Pre-prints
Publications
Eshghi Sahraei S, Sánchez-García M, Montoliu-Nerin M, Manyara D, Bergin C, Rosendahl S, Rosling A. 2022.Whole genome analyses based on single, field collected spores of the arbuscular mycorrhizal fungus Funneliformis geosporum. Mycorrhiza 32 (361-371) http://doi.org/10.1007/s00572-022-01091-4
Kluting K, Strid Y, Six D, Rosling A. 2022. Forest fire influence on Tomicus piniperda-associated fungal communities and phloem nutrient availability of colonized Pinus sylvestris. Microbial Ecology. http://doi.org/10.21203/rs.3.rs-1569573/v1
Eshghi Sahraei S, Furneaux B, Kluting K, Zakieh M, Rydin H, Hytteborn H, Rosling A. 2022. Effects of operational taxonomic unit inference methods on soil microeukaryote community analysis using long‐read metabarcoding. Ecology and Evolution 12, e8676. http://doi.org/10.1002/ece3.8676
Montoliu-Nerin M, Sánchez-García M, Bergin C, Kutschera VE, Johannesson H, Bever JD, Rosling A. 2021. In-depth Phylogenomic Analysis of Arbuscular Mycorrhizal Fungi Based on a Comprehensive Set of de novo Genome Assemblies. Front. Fungal Biol., https://doi.org/10.3389/ffunb.2021.716385
Peter Meidl, Brendan Furneaux, Kassim I. Tchan, Kerri Kluting, Martin Ryberg, Marie-Laure Guissou, Bakary Soro, Aïssata Traoré, Gbamon Konomou, Nourou S. Yorou, Anna Rosling (2021) Soil fungal communities of ectomycorrhizal dominated woodlands across West Africa. MycoKeys 81: 45–68
doi: 10.3897/mycokeys.81.66249
Brendan Furneaux, Mohammad Bahram, Anna Rosling, Nourou S. Yorou, Martin Ryberg (2021) Long- and short-read metabarcoding technologies reveal similar spatiotemporal structures in fungal communities. Mol Ecol Resour. 2021;00:1–17. DOI: 10.1111/1755-0998.13387
Tuovinen V, Millanes AM, Freire‐Rallo S, Rosling A, Wedin M (2021) Tremella macrobasidiata and Tremella variae have abundant and widespread yeast stages in Lecanora lichens. Environmental microbiology https://doi.org/10.1111/1462-2920.15455
Cheeke TE, Phillips RP, Kuhn A, Rosling A, Fransson P (2020) Variation in hyphal production rather than turnover regulates standing fungal biomass in temperate hardwood forests. Ecology, e03260 https://doi.org/10.1002/ecy.3260
Kalsoom Khan F, Kluting K, Tångrot J, Urbina H, mmunet T, Eshghi Sahraei S, Rydén M, Ryberg M, Rosling A (2020) Naming the untouchable – environmental sequences and niche partitioning as taxonomical evidence in fungi. IMA Fungus 11, 23. https://doi.org/10.1186/s43008-020-00045-9
Finlay F, Mahmood S, Rosenstock N, Bolou-Bi EB, Köhler SJ, Fahad Z, Rosling A, Wallander H, Belyazid S, Bishop K, Lian B (2020) Reviews and syntheses: Biological weathering and its consequences at different spatial levels – from nanoscale to global scale. Biogeosciences, 17, 1507–1533, 2020 https://doi.org/10.5194/bg-17-1507-2020
Montoliu-Nerin M, Sánchez-García M, Bergin C, Grabherr M, Ellis B, Kutschera VE, Kierczak M, Johannesson H, Rosling A (2020) Building de novo reference genome assemblies of complex eukaryotic microorganisms from single nuclei. Scientific Reports volume 10, Article number: 1303. https://doi.org/10.1038/s41598-020-58025-3
Kluting K, Clemmensen K, Jonaitis S, Vasaitis R, Holmström S, Finlay RD, Rosling A (2019) Distribution patterns of fungal taxa and inferred functional traits reflect the non-uniform vertical stratification of soil microhabitats in a coastal pine forest. FEMS Microbiology Ecology, 95, fiz149. https://doi.org/10.1093/femsec/fiz149
Rosenstock NP, van Hees PAW, Fransson P, Finlay RD, Rosling A (2019) Biological enhancement of mineral weathering by Pinus sylvestris seedlings-effects of plants, ectomycorrhizal fungi, and elevated CO2. Biogeosciences 16: 3637-3649.https://doi.org/10.5194/bg-16-3637-2019
Urbina H, Breed MF, Zhao W, Lakshmi Gurrala K, Andersson SGW, Ågren J, Baldauf S, Rosling A (2018) Specificity in Arabidopsis thaliana recruitment of root fungal communites from soil and rhizosphere. Fungal Biology 122: 231-240.
