Responsibilities at UiO Energy
- Administrative leader and Deputy director
- Interdisciplinary collaboration within research and education
- Strategy; energy, environment, climate
- HR, Financial management, Research administration
Organizational responsibilities
- Secretary: UiO:Energy Board
- UiO representative: EPUE (European Platform of Universities in Energy Research & Education), Oslo's Climate and Energy Strategy, SmartCity B?rum and UNICA Green (platform for Sustainability/Environmental Coordinators under the Network of Universities from the Capitals of Europe)
- Member og the coordination group for the governmental panel 'Topplederforum for b?rekraftsm?lene'.
- Member of RCN National Reference Group Cluster 5: Climate, energy and mobility
- Substitute member: CIENS (Oslo Centre for Interdisciplinary Environmental and Social Research) Research Forum
- Manager of education and dissemination in FME MoZEES (a Norwegian Research Center on Zero Emission Energy Systems for Transport)
- Board member in FME NTRANS (a Norwegian Centre for Energy Transition Strategies)
Background
Gr?nli has a Ph.D in Forest Ecology from the Norwegian University of Life Sciences, and an Excecutive MBA with an Energy specialisation from BI Norwegian Business School. She has experience from leading administrative positions and strategy at UiO dating back to 1996. Gr?nli was Senior Adviser at the Department of Research Administration at UiO within the areas of energy, environment and climate until 2013. Gr?nli has served as a coordinator for the establishment and administrative management of UiO:Energy until she accessed her current position.
Tags:
Energy,
Environment,
Climate
Publications
Gr?nli, K..E. 2005. Recruitment of forest plants in relation to experimentally manipulated microhabitats and soil microbial communities. Thesis (PhD, Dr. Scient), Norwegian University of Life Sciences, Department of Ecology and Natural Resource Management
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Ohlson, Mikael & Gr?nli, Katinka Elisabeth
(2006).
Recruitment and growth in Aconitum septentrionale and Actaea spicata in relation to microbial soil communities manipulated by additions of glucose and nutrients.
Flora: Morphologie, Geobotanik, Oekophysiologie.
ISSN 0367-2530.
201,
p. 215–226.
doi:
10.1016/j.flora.2005.08.002.
Show summary
Sowing experiments were used to study seedling recruitment, growth and biomass allocation patterns in the perennial forest herbs Aconitum. septentrionale and Aclaea spicata in relation to the microbial soil community. Glucose and nutrients were added every second week over a 3-year period to manipulate soil microbial activity and nutrient availability. The glucose was added (400 g glucose m(-2) yr(-1)) to reduce the nutrient availability to the plants by increasing soil microbial demands. A full nutrient solution was used to increase the nutrient availability. The experiments were performed in a deciduous forest and in an open field in South East Norway, and our study is based on a consecutive sampling of whole plants with intact root systems to be able to estimate growth and allocation patterns. Both species recruited best in the forest while their growth in the open field was ca. 100 times larger than in the forest. Shoot:root ratios were surprisingly similar in the forest and the open field sites and were only marginally affected by the glucose and nutrient treatments. However, the shoot:root ratios were characterised by highly significant seasonal variations. This was the case for both species and indicates that the shoot:root ratios were under strong ontogenetic control. Recruitment was negatively affected by glucose additions, in particular in the open field. Growth was significantly and negatively affected by glucose additions in the forest. Nutrient additions gave, as expected, a significant increase in growth. The failure of seedling recruitment and inferior growth following glucose additions support the assumption that the soil microbial community is an important determinant of plant recruitment and growth. (c) 2005 Elsevier mnbH. All rights reserved.
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Gr?nli, Katinka Elisabeth; Frosteg?rd, ?sa ; Bakken, Lars R. & Ohlson, Mikael
(2005).
Nutrient and carbon additions to the microbial soil community and its impact on tree seedlings in a boreal spruce forest.
Plant and Soil.
ISSN 0032-079X.
278(1-2),
p. 275–291.
doi:
10.1007/s11104-005-8765-9.
Show summary
We have added glucose and nutrients to manipulate soil microbial activity and nutrient availability in a boreal spruce forest to study the performance of birch and spruce seedlings in relation to the soil microbial community. The proportion of aboveground biomass in the seedlings was largest in plots amended with extra nutrients, while ectomycorrhizal (ECM) colonisation was low in these plots. ECM appeared beneficial for growth of both species, but only at low levels of colonisation (< 25% ECM colonised root-tips). The soil microbial biomass, as determined by total PLFA, was largest in plots treated with glucose and there was a significant negative relationship between birch seedling size and levels of total PLFA in soil. This could be taken to suggest that poor seedling growth was due to nutrient limitation caused by microbial assimilation. However, the treatment response of the birch seedlings was generally weak, and spruce often showed no response at all to the addition of nutrients and glucose. The most consistent parameter for the variation in plant performance, as well as for the microbial soil community, was the block-effect. This suggests a strong spatial structure in the soil microbial community, and that this structure was robust with respect to our treatments even though they continued over a 3-year period.
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Gr?nli, Katinka Elisabeth
(2004).
Biotiske interaksjoner-jordbunnssamfunnets rolle for planters etableringssuksess i skog.
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Gr?nli, Katinka Elisabeth
(2003).
Biotiske interaskjoner, jordbunssamfunnets rolle for plantenes etableringssuksess i skog.
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Published
Dec. 13, 2016 11:16 AM
- Last modified
Sep. 25, 2024 10:53 AM
