Over the last decade, the extent and severity of heat and light stress, often in combination with water scarcity, have caused extensive agricultural losses all over the world. There is consensus that the Vitis vinifera L. displays large variations in terms of tolerance to abiotic summer stresses, i.e. excessive temperature and radiation, water shortage in the soil and high leaf-to-air water vapour pressure deficit (VPD), both when considered alone or in combination. However, a quantification of the effects of such factors on source function and sink strength is crucial to avoid severe imbalances between vine growth and yield, to optimize the use of natural resources, especially water and light, and to develop appropriate management strategi...
Background and Aims: Studies of the interactive effects of drought and high temperature on the physi...
Heatwaves and droughts pose a growing threat to viticulture, and it is crucial to identify physiolog...
This experiment was carried out during the 2009 growing season in order to evaluate the ecophysiolog...
Over the last decade, the extent and severity of heat and light stress, often in combination with wa...
The projected increase in temperature and water scarcity represents a challenge for winegrowers due ...
The projected increase in temperature and water scarcity represents a challenge for winegrowers due ...
Heat stress (HS) and water stress (WS) pose severe threats to viticulture, and effective management ...
Heat stress (HS) and water stress (WS) pose severe threats to viticulture, and effective management ...
Vitis vinifera L. adapts well to a scarce availability of water in the soil. However, in recent deca...
The increasing risk of water deficit stress due to global warming subjects winegrowers of traditiona...
Rising temperatures in most agricultural regions of the world are associated with a higher incidence...
During the growing season, both temperature and light intensity have major impact on plant growth an...
The identification of drought-resistant genotypes of Vitis vinifera that can optimize their water us...
International audienceA comparative study of soil-plant water relations was conducted on three grape...
Grapevine cultivation, such as the whole horticulture, is currently challenged by several factors, a...
Background and Aims: Studies of the interactive effects of drought and high temperature on the physi...
Heatwaves and droughts pose a growing threat to viticulture, and it is crucial to identify physiolog...
This experiment was carried out during the 2009 growing season in order to evaluate the ecophysiolog...
Over the last decade, the extent and severity of heat and light stress, often in combination with wa...
The projected increase in temperature and water scarcity represents a challenge for winegrowers due ...
The projected increase in temperature and water scarcity represents a challenge for winegrowers due ...
Heat stress (HS) and water stress (WS) pose severe threats to viticulture, and effective management ...
Heat stress (HS) and water stress (WS) pose severe threats to viticulture, and effective management ...
Vitis vinifera L. adapts well to a scarce availability of water in the soil. However, in recent deca...
The increasing risk of water deficit stress due to global warming subjects winegrowers of traditiona...
Rising temperatures in most agricultural regions of the world are associated with a higher incidence...
During the growing season, both temperature and light intensity have major impact on plant growth an...
The identification of drought-resistant genotypes of Vitis vinifera that can optimize their water us...
International audienceA comparative study of soil-plant water relations was conducted on three grape...
Grapevine cultivation, such as the whole horticulture, is currently challenged by several factors, a...
Background and Aims: Studies of the interactive effects of drought and high temperature on the physi...
Heatwaves and droughts pose a growing threat to viticulture, and it is crucial to identify physiolog...
This experiment was carried out during the 2009 growing season in order to evaluate the ecophysiolog...