George TS, Giles C D, Menezes-Blackburn D, Condron LM, Gama-Rodrigues AC, Jaisi D, Lang F, Neal AL, Stutter MI, Almeida DS, Bol R, Cabugao KG, Celi L, Cotner JB, Feng G, Goll DS, Hallama M, Krueger J, Plassard C, Rosling A, Darch T, Fraser T, Giesler R, Richardson AE, Tamburini F, Shand CA, Lumsdon DG, Zhang H, Blackwell MSA, Wearing C, Mezeli MM, Almås ÅR, Audette Y, Bertrand I, Beyhaut E, Boitt G, Bradshaw N, Brearley CA, Bruulsema TW, Ciais P, Cozzolino V, Duran PC, Mora ML, de Menezes AB, Dodd RJ, Dunfield K, Engl C, Frazão JJ, Garland G, González Jiménez JL, Graca J, Granger SJ, Harrison AF, Heuck C, Hou EQ, Johnes PJ, Kaiser K, Kjær HA, Klumpp E, Lamb AL, Macintosh K A, Mackay EB, McGrath J, McIntyre C, McLaren T, Mészáros E, Missong A, Mooshammer M, Negrón CP, Nelson LA, Pfahler V, Poblete-Grant P, Randall M, Seguel A, Seth K, Smith AC, Smits MM, Sobarzo JA, Spohn M, Tawaraya K, Tibbett M, Voroney P, Wallander H, Wang L, Wasaki J, Haygarth PM (2017) Organic phosphorus in the terrestrial environment: a perspective on the state of the art and future priorities. Plan Soil.
DOI 10.1007/s11104-017-3391-x
Cheeke TE, Phillips RP, Brzostek ER, Rosling A, Bever JD, Fransson P (2017) Dominant mycorrhizal association of trees alters carbon and nutrient cycling by selecting for microbial groups with distinct enzyme function. New Phytologist 214: 432-442
doi: 10.1111/nph.14343
Urbina H, Scofield DG, Cafaro M, Rosling A (2016) DNA-metabarcoding uncovers the diversity of soil-inhabiting fungi in the tropical island of Puerto Rico. Mycorscience 217-227.
Rosling A, Midgley MG, Cheeke T, Urbina H, Fransson P, Phillips RP (2016) Phosphorus cycling in deciduous forest soil differs between stands dominated by ecto- and arbuscular mycorrhizal trees. New Phytologist 209, 1184-1195.
Schadt CW, Rosling A (2015) Comment on “Global diversity and geography of soil fungi”. Science 348, 1438.
Clarholm M, Skyllberg U, Rosling A (2015) Organic acid induced release of nutrients from metal-stabilized soil organic matter – The unbutton model. Soil Biology and Biochemistry 84, 168-176.
