Extraction of groundwater resources has led to depletion of water resources in various parts of globe. Hence, it becomes necessary to replenish the groundwater recharge through construction of artificial recharge structures as the water infiltrates into the ground quickly. The methodology used for the study includes the use of geospatial technology along with the field investigation. Normalized differential vegetation index (NDVI), land use and land cover (LULC) features were created to analyze the impacts of artificial recharge structures and its impacts on socio economic status of the study area. The NDVI values from 1992 (-1 – 0.6) whereas in 2018 (0.46 – 0.6) suggests that there has been increase in the agricultural activities due to increase in the water level. The LULC analysis also shows that there is increase in the agricultural land and decrease in the fallow land from 2005-2017. The groundwater recharge has increased in the villages and adjoining areas bolstering their livelihood. The research outcome proves significant implications in groundwater rejuvenation after the construction of various artificial recharge structures in the study area. This study can be used for an area that needs sustainable groundwater recharge management.
Artificial Recharge and its Impact on Groundwater Sustainability and Socioeconomic Status in Parts of Kumudvathi River Basin
₹100.00
Extraction of groundwater resources has led to depletion of water resources in various parts of globe. Hence, it becomes necessary to replenish the groundwater recharge through construction of artificial recharge structures as the water infiltrates into the ground quickly. The methodology used for the study includes the use of geospatial technology along with the field investigation. Normalized differential vegetation index (NDVI), land use and land cover (LULC) features were created to analyze the impacts of artificial recharge structures and its impacts on socio economic status of the study area. The NDVI values from 1992 (-1 – 0.6) whereas in 2018 (0.46 – 0.6) suggests that there has been increase in the agricultural activities due to increase in the water level. The LULC analysis also shows that there is increase in the agricultural land and decrease in the fallow land from 2005-2017. The groundwater recharge has increased in the villages and adjoining areas bolstering their livelihood. The research outcome proves significant implications in groundwater rejuvenation after the construction of various artificial recharge structures in the study area. This study can be used for an area that needs sustainable groundwater recharge management.
Publication Mode |
Online |
---|---|
Publication Author |
Balamurugan Guru, Anges Liji G., Kusuma K. N., Vaishnavi Kapoor |
Publication Language |
English |
Publication Type |
Conference Paper |
Publication Year |
2020 |
DOI |
10.17491/cgsi/2020/156159 |
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