Browsing by Subject "snötäcke"

Climate warming is expected to cause changes in winter conditions in northern regions. These changes include reduced depth and duration of the snow cover, and strong fluctuations in winter temperatures. A mesocosm experiment was planned to study the short term effects of contrasting winter conditions, and an introduced species (garden lupin; Lupinus polyphyllus), on chlorophyll fluorescence and pigment concentrations of native meadow species in southern Finland. Twelve different meadow species, representing different overwintering strategies were planted in each mesocosm at the beginning of summer in 2016 in Viikki, Helsinki. One year later, a lupin was planted in half of the mesocosms. Over the winter 2017-18, one half of the mesocosms was moved to Nåtö on the Åland islands, and the other half was moved to Lammi, Hämeenlinna. To each site, both lupin-containing mesocosms and lupin free controls were moved. In the inland site in Lammi, the mesocosms spent the winter covered by a thick snow cover that isolated them from harsh air temperatures from beginning of December to end of March. In coastal Nåtö, a thin snow cover formed in January and melted by mid-March. In the experiment, the maritime winter climate on Nåtö represented such winter conditions that are expected to be common on the mainland in the future, when climate warming progresses. Leaf chlorophyll fluorescence as well as concentrations of leaf chlorophyll and flavonoids were repeatedly measured nondestructively for all species using optical apparatus. Growth and flowering of the lupin was monitored during spring and summer 2018. No marked differences were observed in the meadow species chlorophyll fluorescence and content between sites, indicating that these are well adapted to variable winter conditions. The flavonoid composition of the meadow species seemed to be regulated by seasonal changes in light intensity and temperature. Small reductions in chlorophyll content for some species indicated that these were disadvantaged by the lupins presence. This was attributed to the lupins shadowing effect. In contrast, two evergreen species seemed to take advantage of the nitrogen input from the lupin in terms of higher chlorophyll content in summer 2018. The lupin overwintered successfully in mainland Lammi, but seemed to suffer from the maritime and snow poor winter conditions in Nåtö, which led to reduced production of leaves and inflorescences during the growing season 2018. The results indicate that native meadow species in Finland are relatively tolerant of the expected changes in mainland winter conditions, whereas these changes will be disadvantageous for the lupin.