Plant Growth and Climate ChangeJames I. L. Morison, Michael D. Morecroft Evidence grows daily of the changing climate and its impact on plants and animals. Plant function is inextricably linked to climate and atmospheric carbon dioxide concentration. On the shortest and smallest scales, the climate affects the plant’s immediate environment and so directly influences physiological processes. At larger scales, the climate influences species distribution and community composition, as well as the viability of different crops in managed ecosystems. Plant growth also influences the local, regional and global climate, through the exchanges of energy and gases between the plants and the air around them.
Plant Growth and Climate Change examines the major aspects of how anthropogenic climate change affects plants, focusing on several key determinants of plant growth: atmospheric CO2, temperature, water availability and the interactions between these factors. The book demonstrates the variety of techniques used across plant science: detailed physiology in controlled environments; observational studies based on long-term data sets; field manipulation experiments and modelling. It is directed at advanced-level university students, researchers and professionals across the range of plant science disciplines, including plant physiology, plant ecology and crop science. It will also be of interest to earth system scientists. |
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abscisic acid agriculture apoplastic atmospheric CO2 autotrophic biomass Bunce canopy carbon dioxide climate change CO2 concentration competition crop cycling dark respiration decrease drought Ecol Ecology ecosystem elevated carbon dioxide elevated CO2 environmental estimates Europe example experimental Figure flowering fluxes forest function G’DAY Global Change Biol grassland greenhouse gas growing season heterotrophic hydraulic impact increasing CO2 interactions IPCC irrigation KĻorner leaf litter long-term maize measurements Menzel metabolism N/C ratio nitrogen nitrogen cycling nutrient Oecologia parameters Pereira phenological photoperiod photosynthesis physiological Phytol Plant Cell Environ plant communities plant growth Plant Physiol plant responses plant species plant water precipitation predictions processes rainfall reduced regions respiration result rising CO2 root rubisco Scenario simulated soil water spatial stomatal stomatal conductance studies temperature timescales transpiration trees trends turgor uptake variability vegetation warming water deficits water potential whole plant xylem yield Ziska