Mattias Edman
Forskare|Researcher
- Tjänstetitel: Forskare
- Akademisk titel: Docent
- Annan titel: Associate professor
- Telefon arbete: +46 (0)10-1428429
- E-postadress: mattias.edman@miun.se
- Rumsnummer: ON212c
- Ort: Sundsvall
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- Anställd inom ämnet:
- Biologi
Forskningsområden
My research primarily focuses on the ecological impacts of land use practices on the biodiversity and functioning of boreal forests. Additionally, I investigate how forest biodiversity and ecosystem functioning can be restored through active management strategies that emulate natural processes. A central theme of my work involves exploring the direct and indirect roles of forest fires and fire-mimicking practices in shaping forest structure, woody substrates, and associated biodiversity.
Forskningsprojekt
Pågående
Avslutade
Publikationer
Artiklar i tidskrifter
Artiklar, forskningsöversikter
Dataset
Artiklar i tidskrifter
Hacıoğlu, B. , Dupaul, G. , Paladino, G. , Edman, M. & Hedenström, E. (2024). Unlocking the biodegradative potential of native white-rot fungi : a comparative study of fiberbank organic pollutant mycoremediation. Bioengineered, vol. 15: 1
Edman, M. , Eriksson, A. , Carlsson, F. & Rydkvist, T. (2024). Veteranising Scots pine trees by initiating tree hollowing : Inoculation with the fungal keystone species Porodaedalia pini. Fungal ecology, vol. 72
Edman, M. , Hagos, S. & Carlsson, F. (2021). Warming effects on wood decomposition depend on fungal assembly history. Journal of Ecology, vol. 109: 4, ss. 1919-1930.
Ljunggren, J. , Bylund, D. , Jonsson, B. , Edman, M. & Hedenström, E. (2020). Antifungal efficiency of individual compounds and evaluation of non-linear effects by recombining fractionated turpentine. Microchemical journal (Print), vol. 153
Ljunggren, J. , Edman, M. , Jonsson, B. , Bylund, D. & Hedenström, E. (2020). Evaluation of fractionally distilled Picea abies TMP-turpentine on wood-decaying fungi : in vitro, microcosm and field experiments. Wood Science and Technology, vol. 54, ss. 847-868.
Sandström, J. , Edman, M. & Jonsson, B. (2020). Rocky pine forests in the High Coast Region in Sweden: structure, dynamics and history. Nature Conservation, vol. 38, ss. 101-130.
Zhang, R. , Carlsson, F. , Edman, M. , Hummelgård, M. , Jonsson, B. , Bylund, D. & Olin, H. (2018). Escherichia coli Bacteria Develop Adaptive Resistance to Antibacterial ZnO Nanoparticles. Advanced Biosystem, vol. 2: 5
Venugopal, P. , Junninen, K. , Edman, M. & Kouki, J. (2017). Assemblage composition of fungal wood-decay species has major influence on how climate and wood quality modify decomposition. FEMS Microbiology Ecology, vol. 93: 3
Carlsson, F. , Edman, M. & Jonsson, B. (2017). Increased CO2 evolution caused by heat treatment in wood-decaying fungi. Mycological progress, vol. 16: 5, ss. 513-519.
Venugopal, P. , Junninen, K. , Linnakoski, R. , Edman, M. & Kouki, J. (2016). Climate and wood quality have decayer-specific effects on fungal wood decomposition. Forest Ecology and Management, vol. 360, ss. 341-351.
Edman, M. & Eriksson, A. (2016). Competitive outcomes between wood-decaying fungi are altered in burnt wood. FEMS Microbiology Ecology, vol. 92: 6, ss. 1-7.
Hedenström, E. , Fagerlund-Edfeldt, A. , Edman, M. & Jonsson, B. (2016). Resveratrol, piceatannol, and isorhapontigenin from Norway spruce (Picea abies) debarking wastewater as inhibitors on the growth of nine species of wood-decaying fungi. Wood Science and Technology, vol. 50: 3, ss. 617-629.
Edman, M. , Eriksson, A. & Villard, M. (2016). The importance of large-tree retention for the persistence of old-growth epiphytic bryophyte Neckera pennata in selection harvest systems. Forest Ecology and Management, vol. 372, ss. 143-148.
Ottosson, E. , Kubartova, A. , Edman, M. , Jönsson, M. , Lindhe, A. , Stenlid, J. & Dahlberg, A. (2015). Diverse ecological roles within fungal communities in decomposing logs of Picea abies. FEMS Microbiology Ecology, vol. 91: 3
Fagerlund-Edfeldt, A. , Hedenström, E. , Edman, M. & Jonsson, B. G. (2014). Effect of Debarking Water from Norway Spruce (Picea abies) on the Growth of Five Species of Wood-Decaying Fungi. Zeitschrift für Naturforschung C - A Journal of Biosciences, vol. 9-10: 69c, ss. 418-424.
Carlsson, F. , Edman, M. , Holm, S. & Jonsson, B. G. (2014). Effect of heat on interspecific competition in saprotrophic wood fungi. Fungal ecology, vol. 11, ss. 100-106.
Ottosson, E. , Nordén, J. , Dahlberg, A. , Edman, M. , Jönsson, M. , Larsson, K. , Olsson, J. , Penttillä, R. & et al. (2014). Species associations during the succession of wood-inhabiting fungal communities. Fungal ecology, vol. 11, ss. 17-28.
