Cover image for Plants in Alpine Regions Cell Physiology of Adaption and Survival Strategies
Plants in Alpine Regions Cell Physiology of Adaption and Survival Strategies
Title:
Plants in Alpine Regions Cell Physiology of Adaption and Survival Strategies
ISBN:
9783709101360
Edition:
1st ed. 2012.
Publication Information New:
Vienna : Springer Vienna : Imprint: Springer, 2012.
Physical Description:
XII, 202 p. online resource.
Contents:
Preface -- 1 Rain and snow at high elevation: The interaction of water, energy and trace substances -- 2 Solar radiation of the High Alps -- 3 Bioclimatic temperatures in the High Alps -- 4 Physiological and ultrastructural changes in alpine plants exposed to high UV and to high ozone -- 5 Cell organelle structures and functions in alpine and polar plants are influenced by growth conditions and climate -- 6 Dynamic of tissue heat tolerance and thermotolerance of PS II in alpine plants -- 7 Photosynthesis and antioxidant protection in alpine herbs -- 8 Specificities of metabolite profiles in alpine plants -- 9 Interaction of Carbon and Nitrogen metabolisms in alpine plants -- 10 From the flower bud to the mature seed: timing and dynamics of flower and seed development in high-mountain plants -- 11 Plant water relations in alpine winter -- 12 Ice formation and propagation in alpine plants -- 13 Cell structure and physiology of alpine snow and ice algae -- 14 Psychrophilic microorganisms in alpine soils.
Abstract:
This book brings together experts from different fields, who used a broad spectrum of methods to investigate the physiological and cellular adaptation of alpine plants from the tree line to the upper limits. Some articles link alpine plant physiology with physiological adaptations observed in polar plants. Tolerance against often high light intensities (including UV), cold or freezing temperatures, in addition to the need for fast tissue development, flowering, and propagation that is managed by alpine plants are to some extent underrepresented in recent research. This volume considers ice formation and winter conditions in alpine plants; the fate of cryophilic algae and microorganisms; cell structural adaptations; sexual reproduction in high altitudes; the physiology of photosynthesis, antioxidants, metabolites, carbon and nitrogen; and the influences of microclimate (temperatures at the plant level, heat tolerance), UV light, weather and ozone. Further information on life processes in alpine extreme environments may additionally yield new insights into the range of adaptation processes in lowland plants.  .
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Language:
English