Evaluating Drainmod‐s to Predict Drainage Water Salinity and Groundwater Table Depth During Winter Cropping in Heavy‐Textured Paddy Soils

Davoodi, Kolsom; Darzi‐Naftchali, Abdullah; Aghajani‐Mazandarani, Ghasem

doi:10.1002/ird.2339

Cited by 14 publications

(5 citation statements)

References 31 publications

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“…Saline soils are prevalent globally, particularly in arid and semi-arid regions where shallow groundwater evaporation is the dominant factor in soil salinization (Chandio et al, 2013). Moreover, soil salinization in arid areas is influenced by the shallow groundwater level and rapid fluctuation (Ibrahimi et al, 2014), groundwater abstraction (McCallum et al, 2013), and the irrigation of farmland (Chen et al, 2020) and drainage water (Davoodi et al, 2019), which indirectly affects the process of soil salinization. Effective management of groundwater and surface water has been found to be a key approach for reducing soil salinization (Machado and Serralheiro, 2017;Li et al, 2018;Yu et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Formation and evolution of soil salinization based on multivariate statistical methods in Ningxia Plain, China

et al. 2023

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The Ningxia Plain, situated in the arid zone of northwest China, is a typical dryland plain that faces significant challenges to sustainable agricultural development due to soil salinization. In this study, we employed multivariate analysis and geostatistical methods to investigate the degree and distribution types of soil salinization and the hydrochemical characteristics of shallow groundwater. We also examined the relationship between soil salinization and hydrogeochemical characteristics by analyzing the sources of groundwater ions. This study developed a hydrogeochemical model to describe the soil salinization process in the Ningxia Plain. The results indicate that the majority of surface soils are alkaline type soils, followed by chloride-sulfate type soils. The groundwater is mainly fresh water and brackish water, with a hydrochemical type of SO4·HCO3–Ca·Mg or SO4·Cl–Ca·Mg. Saline water and salt water are represented by Cl–Na·Mg or Cl·SO4–Na·Mg. We also observed spatial trends in groundwater depth and total dissolved solids (TDS) concentrations that were opposite to soil salinity, which suggests a certain degree of second-order trend effect. Furthermore, the degree of soil salinization increased and then decreased from the pre-mountain alluvial plain to the Yellow River alluvial plain, while the groundwater chemistry ranged from simple to complex. The most severe area of soil salinization was found to be concentrated between Hongguang and Yaofu, which is also the area where shallow groundwater salinity accumulation is mainly influenced by continental salinization. In summary, this study provides valuable insights into the hydrogeochemical characteristics of the Ningxia Plain, which can inform strategies for mitigating soil salinization and promoting sustainable agriculture development in arid regions.

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Section: Introductionmentioning

confidence: 99%

Formation and evolution of soil salinization based on multivariate statistical methods in Ningxia Plain, China

et al. 2023

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“…Computational hydrologic modeling platforms, e.g. DRAINMOD [60], have been widely used to predict salinity of drainage water used in irrigation [61]. A number of numerical models and finite element analyses have also been used for salinity prediction, e.g., SUTRA, RMA-10 [62].…”

Section: Introductionmentioning

confidence: 99%

Groundwater Salinity Susceptibility Mapping Using Classifier Ensemble and Bayesian Machine Learning Models

et al. 2020

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Risk and susceptibility mapping of groundwater salinity (GWS) are challenging tasks for groundwater quality monitoring and management. Advancement of accurate prediction systems is essential for the identification of vulnerable areas in order to raise awareness about the potential salinity susceptibility and protect the groundwater and top-soil in due time. In this study, three machine learning models of Stochastic Gradient Boosting (StoGB), Rotation Forest (RotFor), and Bayesian Generalized Linear Model (Bayesglm) are developed for building prediction models and their performance evaluated in the delineation of salinity susceptibility maps. Both natural and human effective factors (16 features) were used as predictors for groundwater salinity modeling and were randomly divided into the training (80%) and testing (20%) datasets. The models were evaluated using testing datasets after calibration using the selected features by recursive feature elimination (RFE) method. The RFE indicated that modeling with 8 features had better performance among 1 to 16 features (Accuracy = 0.87). Results of the groundwater salinity prediction highlighted that StoGB had a good performance, whereas the RotFor and Bayesglm had an excellent performance based on the Kappa values (> 0.85). Although spatial prediction of the models was different, all of the models indicated that central parts of the region have a very high susceptibility which matches with agricultural areas, lithology map, the locations with low depth to groundwater, low slope, and elevation. Additionally, areas near to the Maharlu lake and locations with a high decline in groundwater are also located in the very high susceptibility zone, which can confirm the effects of saltwater intrusion. The susceptibility maps produced in this study are of utmost importance for water security and sustainable agriculture.

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“…According to Bahçeci and Nacar (2009), in studies in southeastern Turkey, the use of drainage promoted an 80% reduction in salinity in the 0-20 cm layer of the soil. Davoodi, Darzi-Naftchali and Aghajani-Mazandarani (2019), in studies in northern Iran, observed the removal of up to 586 kg ha -1 of salts in subsurface drainage systems. A study conducted in the Curu-Pentecoste Irrigated Perimeter, Ceará, associating the installation of subsurface drainage with management practices (subsoiling and use of soil conditioners), demonstrated the reclamation of a saline-sodic soil, reduction of waterlogging problems, and the improvement in the growth of coconut trees (SOUSAet al, 2011(SOUSAet al, , 2014 (Figure 2).…”

Section: Drainage Strategies For Leaching Salts From the Soilmentioning

confidence: 99%

Management and reclamation of salt-affected soils: general assessment and experiences in the Brazilian semiarid region

Gheyi¹,

Lacerda²,

Freire³

et al. 2022

RCA

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Salt-affected soils occupy extensive areas in arid and semi-arid regions around the world, and impact food production, particularly when salinization processes occur in irrigated areas. In this context, the possibility of using techniques for the reclamation of these soils needs to be considered. However, many of these techniques are inaccessible to most farmers in the Brazilian semi-arid region, given the high costs, mainly when it is necessary to install a subsurface drainage system. Thus, there is a need to evaluate other soil reclamation strategies as well as the possibility of using these areas for other purposes. This review covers topics related to the characterization and impacts of salt-affected soils, the infl uence of soil microorganisms, and strategies for soil reclamation, such as the use of chemical and organic conditioners, bio-drainage, phytoremediation, and revegetation with tolerant species. The topics addressed in this review indicate new possibilities for the reclamation and management of salt-affected soils in the Brazilian semi-arid region. A case study is also presented, which demonstrates that the use of salt-affected soils is defi ned by technical, social, and economic aspects.

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Evaluating Drainmod‐s to Predict Drainage Water Salinity and Groundwater Table Depth During Winter Cropping in Heavy‐Textured Paddy Soils

Cited by 14 publications

References 31 publications

Formation and evolution of soil salinization based on multivariate statistical methods in Ningxia Plain, China

Formation and evolution of soil salinization based on multivariate statistical methods in Ningxia Plain, China

Groundwater Salinity Susceptibility Mapping Using Classifier Ensemble and Bayesian Machine Learning Models

Management and reclamation of salt-affected soils: general assessment and experiences in the Brazilian semiarid region

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