Add to ORKGChanges in climatic conditions are expected to directly affect agricultural production systems including rice farming. However, maintaining and increasing productivity in the face of climate change will require improved understanding of the effects of climatic factors on rice physiological traits. Increasing temperatures will lead to changes in atmospheric vapor pressure deficit (VPD). VPD can affect rice growth by affecting the water status of the plants, the thermal conditions of leaves or the canopy thereby regulating plant functions. This experiment aimed to determine the effects of VPD on growth and physiological responses of a range of rice genotypes in order to better understand these effects and their implications for adaptation to ...
The fit of rice genotypes and copping calendars into an agro-ecological niche is largely a function ...
Genetic variation in the growth response to temperature is a basis for developing adaptation measure...
The conventional system for irrigating rice uses a large amount of water. Recently a few water savin...
The vapor pressure deficit (VPD) can affect rice growth by affecting water status of the plants and/...
Rice is one of the most important crops that provide food for most of the poor in the world. Rice pr...
Climate change impacts the sustainability of agriculture. Physiological processes are very essential...
The predicted increases in global atmospheric temperatures are likely threats to rice productivity. ...
As an indispensable environment element for crop growth, air temperature has brought challenge for t...
Genetic variation in the growth response to temperature is a basis for developing adaptation measure...
Global climate change, especially in the view of severe changes in precipitation pattern, is posing ...
This review addresses the response of rice plants to (i) elevated CO2 concentrations, (ii) higher te...
Temperature is a primary factor that affects the rate of plant development and has great impacts on ...
Using two rice cultivars, the effect of severe, mild and no water stress, W3, W2 and W1, respectivel...
Heat stress is an increasing constraint for the productivity of rice (Oryza sativa L.) worldwide. In...
Rice is an important staple food in human nutrition. Due to its semi-aquatic phylogenetic origin, ri...
The fit of rice genotypes and copping calendars into an agro-ecological niche is largely a function ...
Genetic variation in the growth response to temperature is a basis for developing adaptation measure...
The conventional system for irrigating rice uses a large amount of water. Recently a few water savin...
The vapor pressure deficit (VPD) can affect rice growth by affecting water status of the plants and/...
Rice is one of the most important crops that provide food for most of the poor in the world. Rice pr...
Climate change impacts the sustainability of agriculture. Physiological processes are very essential...
The predicted increases in global atmospheric temperatures are likely threats to rice productivity. ...
As an indispensable environment element for crop growth, air temperature has brought challenge for t...
Genetic variation in the growth response to temperature is a basis for developing adaptation measure...
Global climate change, especially in the view of severe changes in precipitation pattern, is posing ...
This review addresses the response of rice plants to (i) elevated CO2 concentrations, (ii) higher te...
Temperature is a primary factor that affects the rate of plant development and has great impacts on ...
Using two rice cultivars, the effect of severe, mild and no water stress, W3, W2 and W1, respectivel...
Heat stress is an increasing constraint for the productivity of rice (Oryza sativa L.) worldwide. In...
Rice is an important staple food in human nutrition. Due to its semi-aquatic phylogenetic origin, ri...
The fit of rice genotypes and copping calendars into an agro-ecological niche is largely a function ...
Genetic variation in the growth response to temperature is a basis for developing adaptation measure...
The conventional system for irrigating rice uses a large amount of water. Recently a few water savin...