Open Access"Experimental and Simulation Studies of Phosphorus in Agricultural Soil HYDRUS Software "
Author(s) -
Sandeep Kumar Diwakar,
Jagandeep Singh
Publication year - 2021
Publication title -
international journal of innovative research in computer science and technology
Language(s) - English
Resource type - Journals
ISSN - 2347-5552
DOI - 10.55524/ijircst.2021.9.6.73
Subject(s) - environmental science , fertigation , soil science , infiltration (hvac) , nitrification , phosphorus , hydrology (agriculture) , nitrogen , agronomy , geotechnical engineering , fertilizer , geology , chemistry , materials science , organic chemistry , composite material , biology
The main objective of this study is to look at nitrogen transfer in the subsurface soil as a consequence of rainfall infiltration. The fundamental goals are as follows: to evaluate soil isotherms and adsorption capability; to use column tests to simulate soil phosphate; to analyses surface properties and phosphorus concentrations in agricultural soil; to conduct batch adsorption experiments to determine soil isotherms and HYDRUS was used to determine the amount of phosphorus in the soil and how it was distributed. The HYDRUS model was used to measure the soil columns. The formula was used to quantify the aquifer as well as de-nitrification. Experiments were carried out in order to collect the most current knowledge. The HYDRUS was developed based on the results. The model was able to do so with a high degree of accuracy. As a consequence, a scenario was utilized to forecast the optimum fertigation method for the groundnut crop. This model may also be used to generate a variety of other situations.