Add to ORKGABSRACT Non-hydraulic root-sourced signal (NRS) is so far affirmed to be a unique ''early-warning'' response to soil drying in plants, but little is known about the quantitative effect of this early-warning mechanism on crop production. To evaluate the link of NRS to a drought tolerance profile, a pot-culture study was carried out in a plant growth chamber with eight spring-wheat (Triticum aestivum L.) cultivars bred in semiarid China. The NRS was judged to begin when there was a significant lowering of stomatal conductance without any change in leaf relative water content (RWC), and the hydraulic root signal (HRS) was judged to begin when leaf RWC changed significantly. Soil water contents (SWC), at which the NRS and HR...
Better understanding of root system structure and function is critical to crop improvement in water-...
Ancient wheats may be a source of traits that are useful for the tolerance of climate change foresee...
Plants growing on soil with insufficient moisture need deep and dense roots to avoid water stress. I...
The aim of the present work was to test under field condition earlier climate room findings that roo...
A field study was conducted to investigate the effect of intermittent soil drying on resulting non-h...
In order to investigate the effects of soil texture on possible non-hydraulic signals under field co...
Shoot growth in wheat is sensitive to high soil strength, but as high strength and drying tend to oc...
To determine root growth and grain yield of winter wheat (Triticum aestivum L) under moderate drough...
Breeding for enhanced rooting depth and root biomass in deeper soil layers is a promising strategy t...
Selection of high-yielding traits in cereal plants led to a continuous increase in productivity. How...
Production practice shows shaded soybean in wheat-maize-soybean; relay strip intercropping system ha...
In rain-fed agricultural regions, limited rainfall and frequent unpredictable droughts have resulted...
Drought-induced soil water limitations are a limiting factor in wheat yield; therefore, the expected...
Drought adaptation of wheat is one of the most significant and complex subjects in the rain-fed agri...
Global crop production is threatened by the increasing periods of water stress arising from warmer a...
Better understanding of root system structure and function is critical to crop improvement in water-...
Ancient wheats may be a source of traits that are useful for the tolerance of climate change foresee...
Plants growing on soil with insufficient moisture need deep and dense roots to avoid water stress. I...
The aim of the present work was to test under field condition earlier climate room findings that roo...
A field study was conducted to investigate the effect of intermittent soil drying on resulting non-h...
In order to investigate the effects of soil texture on possible non-hydraulic signals under field co...
Shoot growth in wheat is sensitive to high soil strength, but as high strength and drying tend to oc...
To determine root growth and grain yield of winter wheat (Triticum aestivum L) under moderate drough...
Breeding for enhanced rooting depth and root biomass in deeper soil layers is a promising strategy t...
Selection of high-yielding traits in cereal plants led to a continuous increase in productivity. How...
Production practice shows shaded soybean in wheat-maize-soybean; relay strip intercropping system ha...
In rain-fed agricultural regions, limited rainfall and frequent unpredictable droughts have resulted...
Drought-induced soil water limitations are a limiting factor in wheat yield; therefore, the expected...
Drought adaptation of wheat is one of the most significant and complex subjects in the rain-fed agri...
Global crop production is threatened by the increasing periods of water stress arising from warmer a...
Better understanding of root system structure and function is critical to crop improvement in water-...
Ancient wheats may be a source of traits that are useful for the tolerance of climate change foresee...
Plants growing on soil with insufficient moisture need deep and dense roots to avoid water stress. I...