In the last half century, because of the raising world population and because of the many environmental issues posed by the industrialization, the amount of arable land per person has declined from 0.32 ha in 1961–1963 to 0.21 ha in 1997–1999 and is expected to drop further to 0.16 ha by 2030 and therefore is a severe menace to food security (FAO 2006). At the same time, about 12 million ha of irrigated land in the developing world has lost its productivity due to waterlogging and salinity. Waterlogging is a major problem for plant cultivation in many regions of the world. The reasons are in part due to climatic change that leads to the increased number of precipitations of great intensity, in part to land degradation. Considering India alone, the total area suffering from waterlogging is estimated to be about 3.3 million ha (Bhattacharya 1992), the major causes of waterlogging include super- ous irrigation supplies, seepage losses from canal, impeded sub-surface drainage, and lack of proper land development. In addition, many irrigated areas are s- jected to yield decline because of waterlogging due to inadequate drainage systems. Worldwide, it has been estimated that at least one-tenth of the irrigated cropland suffers from waterlogging.
Author(s): Lars H. Wegner (auth.), Stefano Mancuso, Sergey Shabala (eds.)
Edition: 1
Publisher: Springer-Verlag Berlin Heidelberg
Year: 2010
Language: English
Pages: 294
Tags: Plant Physiology; Agriculture; Forestry; Membrane Biology; Cell Biology; Plant Biochemistry
Front Matter....Pages i-xix
Front Matter....Pages 1-1
Oxygen Transport in Waterlogged Plants....Pages 3-22
Waterlogging and Plant Nutrient Uptake....Pages 23-35
Strategies for Adaptation to Waterlogging and Hypoxia in Nitrogen Fixing Nodules of Legumes....Pages 37-59
Oxygen Transport in the Sapwood of Trees....Pages 61-75
Front Matter....Pages 78-78
pH Signaling During Anoxia....Pages 79-98
Programmed Cell Death and Aerenchyma Formation Under Hypoxia....Pages 99-118
Oxygen Deprivation, Metabolic Adaptations and Oxidative Stress....Pages 119-147
Front Matter....Pages 151-151
Root Water Transport Under Waterlogged Conditions and the Roles of Aquaporins....Pages 151-180
Root Oxygen Deprivation and Leaf Biochemistry in Trees....Pages 181-195
Membrane Transporters and Waterlogging Tolerance....Pages 197-219
Ion Transport in Aquatic Plants....Pages 221-238
Front Matter....Pages 240-240
Genetic Variability and Determinism of Adaptation of Plants to Soil Waterlogging....Pages 241-265
Improvement of Plant Waterlogging Tolerance....Pages 267-285
Back Matter....Pages 287-294
