Water use efficiency (WUE) represents a given level of biomass or grain yield per unit of water used by the crop. With increasing concern about the availability of water resources in both irrigated and rainfed agriculture, there is renewed interest in trying to develop an understanding of how WUE can be improved and how farming systems can be modified to be more efficient in water use. This review and synthesis of the literature is directed toward the understanding the role of soil management practices for WUE. Soil management practices affect the processes of evapotranspiration by modifying the available water in the soil profile, or the exchange rate between the soild and the atmosphere. Plant management practices, e.g., the addition o...
Land conversion from natural to managed ecosystems, while necessary for food production, continues t...
Water Use Efficiency based on yield biomass Water Use Efficiency (WUE) is the ratio of fruit yield ...
Water and nitrogen (N) are two key limiting factors in global crop production. However, the optimiza...
Water use efficiency (WUE) represents a given level of biomass or grain yield per unit of water used...
Crop production throughout the world is dependent on soil water availability either directly through...
Crop production throughout the world is dependent on soil water availability either directly through...
Crop production throughout the world is dependent on soil water availability either directly through...
Water is the prime mover in agricultural development in rainfed agriculture. For better use of water...
<a name="OLE_LINK4"></a><a name="OLE_LINK3">Water and nitrogen (N) are two key limiting factors in g...
Irrigation is a vital component of the world agriculture. It is practiced worldwide on ≈270 million ...
Water use efficiency (WUE) is defined as the amount of carbon assimilated as biomass or grain produc...
Food and agriculture are the largest consumers of water, requiring one hundred times more than we us...
Water scarcity and the increasing global demand for water in many sectors, including agriculture, ha...
Irrigation is a vital component of the world agriculture. It is practiced worldwide on _270 million ...
Water and nitrogen (N) are two key limiting factors in global crop production. However, the optimiza...
Land conversion from natural to managed ecosystems, while necessary for food production, continues t...
Water Use Efficiency based on yield biomass Water Use Efficiency (WUE) is the ratio of fruit yield ...
Water and nitrogen (N) are two key limiting factors in global crop production. However, the optimiza...
Water use efficiency (WUE) represents a given level of biomass or grain yield per unit of water used...
Crop production throughout the world is dependent on soil water availability either directly through...
Crop production throughout the world is dependent on soil water availability either directly through...
Crop production throughout the world is dependent on soil water availability either directly through...
Water is the prime mover in agricultural development in rainfed agriculture. For better use of water...
<a name="OLE_LINK4"></a><a name="OLE_LINK3">Water and nitrogen (N) are two key limiting factors in g...
Irrigation is a vital component of the world agriculture. It is practiced worldwide on ≈270 million ...
Water use efficiency (WUE) is defined as the amount of carbon assimilated as biomass or grain produc...
Food and agriculture are the largest consumers of water, requiring one hundred times more than we us...
Water scarcity and the increasing global demand for water in many sectors, including agriculture, ha...
Irrigation is a vital component of the world agriculture. It is practiced worldwide on _270 million ...
Water and nitrogen (N) are two key limiting factors in global crop production. However, the optimiza...
Land conversion from natural to managed ecosystems, while necessary for food production, continues t...
Water Use Efficiency based on yield biomass Water Use Efficiency (WUE) is the ratio of fruit yield ...
Water and nitrogen (N) are two key limiting factors in global crop production. However, the optimiza...