Recently published articles by members of the BioGeoClimatic Modelling Lab.

Dissertations written by members of the BioGeoClimatic Modelling Lab. Dissertations can be downloaded from the University's E-thesis service.

• Happonen, K. (2020): Trait-based selection and plant communities in high-latitude ecosystems
• Niittynen, P. (2020): Arctic vegetation, snow and the global change
• Virkkala, A.-M. (2020): Arctic Ecosystems: New Insights into Knowledge Gaps and Carbon Cycling
• Kemppinen, J. (2020): Soil moisture and its importance for tundra plants
• Niskanen, A. K. (2018): The spatial modelling of high-latitude plant richness and refugia in a changing environment
• Mod, H. K. (2016): Biotic interactions in driving biodiversity : Insights into spatial modelling
• Aalto, J. (2015): New perspectives on climate, Earth surface processes and thermal hydrological conditions in high latitude systems
• Salonen, J. S. (2012): Quantitative climate reconstructions based on fossil pollen : novel approaches to calibration, validation, and spatial data analysis

Master's theses based on the work at the BioGeoClimatic Modelling Lab. Theses are written in Finnish or English. Abstracts and full theses can be downloaded from the University's E-thesis service.

• Määttänen, A.-M. (2020): Landscape scale mapping of tundra vegetation structure at ultra-high resolution using UAVs and computer vision
• Seppälä, O. (2020): Spatial and temporal drivers of soil respiration in a tundra environment
• Kainulainen: Tundran pensastuminen: Puulajien levinneisyysmuutosten mallintamine
• Koskinen, J. (2019): Examining arctic-alpine vegetation with structural equation models
• Nordblad, N. (2019): Soil carbon stocks in a subarctic tundra environment
• Tyystjärvi, V. (2019): Soil moisture in process-based modeling in cold environments
• Rissanen, T. (2018): Arctic-alpine plant distribution in Fennoscandia
• Lindholm, M. (2018): Effects of Arctic-alpine shrubification on vegetation, soil temperature and soil moisture
• Jylhä, M. (2017): Measuring and Modeling Carbon Dioxode Flux of Arctic Alpine Environment in Landscape Scale
• Kemppinen, J. (2016): Soil moisture in an arctic landscape
• Puhjo, E. (2016): Soil pH and its effects on arctic-alpine vegetation
• Virkkala, A-M. (2016): Topsoil geochemistry and its controlling factors in a changing tundra environment
• Mäkinen, T. (2015): Periglasiaalisten prosessien mallinnus muuttuvassa ilmastossa
• Mäkinen, J. (2015): The effects of mesotopography and geomorphology on vegetations beta-diversity in arctic-alpine environment
• Niittynen, P. (2015): Arctic-alpine vegetation and soil moisture
• Niskanen, A. K. J. (2013): Variksenmarjan levinneisyys ja kasvu muuttuvassa arktis-alpiinisessa ympäristössä
• Riihimäki, H. (2013): Modelling arctic-alpine phytomass utilizing GIS and remote sensing data
• Kulonen, A. (2013): Topografian, maaperän ja geomorfologian vaikutukset putkilokasvien paikalliseen lajirunsauteen arktis-alpiinisessa ympäristössä
• Suvanto, S. (2013): Topografian, maaperän ja geomorfologian vaikutukset putkilokasvien biomassan vaihteluun oroarktisella tunturikankaalla
• Mod, H. K. (2012): Bioottisten interaktioiden merkitys ympäristögradienteilla. Esimerkkinä variksenmarjan vaikutus arktis-alpiinisessa kasvillisuudessa.
• Aalto, J. (2011): Periglasiaalisten ilmiöiden alueellinen mallintaminen subarktisessa ympäristössä