Soil Water Conservation. Dynamics and Impact
Pirastru, Mario||Keesstra, Saskia||Di Prima, Simone||Castellini, Mirko
Soil Water Conservation. Dynamics and Impact
English[eng]
single-ring infiltrometer||water and soil conservation||van Genuchten model||vegetable production||tillage erosion||water infiltration||saturated soil hydraulic conductivity||sustainable land management||subsurface flow||delta plain||tied ridges||adaptation||spatial scale||vineyards||Richards equation||Follow-the-Innovation||hillslope||crop yields||transdisciplinary research||the meshless method||TOPMODEL||upgrading strategies||bimsoils||fraction transpiration soil water||saturated hydraulic conductivity||soil infiltration||cereals||FDR sensor||EM38||relative transpiration||infiltration||laboratory experiment||the Trefftz method||conservation agriculture||soil moisture storage||age of planting||DSSAT||Xin’anjiang model||local perception||numerical model||transient||soil tillage||field-saturated soil hydraulic conductivity||soil properties||soil erosion||polyurethane foam||multi-parameter evaluation||post-fire soil hydraulic characterization||shallow groundwater||distributed model||Beerkan method||environmental change||response surface methodology||soil||The Agricultural Production Systems sIMulator (APSIM) software||three-dimensional model||decision tree modeling||water availability||bottomless bucket method||field observation||Malawi||specific leaf water content||yield||unsaturated soil||critical hydraulic gradient (CHG)||sap flow||olive grove||infiltration rate||nitrogen use efficiency||field scattering||AquaCrop||microdose fertilization||data analysis procedures||macropore network||rainfall variability||soil block||innovation development||seedbed preparation||food security||peer effects||soil water content||electromagnetic induction meter (EM)||soil water storage
Soil Water Conservation. Dynamics and Impact
English[eng]
single-ring infiltrometer||water and soil conservation||van Genuchten model||vegetable production||tillage erosion||water infiltration||saturated soil hydraulic conductivity||sustainable land management||subsurface flow||delta plain||tied ridges||adaptation||spatial scale||vineyards||Richards equation||Follow-the-Innovation||hillslope||crop yields||transdisciplinary research||the meshless method||TOPMODEL||upgrading strategies||bimsoils||fraction transpiration soil water||saturated hydraulic conductivity||soil infiltration||cereals||FDR sensor||EM38||relative transpiration||infiltration||laboratory experiment||the Trefftz method||conservation agriculture||soil moisture storage||age of planting||DSSAT||Xin’anjiang model||local perception||numerical model||transient||soil tillage||field-saturated soil hydraulic conductivity||soil properties||soil erosion||polyurethane foam||multi-parameter evaluation||post-fire soil hydraulic characterization||shallow groundwater||distributed model||Beerkan method||environmental change||response surface methodology||soil||The Agricultural Production Systems sIMulator (APSIM) software||three-dimensional model||decision tree modeling||water availability||bottomless bucket method||field observation||Malawi||specific leaf water content||yield||unsaturated soil||critical hydraulic gradient (CHG)||sap flow||olive grove||infiltration rate||nitrogen use efficiency||field scattering||AquaCrop||microdose fertilization||data analysis procedures||macropore network||rainfall variability||soil block||innovation development||seedbed preparation||food security||peer effects||soil water content||electromagnetic induction meter (EM)||soil water storage