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Evaluation of Water Retention Functions and Computer Program “Rosetta” in Predicting Soil Water Characteristics of Seasonally Impounded Shrink–Swell Soils

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Title Evaluation of Water Retention Functions and Computer Program “Rosetta” in Predicting Soil Water Characteristics of Seasonally Impounded Shrink–Swell Soils
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Creator N. G. Patil and G. S. Rajput
 
Subject Soil water; Swelling; Shrinkage; Irrigation; Crops
 
Description Not Available
Soil water retention is a critical factor influencing irrigation decisions and hence agricultural crop yields. However, information on soil water retention characteristics SWRC is seldom available for irrigation planning, crop yield modeling, or hydrological simulations, especially for problematic soils, such as seasonally impounded shrink-swell soils. As large scale direct measurement of SWRC is not viable due to a number of reasons, researchers have developed pedotransfer functions PTFs to estimate SWRC from easily measured soil properties, such as texture, organic matter content, bulk density, etc. However, PTF applicability in locations other than those of data collection has been rarely reported. One of the most recent PTFs that has shown overall reasonable predictions in evaluation studies is Rosetta, a numerical code for estimating soil hydraulic parameters with hierarchical pedotransfer functions. Relatively, the development
of large databases makes it one of the widely used PTFs. If validated for spatial application, it has immense use potential in countries like India, where data on soil hydraulic properties are seldom available, a deficiency that hampers better simulations in processes, like partitioning runoff and infiltration, assessing evapotranspiration, irrigation scheduling, etc. Rosetta is also relatively flexible allowing
estimation of hydraulic properties from easily available minimum input of textural fractions. This study was conducted to evaluate 1 an applicability of four widely used soil water retention functions to describe SWRC; and 2 the computer program Rosetta for its validity. Statistical indices, i.e., root mean square error RMSE, mean absolute error, maximum absolute error, and degree of agreement d were
computed to evaluate “goodness-of-fit” of the four functions to the measured SWRC data. These indices were also used to compare measured SWRC with estimates of SWRC by Rosetta. For soil samples collected from 41 profiles, 175 SWRC were measured in the laboratory. The van Genuchten function fitted relatively better RMSE= 0.052 m3 m−3 to SWRC of clay soils, whereas the Brooks–Corey BC function was better in expressing SWRC of clay loam and sandy clay loam soils with RMSE= 0.06 and 0.07 m3 m−3, respectively.
Campbell and Cass–Hutson CH functions were of intermediate value. Worst performing functions were BC clay soils , Campbell clay loam , and CH sandy clay loam with corresponding RMSE= 0.059, 0.065, and 0.077 m3 m−3. Estimates of two important points on the SWRC curve, i.e., field capacity and permanent wilting point were predicted with relatively better accuracy for clay and sandy clay loam soils by all the four functions. RMSE and d ranged from 0.027 to 0.043 m3 m−3 and from 0.73 to 0.88 for clay soils. Corresponding values for sandy clay loam soils were 0.008 – 0.019 m3 m−3, and 0.92–0.98. However, in clay loam soils, only two functions were found suitable. Estimates of SWRC obtained by applying hierarchical rules in Rosetta were reliable RMSE 0.05 m3 m−3. Magnitude of average RMSE increased progressively in clay loam, clay and sandy clay loam soils 0.02,0.035, 0.042 m3 m−3. The study established that SWRC of the “Haveli” soils could be estimated using generic PTF and thus information that is prerequisite in simulating hydrological processes occurring in seasonally impounded soils could be acquired.
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Date 2024-07-01T10:52:24Z
2024-07-01T10:52:24Z
2009-06-03
 
Type Research Paper
 
Identifier N. G. Patil and G. S. Rajput
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http://krishi.icar.gov.in/jspui/handle/123456789/83814
 
Language English
 
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Publisher Not Available