Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Acknowledgements
- List of abbreviations
- 1 Terrestrial photosynthesis in a changing environment
- Part I Photosynthesis
- Part II Measuring photosynthesis
- Part III Photosynthetic response to single environmental factors
- 16 Photosynthetic responses to radiation
- 17 Photosynthetic responses to increased CO2 and air pollutants
- 18 Response of photosynthesis to low temperature
- 19 Photosynthetic responses to high temperature
- 20 Photosynthesis under water deficits, flooding and salinity
- 21 Photosynthetic responses to nutrient deprivation and toxicities
- 22 Photosynthetic responses to biotic stress
- Part IV Photosynthesis in time
- Part V Photosynthesis in space
- Part VI Photosynthesis in a global context
- References
- Index
20 - Photosynthesis under water deficits, flooding and salinity
Published online by Cambridge University Press: 05 March 2013
- Frontmatter
- Contents
- List of contributors
- Preface
- Acknowledgements
- List of abbreviations
- 1 Terrestrial photosynthesis in a changing environment
- Part I Photosynthesis
- Part II Measuring photosynthesis
- Part III Photosynthetic response to single environmental factors
- 16 Photosynthetic responses to radiation
- 17 Photosynthetic responses to increased CO2 and air pollutants
- 18 Response of photosynthesis to low temperature
- 19 Photosynthetic responses to high temperature
- 20 Photosynthesis under water deficits, flooding and salinity
- 21 Photosynthetic responses to nutrient deprivation and toxicities
- 22 Photosynthetic responses to biotic stress
- Part IV Photosynthesis in time
- Part V Photosynthesis in space
- Part VI Photosynthesis in a global context
- References
- Index
Summary
Introduction
Drought, salinity and flooding are among the most important abiotic stresses affecting plant growth and survival in large areas of the globe. They affect natural ecosystems, plantations and croplands, therefore posing large problems to nature conservation and to farmers and foresters. Drought is a major concern not only in the arid and semi-arid zones, but is also increasingly affecting temperate regions that are now subjected to occasional severe drought spells (IPCC2007 www.ipcc.ch). Alternatively, the same IPCC report indicates an increased occurrence of heavy precipitation and tropical cyclone activity, leading to more frequent flooding events. Salinity and flooding are often secondary stresses following years of incorrect and unsustainable irrigation practices, leading to increased soil salinity and the rise of phreatic soil-water. Flooding can have catastrophic impacts on the productivity of arable farmland, as most crops are intolerant to excess water (Voesenek et al., 2006). Moreover, drought and salt stresses are commonly accompanied by high temperatures and high irradiances that exacerbate the negative impact of each stress acting in isolation (Mittler, 2006).
The primary effects of drought and salinity are similar, as salinity in the soil reduces osmotic potential, making it harder for roots to extract water (Munns, 2002; Munns and Tester, 2008). On the contrary, under flooding water availability is high but O2 availability for root respiration is restricted owing to its slow diffusion in water, limiting root growth (Blom and Voesenek, 1996; Bailey Serres and Voesenek, 2008).
- Type
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- Information
- Terrestrial Photosynthesis in a Changing EnvironmentA Molecular, Physiological, and Ecological Approach, pp. 299 - 311Publisher: Cambridge University PressPrint publication year: 2012
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