Add to ORKGAbstract: Secondary dryland salinity is usually caused by clearing native vegetation and introducing crops and pastures. This damages landscapes and costs more than $1,000 million annually in agricultural production alone. However, in some areas the rate of increase has slowed or there has been a decrease in the extent of dryland salinity. To understand the dynamics of the hydrologic balance in eastern Australia, the HowLeaky?2008 model was used to simulate a range of soil types, climates and vegetation systems. Four soil types were simulated: (i) a Kandosol with plant-available water capacity (PAWC, to 1200mm depth) o
Dryland secondary salinisation has debilitated large areas of land in Western Australia due to clear...
Dryland secondary salinisation has debilitated large areas of land in Western Australia due to clear...
The first objective of the research was to investigate whether major geological faults had an impact...
Clearing native vegetation and introducing crops and pastures may increase deep drainage and result ...
The clearing of land for agricultural purposes in the low rainfall areas of south-west Western Austr...
Several water balance models have been developed for Australian conditions, however few of them were...
Abstract: Salinisation of land and rivers is a problem of national importance in Australia. Appropri...
A common strategy in mitigating secondary salinity in southern Australia is the planting of trees an...
Replacement of deep-rooted, perennial native vegetation with shallow-rooted, annual agricultural pla...
Dryland salinity is caused by a build-up of salts in the root zone of plants in non-irrigated areas ...
1. Regional scale changes to the hydrological cycle of the M urray-Darling Basin (MDB) in Australia ...
Soils in arid and semi-arid environments are threatened by salinization. A cost-effective and effici...
Reliable water supply for farming is a global concern, including the Lockyer Valley region, Australi...
Rainfall, vegetation characteristics and soil hydraulic properties influence deep drainage patterns ...
Dryland secondary salinisation has debilitated large areas of land in Western Australia due to clear...
Dryland secondary salinisation has debilitated large areas of land in Western Australia due to clear...
Dryland secondary salinisation has debilitated large areas of land in Western Australia due to clear...
The first objective of the research was to investigate whether major geological faults had an impact...
Clearing native vegetation and introducing crops and pastures may increase deep drainage and result ...
The clearing of land for agricultural purposes in the low rainfall areas of south-west Western Austr...
Several water balance models have been developed for Australian conditions, however few of them were...
Abstract: Salinisation of land and rivers is a problem of national importance in Australia. Appropri...
A common strategy in mitigating secondary salinity in southern Australia is the planting of trees an...
Replacement of deep-rooted, perennial native vegetation with shallow-rooted, annual agricultural pla...
Dryland salinity is caused by a build-up of salts in the root zone of plants in non-irrigated areas ...
1. Regional scale changes to the hydrological cycle of the M urray-Darling Basin (MDB) in Australia ...
Soils in arid and semi-arid environments are threatened by salinization. A cost-effective and effici...
Reliable water supply for farming is a global concern, including the Lockyer Valley region, Australi...
Rainfall, vegetation characteristics and soil hydraulic properties influence deep drainage patterns ...
Dryland secondary salinisation has debilitated large areas of land in Western Australia due to clear...
Dryland secondary salinisation has debilitated large areas of land in Western Australia due to clear...
Dryland secondary salinisation has debilitated large areas of land in Western Australia due to clear...
The first objective of the research was to investigate whether major geological faults had an impact...