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Kamali B
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[24] Same soil - different climate: crop model inter-comparison on translocated lysimeters
[24] Same soil - different climate: crop model inter-comparison on translocated lysimeters
[19] Implications of data aggregation method on crop model outputs–The case of irrigated potato systems in Tasmania, Australia
[19] Implications of data aggregation method on crop model outputs–The case of irrigated potato systems in Tasmania, Australia
[15] Effects of soil- and climate data aggregation on simulated potato yield and irrigation water requirement
[15] Effects of soil- and climate data aggregation on simulated potato yield and irrigation water requirement
[14] Adaption to climate change: a case study of two agricultural systems from Kenya
[14] Adaption to climate change: a case study of two agricultural systems from Kenya
[13] A quantitative analysis for determining socio-economic factors conferring crop drought vulnerability
[13] A quantitative analysis for determining socio-economic factors conferring crop drought vulnerability
[12] Reducing computational costs of automatic calibration of rainfall-runoff models: Meta-models or high-performance computers?
[12] Reducing computational costs of automatic calibration of rainfall-runoff models: Meta-models or high-performance computers?
[11] Spatial assessment of maize physical drought vulnerability in sub-Saharan Africa: Linking drought exposure with crop failure
[11] Spatial assessment of maize physical drought vulnerability in sub-Saharan Africa: Linking drought exposure with crop failure
[10] Drought vulnerability assessment of maize in Sub-Saharan Africa: Insights from physical and social perspectives
[10] Drought vulnerability assessment of maize in Sub-Saharan Africa: Insights from physical and social perspectives
[9] Uncertainty-based auto-calibration for crop yield – the EPIC+ procedure for a case study in Sub-Saharan Africa
[9] Uncertainty-based auto-calibration for crop yield – the EPIC+ procedure for a case study in Sub-Saharan Africa
[8] Assessing the uncertainty of multiple input datasets in prediction of water resources components
[8] Assessing the uncertainty of multiple input datasets in prediction of water resources components
[7] A toolkit for climate change analysis and pattern recognition for extreme weather conditions e Case study: California-Baja California Peninsula
[7] A toolkit for climate change analysis and pattern recognition for extreme weather conditions e Case study: California-Baja California Peninsula
[6] Multilevel drought hazard assessment under climate change scenarios in semi-arid regions - a case study of the Karkheh River basin in Iran
[6] Multilevel drought hazard assessment under climate change scenarios in semi-arid regions - a case study of the Karkheh River basin in Iran
[5] Modelling the effect of riparian vegetation restoration on sediment transport in a human-impacted Brazilian catchment
[5] Modelling the effect of riparian vegetation restoration on sediment transport in a human-impacted Brazilian catchment
[4] Identification of spatiotemporal patterns of biophysical droughts in semi-arid region – a case study of the Karkheh river basin in Iran
[4] Identification of spatiotemporal patterns of biophysical droughts in semi-arid region – a case study of the Karkheh river basin in Iran
[3] Automatic calibration of conceptual HEC-HMS using multi-objective fuzzy optimal models
[3] Automatic calibration of conceptual HEC-HMS using multi-objective fuzzy optimal models
[2] Automatic calibration of HEC-HMS using single-objective and multi-objective PSO algorithms
[2] Automatic calibration of HEC-HMS using single-objective and multi-objective PSO algorithms
[1] Uncertainty-based automatic calibration of HEC-HMS model using sequential uncertainty fitting approach
[1] Uncertainty-based automatic calibration of HEC-HMS model using sequential uncertainty fitting approach
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