Menkis A, Urbina H, James TY, Rosling A (2014) Archaeorhizomyces borealis sp. nov. and a sequence based classification of related soil fungal species. Fungal Biology. DOI:10.1016/j.funbio.2014.08.005
Fransson P, Rosling A (2014) Fungal and bacterial community responses to Suillus variegtus extraradical mycelia and soil profile in Scots pine microcosms. Plant and Soil. DOI: 10.1007/s11104-014-2231-5
Cruz-Martínez K, Rosling A, Zhang Y, Song M, Andersen GL, Banfield JF (2012) Effect of rainfall-induced soil geochemistry dynamics on grassland soil microbial communities. Applied and Environmental Microbiology, 78: 7587-7595.
Menkis A, Burokiene D, Gaitnieks T, Uotila A, Johannesson H, Rosling A, Finlay R, Stenlid J, Vasaitis R. (2012) Occurrence and impact of the root-rot biocontrol agent Phlebiopsis gigantea on soil fungal communities in Picea abies forests of northern Europe. FEMS Microbiology Ecology, 81: 438-445.
Do Thi Xuan, Vo Thi Guong, Rosling A, Alström S, Chai N, Högberg N (2011) Different crop rotation systems as drivers of change in soil bacterial community structure and yield of rice, Oryza sativa. Biology and Fertility of Soils, 48:217-225.
Rosling A, Cox F, Cruz-Martinez K, Ihrmark K, Grelet G-A, Lindahl BD, Menkis A, James TY (2011) Archaeorhizomycetes: unearthing an ancient class of ubiquitous soil fungi. Science, 333: 876-879.
Eastwood DC, Floudas D, Binder M, Majcherczyk A, Schneider P, Aerts A, Asiegbu FO, Baker SE, Barry K, Bendiksby M, Blumentritt M, Coutinho PM, Cullen D, de Vries RP, Gathman A, Goodell B, Henrissat B, Ihrmark K, Kauserud H, Kohler A, LaButti K, Lapidus A, Lavin JL, Lee Y-H, Lindquist E, Lilly W, Lucas S, Morin E, Murat C, Oguiza JA, Park J, Pisabarro AG, Riley R, Rosling A, Salamov A, Schmidt O, Schmutz J, Skrede I, Stenlid J, Wiebenga A, Xie X, Kües U, Hibbett DS, Hoffmeister D, Högberg N, Martin F, Grigoriev IV, Watkinson SC (2011) The Plant Cell Wall–Decomposing Machinery Underlies the Functional Diversity of Forest Fungi. Science, 333: 762-765.
Finlay R, Wallander H, Smits M, Holmstrom S, van Hees P, Lian B, Rosling A (2009) The role of fungi in biogenic weathering in boreal forest soils. Fungal Biology Reviews, 23: 101-106.
Rosling A, Roose T, Herrmann AM, Davidson FA, Finlay RD, Gadd GM (2009) Approaches to modelling mineral weathering by fungi. Fungal Biology Reviews, 23: 138-144.
Rosling A, Finlay RD, Gadd GD (2009) Editorial: Geomycology. Fungal Biology Reviews, 23: 91-93.
Rosling A (2009) Trees, mycorrhiza and minerals –field relevance of in vitro experiments. Geomicrobiology Journal. 26: 389-401.
Nygren CMR, Rosling A (2009) Localisation of phosphomonoesteraseactivity in ectomycorrhizal fungi grown on different phosphorus sources. Mycorrhiza19: 197-204.
Rosling A, Rosentstock N (2008) Ectomycorrhizal fungi in mineral soil. Mineralogical Magazine72: 131-134.
Rosling A, Suttle KB, JohanssonE, van Hees PAW, BanfieldJF (2007) Phosphorus availability affects soil fungal dissolution of apatite. Geobiology, 5: 265-280.
van Hees PAW, Rosling A, Finlay RD (2006) The impact of trees, ectomycorrhiza and potassium availability on simple organic compounds and dissolved organic carbon in soil. Soil Biology and Biochemistry, 38: 1912-1923.
van Hees PAW, Rosling A, Lundström US, Finlay RD (2006) The biogeochemical impact of ectomycorrhizal conifers on major soil elements (Al, Fe, K and Si). Geoderma,136: 364 – 377.
van Hees PAW, Rosling A, Essén S, Godbold DL, Jones DL, Finlay RD (2005) Oxalate and ferricrocin exudation by the extramatrical mycelium of an ectomycorrhizal fungus in symbiosis with Pinus sylvestris. New Phytologist, 169: 367-378.
