Plants and Climate Change

Global climate change: atmospheric CO2 enrichment, global warming and stratospheric ozone depletion.- Responses of terrestrial Antarctic ecosystems to climate change.- Atmospheric CO2 enrichment.- Vascular plant responses to elevated CO2 in a temperate lowland Sphagnum peatland.- Moss responses to elevated CO2 and variation in hydrology in a temperate lowland peatland.- From transient to steady-state response of ecosystems to atmospheric CO2-enrichment and global climate change: conceptual challenges and need for an integrated approach.- Plant performance in a warmer world: general responses of plants from cold, northern biomes and the importance of winter and spring events.- Global warming.- Stable isotope ratios as a tool for assessing changes in carbon and nutrient sources in Antarctic terrestrial ecosystems.- Upscaling regional emissions of greenhouse gases from rice cultivation: methods and sources of uncertainty.- Stratospheric ozone depletion.- Effects of enhanced UV-B radiation on nitrogen fixation in arctic ecosystems.- Stratospheric ozone depletion: high arctic tundra plant growth on Svalbard is not affected by enhanced UV-B after 7 years of UV-B supplementation in the field.- Outdoor studies on the effects of solar UV-B on bryophytes: overview and methodology.- Reconstruction of Past Climates using plant derived proxies.- A vegetation, climate and environment reconstruction based on palynological analyses of high arctic tundra peat cores (5000–6000 years BP) from Svalbard.- Physiognomic and chemical characters in wood as palaeoclimate proxies.- The occurrence of p-coumaric acid and ferulic acid in fossil plant materials and their use as UV-proxy.- Biomacromolecules of algae and plants and their fossil analogues.