradient. Johansson, O., Nordin, A., Olofsson, J., & Palmqvist, K. New Phytologist, 188(4): 1075–1084. December 2010.
Responses of epiphytic lichens to an experimental whole‐tree nitrogen‐deposition gradient [link]Paper   doi   link   bibtex  
  2009 (3)
Can small-scale experiments predict ecosystem responses? An example from peatlands. Wiedermann, M. M., Gunnarsson, U., Nilsson, M. B., Nordin, A., & Ericson, L. Oikos, 118(3): 449–456. March 2009.
Can small-scale experiments predict ecosystem responses? An example from peatlands [link]Paper   doi   link   bibtex  
Complex Biotic Interactions Drive Long-Term Vegetation Change in a Nitrogen Enriched Boreal Forest. Nordin, A., Strengbom, J., Forsum, Å., & Ericson, L. Ecosystems, 12(7): 1204–1211. November 2009.
Complex Biotic Interactions Drive Long-Term Vegetation Change in a Nitrogen Enriched Boreal Forest [link]Paper   doi   link   bibtex  
Ecophysiological adjustment of two Sphagnum species in response to anthropogenic nitrogen deposition. Wiedermann, M. M., Gunnarsson, U., Ericson, L., & Nordin, A. New Phytologist, 181(1): 208–217. January 2009.
Ecophysiological adjustment of two <i>Sphagnum</i> species in response to anthropogenic nitrogen deposition [link]Paper   doi   link   bibtex  
  2008 (2)
Commercial forest fertilization causes long-term residual effects in ground vegetation of boreal forests. Strengbom, J., & Nordin, A. Forest Ecology and Management, 256(12): 2175–2181. December 2008.
Commercial forest fertilization causes long-term residual effects in ground vegetation of boreal forests [link]Paper   doi   link   bibtex  
Nitrogen uptake by Hylocomium splendens during snowmelt in a boreal forest. Forsum, Å., Laudon, H., & Nordin, A. Écoscience, 15(3): 315–319. September 2008.
Nitrogen uptake by <i>Hylocomium splendens</i> during snowmelt in a boreal forest [link]Paper   doi   link   bibtex  
  2007 (1)
GLOBAL CHANGE SHIFTS VEGETATION AND PLANT–PARASITE INTERACTIONS IN A BOREAL MIRE. Wiedermann, M. M., Nordin, A., Gunnarsson, U., Nilsson, M. B., & Ericson, L. Ecology, 88(2): 454–464. February 2007.
GLOBAL CHANGE SHIFTS VEGETATION AND PLANT–PARASITE INTERACTIONS IN A BOREAL MIRE [link]Paper   doi   link   bibtex  
  2006 (2)
Nitrogen utilization by Hylocomium splendens in a boreal forest fertilization experiment. Forsum, A., Dahlman, L., Nasholm, T., & Nordin, A. Functional Ecology, 20(3): 421–426. June 2006. Place: Hoboken Publisher: Wiley WOS:000238185400002
doi   link   bibtex   abstract  
Responses to ammonium and nitrate additions by boreal plants and their natural enemies. Nordin, A., Strengbom, J., & Ericson, L. Environmental Pollution, 141(1): 167–174. May 2006. Place: Oxford Publisher: Elsevier Sci Ltd WOS:000236771400018
doi   link   bibtex   abstract  
  2005 (2)
Do multitrophic interactions override N fertilization effects on Operophtera larvae?. Strengbom, J., Witzell, J., Nordin, A., & Ericson, L. Oecologia, 143(2): 241–250. March 2005.
Do multitrophic interactions override N fertilization effects on Operophtera larvae? [link]Paper   doi   link   bibtex   abstract  
Nitrogen deposition and the biodiversity of boreal forests: Implications for the nitrogen critical load. Nordin, A., Strengbom, J., Witzell, J., Nasholm, T., & Ericson, L. Ambio, 34(1): 20–24. February 2005. Place: Dordrecht Publisher: Springer WOS:000226782600003
doi   link   bibtex   abstract  
  2004 (1)
Nitrogen uptake by arctic soil microbes and plants in relation to soil nitrogen supply. Nordin, A., Schmidt, I. K., & Shaver, G. R. Ecology, 85(4): 955–962. April 2004. Place: Washington Publisher: Ecological Soc Amer WOS:000220766600007
doi   link   bibtex   abstract  
  2002 (2)
Mineralization and distribution of nutrients in plants and microbes in four arctic ecosystems: responses to warming. Schmidt, I., Jonasson, S., Shaver, G. R., Michelsen, A., & Nordin, A. Plant and Soil, 242(1): 93–106. May 2002.
Mineralization and distribution of nutrients in plants and microbes in four arctic ecosystems: responses to warming [link]Paper   doi   link   bibtex   abstract  
Parasitic fungus mediates change in nitrogen-exposed boreal forest vegetation. Strengbom, J., Nordin, A., Näsholm, T., & Ericson, L. Journal of Ecology, 90(1): 61–67. 2002. _eprint: https://onlinelibrary.wiley.com/doi/pdf/10.1046/j.0022-0477.2001.00629.x
Parasitic fungus mediates change in nitrogen-exposed boreal forest vegetation [link]Paper   doi   link   bibtex   abstract  
  2001 (3)
Nitrogen forms in bark, wood and foliage of nitrogen-fertilized Pinus sylvestris. Nordin, A., Uggla, C., & Näsholm, T. Tree Physiology, 21(1): 59–64. January 2001.
Nitrogen forms in bark, wood and foliage of nitrogen-fertilized Pinus sylvestris [link]Paper   doi   link   bibtex   abstract  
Slow recovery of boreal forest ecosystem following decreased nitrogen input. Strengbom, J., Nordin, A., Näsholm, T., & Ericson, L. Functional Ecology, 15(4): 451–457. 2001. _eprint: https://onlinelibrary.wiley.com/doi/pdf/10.1046/j.0269-8463.2001.00538.x
Slow recovery of boreal forest ecosystem following decreased nitrogen input [link]Paper   doi   link   bibtex   abstract  
Soil nitrogen form and plant nitrogen uptake along a boreal forest productivity gradient. Nordin, A., Högberg, P., & Näsholm, T. Oecologia, 129(1): 125–132. September 2001.
Soil nitrogen form and plant nitrogen uptake along a boreal forest productivity gradient [link]Paper   doi   link   bibtex   abstract  
  2000 (1)
Amino acid accumulation and growth of Sphagnum under different levels of N deposition. Nordin, A., & Gunnarsson, U. Écoscience, 7(4): 474–480. January 2000. Publisher: Taylor & Francis _eprint: https://doi.org/10.1080/11956860.2000.11682619
Amino acid accumulation and growth of Sphagnum under different levels of N deposition [link]Paper   doi   link   bibtex   abstract