Püttsepp Ü, Rosling A, Taylor AFS (2004) Ectomycorrhizal fungal communities associated with Salix viminalis L. and S. dasyclados Wimm. clones in a short-rotation forestry plantation. Forest Ecology and Management, 196: 413–424.
Hoffland E, Kuyper TW, Wallander H, Plassard C, Gorbushina AA, Haselwandter K, Holmström S, Landeweert R, Lundström US, Rosling A, Sen R, Smits MM, van Hees PAW, van Breemen N (2004) The role of fungi in weathering. Frontiers in Ecology and the Environment, 2: 258-264.
Rosling A, Lindahl BD, Finlay RD(2004) Carbon allocation to ectomycorrhizal roots and mycelium colonising different mineral substrates. New Phytologist,162: 795-802.
Rosling A, Lindahl BD, Taylor AFS, Finlay RD (2004) Mycelial growth and substrate acidification of ectomycorrhizal fungi in response to different minerals. FEMS Microbiology Ecology, 47: 31-37.
Rosling A, Landeweert R, Lindahl BD, Larsson K-H, Kuyper TW, Taylor AFS, Finlay RD (2003) Vertical distribution of ectomycorrhizal fungi in a podzol profile. New Phytologist, 159: 775-783.
Landeweert R, Leeflang P, Kuyper TW, Hoffland E, Rosling A, Wernars K, Smit E (2003) Beyond the Roots: Molecular Identification of Ectomycorrhizal Mycelium in Soil Horizons. Applied and Environmental Microbiology, 69, 327-333.
Taylor AFS, Jonsson L, Jonsson M, Rosling A, Hills A & Simonini G (2001) Species delineation within European species of Xerocomus using internal transcribed spacer sequence data. Micologia e Vegetazione Mediterranea, 16, 171-192.
Book chapters
Rosling A, Timling I, Taylor DL (2013) Archaeorhizomycetes: Patterns of Distribution and Abundance in Soil. In: Genomics of Soil- and Plant. Associated Fungi, Horwitz BA, Mukherjee PK, Mukherhee M, Kubicek CP (eds), pp. 333-349.
Rosling A, Ihrmark K (2006) Identification of ectomycorrhizal symbionts from individual root tips. In: Luster J, Finlay R (Eds.) COST 631: Handbook of methods used in rhizosphere research, Brimensdorf, Swiss Research Institute WSL. pp. 464-470.
Finlay RD, Rosling A (2005) Integrated nutrient cycles in forest ecosystems - the role of ectomycorrhizal fungi. In: Gadd GM (Ed.) Fungi in Biogeochemical Cycles, Cambridge University Press. pp 28-50.
Doctoral Thesis
Rosling A (2003) Responses of Ectomycorrhizal Fungi to Mineral Substrates, Acta Universitatis Agriculturae Sueciae, Silvestria 296, Uppsala.
Popular scientific publication (in Swedish)
Rosling A (2011) Archaeorhizomycetes – en ny klass av basala svampar. Svensk Mykologisk Tidskrift 32 (2): 11–14.
Rosling A (2009) Svampar ger träden näring. Miljöforskning, 2, 34-35. (English translation published on line in Sustainability)
Rosling A, Finlay R (2004) Mykorrhizasvampar kan vittra mineraljord. Fakta Skog, 15.
Rosling A, Lindahl B, Ahonen-Jonnarth U, Unestam T, Finlay R (1998) Mikrobiell vittring, mikronäringskedjor och mykorrhizasvampars inverkan på markförsurningens effekter. Växtskyddsnotiser Tema: Mycorrhiza, 62, 73-77.