Acclimation to soil flooding - sensing and signal-transduction

Flooding results in major changes in the soil environment. The slow diffusion rate of gases in water limits the oxygen supply, which affects aerobic root respiration as well as many (bio)geochemical processes in the soil. Plants from habitats subject to flooding have developed several ways to acclim...

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Published in	Plant and soil Vol. 274; no. 1-2; pp. 197 - 214
Main Authors	Visser, E.J.W, Voesenek, L.A.C.J
Format	Journal Article
Language	English
Published	Dordrecht Springer 01.07.2005 Springer Nature B.V
Subjects	Acclimation Acclimatization Adventitious roots Apoptosis Auxins Biogeochemistry Corn Diffusion Ethylene flooded conditions Flooding Floods Gases Habitat Hypoxia literature reviews Metabolism Molecular modelling Morphology Oxygen plant biochemistry plant hormones plant physiology Plant roots Plants Respiration Reviews Rice Root development Root physiology – from gene to function root systems Roots Signal transduction Soil Soil environment soil water content soil-plant interactions Soils
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Abstract	Flooding results in major changes in the soil environment. The slow diffusion rate of gases in water limits the oxygen supply, which affects aerobic root respiration as well as many (bio)geochemical processes in the soil. Plants from habitats subject to flooding have developed several ways to acclimate to these growth-inhibiting conditions, ranging from pathways that enable anaerobic metabolism to specific morphological and anatomical structures that prevent oxygen shortage. In order to acclimate in a timely manner, it is crucial that a flooding event is accurately sensed by the plant. Sensing may largely occur in two ways: by the decrease of oxygen concentration, and by an increase in ethylene. Although ethylene sensing is now well understood, progress in unraveling the sensing of oxygen has been made only recently. With respect to the signal-transduction pathways, two types of acclimation have received most attention. Aerenchyma formation, to promote gas diffusion through the roots, seems largely under control of ethylene, whereas adventitious root development appears to be induced by an interaction between ethylene and auxin. Parts of these pathways have been described for a range of species, but a complete overview is not yet available. The use of molecular-genetic approaches may fill the gaps in our knowledge, but a lack of suitable model species may hamper further progress.
AbstractList	Flooding results in major changes in the soil environment. The slow diffusion rate of gases in water limits the oxygen supply, which affects aerobic root respiration as well as many (bio)geochemical processes in the soil. Plants from habitats subject to flooding have developed several ways to acclimate to these growth-inhibiting conditions, ranging from pathways that enable anaerobic metabolism to specific morphological and anatomical structures that prevent oxygen shortage. In order to acclimate in a timely manner, it is crucial that a flooding event is accurately sensed by the plant. Sensing may largely occur in two ways: by the decrease of oxygen concentration, and by an increase in ethylene. Although ethylene sensing is now well understood, progress in unraveling the sensing of oxygen has been made only recently. With respect to the signal-transduction pathways, two types of acclimation have received most attention. Aerenchyma formation, to promote gas diffusion through the roots, seems largely under control of ethylene, whereas adventitious root development appears to be induced by an interaction between ethylene and auxin. Parts of these pathways have been described for a range of species, but a complete overview is not yet available. The use of molecular-genetic approaches may fill the gaps in our knowledge, but a lack of suitable model species may hamper further progress. Issue Title: Root Physiology - from Gene to Function Flooding results in major changes in the soil environment. The slow diffusion rate of gases in water limits the oxygen supply, which affects aerobic root respiration as well as many (bio)geochemical processes in the soil. Plants from habitats subject to flooding have developed several ways to acclimate to these growth-inhibiting conditions, ranging from pathways that enable anaerobic metabolism to specific morphological and anatomical structures that prevent oxygen shortage. In order to acclimate in a timely manner, it is crucial that a flooding event is accurately sensed by the plant. Sensing may largely occur in two ways: by the decrease of oxygen concentration, and by an increase in ethylene. Although ethylene sensing is now well understood, progress in unraveling the sensing of oxygen has been made only recently. With respect to the signal-transduction pathways, two types of acclimation have received most attention. Aerenchyma formation, to promote gas diffusion through the roots, seems largely under control of ethylene, whereas adventitious root development appears to be induced by an interaction between ethylene and auxin. Parts of these pathways have been described for a range of species, but a complete overview is not yet available. The use of molecular-genetic approaches may fill the gaps in our knowledge, but a lack of suitable model species may hamper further progress.[PUBLICATION ABSTRACT]
Author	Visser, E.J.W Voesenek, L.A.C.J
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Snippet	Flooding results in major changes in the soil environment. The slow diffusion rate of gases in water limits the oxygen supply, which affects aerobic root... Issue Title: Root Physiology - from Gene to Function Flooding results in major changes in the soil environment. The slow diffusion rate of gases in water...
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SubjectTerms	Acclimation Acclimatization Adventitious roots Apoptosis Auxins Biogeochemistry Corn Diffusion Ethylene flooded conditions Flooding Floods Gases Habitat Hypoxia literature reviews Metabolism Molecular modelling Morphology Oxygen plant biochemistry plant hormones plant physiology Plant roots Plants Respiration Reviews Rice Root development Root physiology – from gene to function root systems Roots Signal transduction Soil Soil environment soil water content soil-plant interactions Soils
Title	Acclimation to soil flooding - sensing and signal-transduction
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