Edman, M. & Fällström, I. (2013). An introduced tree species alters the assemblage structure and functional composition of wood-decaying fungi in microcosms. Forest Ecology and Management, vol. 306, ss. 9-14.
Eriksson, A. , Olsson, J. , Jonsson, B. G. , Toivanen, S. & Edman, M. (2013). Effects of restoration fire on deadwood heterogeneity and availability in three Pinus sylvestris forests in Sweden. Silva Fennica, vol. 47: 2, ss. Art. no. 954
Carlsson, F. , Edman, M. , Holm, S. , Eriksson, A. & Jonsson, B. G. (2012). Increased heat resistance in mycelia from wood fungi prevalent in forests characterized by fire : a possible adaptation to forest fire.. Fungal Biology, vol. 116: 10, ss. 1025-1031.
Olsson, J. , Johansson, T. , Jonsson, B. G. , Hjältén, J. , Edman, M. & Ericson, L. (2012). Landscape and substrate properties affect species richness and community composition of saproxylic beetles. Forest Ecology and Management, vol. 286, ss. 108-120.
Jönsson, M. , Edman, M. & Jonsson, B. G. (2008). Colonization and extinction patterns of wood-decaying fungi in a boreal old-growth Picea abies forest. Journal of Ecology, vol. 96: 5, ss. 1065-1075.
Edman, M. , Eriksson, A. & Villard, M. (2008). Effects of selection cutting on the abundance and fertility of indicator lichens Lobaria pulmonaria and Lobaria quercizans. Journal of Applied Ecology, vol. 45: 1, ss. 26-33.
Poulin, J. , Villard, M. , Edman, M. , Goulet, P. J. & Eriksson, A. (2008). Thresholds in nesting habitat requirements of an old forest specialist, the Brown Creeper (Certhia americana), as conservation targets. Biological Conservation, vol. 141: 4, ss. 1129-1137.
Edman, M. , Jönsson, M. & Jonsson, B. G. (2007). Fungi and wind strongly influence the temporal availability of logs in an old-growth spruce forest. Ecological Applications, vol. 17: 2, ss. 482-490.
Edman, M. , Möller, R. & Ericson, L. (2006). Effects of enhanced tree growth rate on the decay capacities of three saprotrophic wood-fungi. Forest Ecology and Management, vol. 232: 1-3, ss. 12-18.
Berglund, H. , Edman, M. & Ericson, L. (2005). Temporal variation of wood-fungi diversity in boreal old-growth forests: Implications for monitoring. Ecological Applications, vol. 15: 3, ss. 970-982.
Edman, M. , Gustafsson, M. , Stenlid, J. & Ericson, L. (2004). Abundance and viability of fungal spores along a forestry gradient: responses to habitat loss and isolation?. Oikos, vol. 104: 1, ss. 35-42.
Edman, M. , Kruys, N. & Jonsson, B. G. (2004). Local dispersal sources strongly affect colonization patterns of wood-decaying fungi on experimental spruce logs. Ecological Applications, vol. 14: 3, ss. 893-901.
Edman, M. , Gustafsson, M. , Stenlid, J. , Jonsson, B. G. & Ericson, L. (2004). Spore deposition of wood-decaying fungi : Importance of landscape composition. Ecography, vol. 27: 1, ss. 103-111.
Edman, M. & Gustafsson, M. (2003). Wood-disc traps provide a robust method for studying spore dispersal of wood-decaying basidiomycetes. Mycologia, vol. 95: 3, ss. 553-556.
Edman, M. & Jonsson, B. G. (2001). Spatial pattern of downed logs and wood-living fungi in an old-growth spruce forest. Journal of Vegetation Science, vol. 12: 5, ss. 609-620.
Dettki, H. , Edman, M. , Esseen, P. , Hedenås, H. , Jonsson, B. G. , Kruys, N. , Moen, J. & Renhorn, K. E. (1998). Screening for species potentially sensitive to habitat fragmentation. Ecography, vol. 21: 6, ss. 649-652.
Artiklar, forskningsöversikter
Undin, M. , Atrena, A. , Carlsson, F. , Edman, M. , Jonsson, B. & Sandström, J. (2024). To what extent does surrounding landscape explain stand-level occurrence of conservation-relevant species in fragmented boreal and hemi-boreal forest? : – a systematic review. Environmental Evidence, vol. 13: 1
Undin, M. , Atrena, A. , Carlsson, F. , Edman, M. , Jonsson, B. G. & Sandström, J. (2022). To what extent does surrounding landscape explain stand-level occurrence of conservation-relevant species in fragmented boreal and hemi-boreal forest?–a systematic review protocol. Environmental Evidence, vol. 11: 1
Manuskript
Edman, M. , Jönsson, M. & Jonsson, B. G. Small-scale fungal- and wind-mediated disturbances strongly influence the temporal availability of logs in an old-growth Picea abies forest.
Carlsson, F. , Edman, M. & Jonsson, B. Increased decomposition, triggered by heat shock found in wood fungi.
Carlsson, F. , Koch, C. , Edman, M. & Holm, S. Testing the probability of finding major decomposing basidiomycetes in logs with T-RFLP - implications for field sampling.
Sandström, J. , Carlsson, F. , Edman, M. , Wei, Y. & Jonsson, B. Wood-inhabiting fungi in rocky pine forests in the High Coast Region in Sweden.
Dataset
Edman, M. (2021). Warming effects on wood decomposition depend on fungal assembly history : Mid Sweden university..