ÐÒÔË·Éͧ¼Æ»®

The general objective of SeedClim is to provide a mechanistic understanding of how ongoing and future climate change affects plants at landscape to regional scales. To achieve this we have developed a new methodological framework allowing us to explore how climate-change effects vary along two major climate gradients--temperature and precipitation--and how these effects scale across levels of organisation from individuals via populations to communities.

The western Norwegian fjord landscapes allow us to set up a grid of study sites along independent temperature and precipitation gradients, enabling us to study the unique and combined effects of a warmer and a wetter climate.

Our 12 experimental sites are located in a climate grid where four levels of annual precipitation (600, 1200, 2000 and 2700 mm) are combined with three levels of mean summer temperatures (7.5, 9.5, and 11.5°C) while keeping all other variables as constant as possible. In collaboration with met.no we installed climate stations that record temperature, precipitation, and soil moisture at each site since 2009.

Within the climatic grid, we have transplanted turfs (25 x 25 cm) of intact plant communities from cold and/or dry conditions towards warmer and/or wetter conditions matching the regional climate projections for the future. In these turfs we monitor plant community and population responses, along with one-off measurements of a range of responses, including microbial communities, bryophytes, and seedling recruitment.Ìý

We have also transplanted seeds of three species pairs of alpine specialists and lowland generalists in the same manner (Veronica alpina vs. ÌýV. officinalis, Viola biflora vs. ÌýV. palustris, Carex capillaris vs. ÌýC. pallescens) to assess climate impacts on plant resgeneration

Additional experiments

In addition to our main approach, the transplant experiments, we also have other experiments and studies running in the SEEDCLIM GRID:

• A graminoid removal expeiment to assess the impacts of changing competitive interactions on plant community and population-level responses along the climate gradients
• A gap experiment to assess impacts on gap regeneration
• A seedrain and seedbank study
• A seedsowing experiment to assess tree seedling recrutment (collaboration with M. Ohlson, NMBU)

Ìý

Collaborating Projects

See under Related content below

Ìý

Project partners

Vigdis Vandvik, ÐÒÔË·Éͧ¼Æ»®, project leader
Kari Klanderud, Norwegian University of Life Sciences (NMBU), community ecology, interactions
Olav Skarpaas, Norwegian Institute for Nature Management (NINA), population ecology, demography and modelling
Deborah Goldberg, University of Michigan (UM), community ecology, resource allocation, microbial communities
Richard Telford ÐÒÔË·Éͧ¼Æ»®, numerical methods, biostatistics
Øyvind Nordli, met.no, climate data monitoring and modelling
Zuzana Münzbergová, Czech Academy of Sciences, population ecology and modelling, genetic analyses
Matt I. Daws, Royal Botanic Gardens, Kew, UK / EWL Sciences, Darwin, Australia, seed ecology

Postdocs
Kari Klanderud, community ecology, interactions (2008-2011)
Pascale Michel, ÐÒÔË·Éͧ¼Æ»®, postdoc, bryophyte community ecology and ecosystem functioning (2012-2014)
Aud Halbritter, ÐÒÔË·Éͧ¼Æ»®, climate change, and pollination, phenology (2014-2019)
TBA, ÐÒÔË·Éͧ¼Æ»®, harnessing experiments for synthesis (2019-)

PhD students:
Eric Meineri, ÐÒÔË·Éͧ¼Æ»®, population biology and distributional modelling (completed 2012)
Joachim Töpper, ÐÒÔË·Éͧ¼Æ»®/ University College of Sogn and Fjordane (HiSF), population biology and seed ecophysiology
Siri Lie Olsen, NMBU, interactions, community and population dynamics
John L. Guittar, UM, plant traits and soil microbiota

Master students:
Tessa Bargmann, Oxford, plant growth and resource allocation (completed 2009)
Christine Pötsch, ÐÒÔË·Éͧ¼Æ»®, plant resource allocation (completed 2009)
Astrid Berge, ÐÒÔË·Éͧ¼Æ»®, seed dispersal and seedling recruitment (completed 2010)
Marta Ramírez Boixaderas, ÐÒÔË·Éͧ¼Æ»®, plant dispersal (completed 2012)
Joris Schwitter, ÐÒÔË·Éͧ¼Æ»®,Ìýseed predation along climate gradients (2018)

Collaborators:
Knut Rydgren, HiSF, seed and population ecology and demography
Mikael Ohlson, UMB, treeline dynamics and tree species establishment
Marianne Evju, NINA, population ecology, demography and modelling
Anita Verpe Dyrdal, met.no, climate data monitoring and modelling

Funding source: Norwegian Research council (NFR) NORKLIMA 2008-2012

Ìý

Publications

Töpper JP, Meineri E, Olsen SL, Rydgren K, Skarpaas O, & Vandvik V. 2018. . Global Change Biology 24: 4657–4666.Ìý

Klanderud K, Meineri E, TöpperÌýJP, Michel P, & Vandvik V. 2017. . Journal of Vegetation Science 28: 347-356.

Münzbergová Z, Hadincová V, Skálová H, & Vandvik V. 2017. . Journal of Ecology 105: 1358–1373. 10.1111/1365-2745.12762

Guittar J, Goldberg DE, Klanderud K, Telford RJ, & Vandvik V. 2016. Ecology 97: 2791-2801

Olsen SL, Töpper J, Skarpaas O, Vandvik V, & Klanderud K. 2016. . Global Change Ecology 22: 1915-1926.Ìý

SkarpaasÌýO, MeineriÌýE, BargmannÌýT, PötschÌýC, TöpperÌýJP, & Vandvik, V. 2016. . Perspectives in Plant Ecology, Evolution and Systematics 19: 1-11.

Vandvik V, Klanderud K, Meineri E, Måren IE, & Töpper JP. 2016. . Oikos 125: 218-228.

Klanderud K, Vandvik V, & Goldberg DE. 2015. . PLoS ONE 10: e0130205

Meineri E, Skarpås O, Spindelböck JP, Bargmann T, & Vandvik V. 2013.. Journal of Vegetation Science 25: 275-278.

Meineri E, Spindelböck JP, & Vandvik V. 2013. . Plant Ecology 214: 607-619.

Meineri E, Skarpås O, & Vandvik V. 2012. Ecological Modelling 231: 1-10.

Ìý

Theses

Bargmann T. 2009. How are plants responding to a changing climate? A case study of growth and allocation in Veronica alpina, Viola biflora, Veronica officinalis and Viola palustris in western Norway. Master thesis, Oxford University

Berge A. 2010. . Master thesis, University of Bergen

Pötsch C. 2010. Resource allocation in two selected Carex species along climate gradients. Master thesis, University of Bergen

Meineri E. 2011. . PhD thesis, University of Bergen

Ramírez Boixaderas M. 2012.. University of Bergen

OlsenÌýSL. 2014. Climate change and biotic interactions in plant communities: effects on plant recruitment and growth, population dynamics and community properties (Klimaendringer og samspillet mellon arter i plantesamfunn: effekter pÃ¥ rekruttering og plantevekst, populasjonsdynamikk og samfunnsegenskaper). PhD thesis, Norwegian University of Life Sciences.

Töpper JP. 2015. Predicting and assessing climate-change impacts on the population dynamics of alpine and lowland forbs. PhD thesis, University of Bergen

Ìý

Reports

Halbritter, A. and Michel, P (eds) and the SeedClim team (2015) Klimaendringer i din bakgåd. University of Bergen, Bergen, 68 pp.