Remote sensing and geographic information system (GIS)-based high-resolution mapping of potential groundwater recharge zones on the hard rock terrains of the Cameroon volcanic line (CVL)

Yossa, Mbohlieu Tchawe; Lordon, Anatole Eugene Djieto; Agyingi, Christopher M.; Agbor-Taku, Junior; Shandini, Yves; Bessong, Crayton Enga

doi:10.1007/s42452-022-05248-w

Cited by 7 publications

(2 citation statements)

References 40 publications

(66 reference statements)

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“…Right now, water extraction from the ground is higher than the infiltration rate due to global population growth. The situation becomes more critical when the lithological background is not capable of storing/holding the quantity of groundwater (1). Generally, the scarcity of water is faced by people in the summer season due to the less avaibility of groundwater.…”

Section: Introductionmentioning

confidence: 99%

Experimental Investigation on Hard Rock Strata for the purpose of Ground Water Improvement with the inclusion of Bore Blasting Technique

Chandarana,

Agnihotri,

Saha

2024

IJE

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Due to yearly uneven rainfall distribution, exsiccation of water availability, specifically during the summer in the agricultural field in Saurashtra, is a usual scenario. Saurashtra region's land formation contains Basalt rock. The area is categorized under the semi-arid region. Hence, the Groundwater condition was observed to be poor as the self-characteristic of land for water-storage capacity for the Basalt is negligible within its strata. Mining Engineering and Groundwater Improvement Techniques were incorporated to find a way out of water stress conditions. An experimental study was carried out for mass blasting with the permission of the Government body and an expert team of mining explosions at the study area within the catchment of check dams and river beds. A group containing five borewells was blasted at a 27, 18, and 9 m depth, respectively. In each borehole, 15 blasts of 2.76 unit explosion were exploded together by sealing a cover of sand over it. The impact assessment of 30 wells was monitored Post-blast within the range of 400m of the Bore Blasting Technique (BBT) performed. As a result, a rise in water level up to 19m has been recorded near the streamline of BBT performed. In addition, the movement of the water was diverted from its parental aquifer to the observed dug wells. Hence, it is concluded that channelizing the groundwater can be possible by incorporating BBT in the basalt region, and identical improvement can also possible interms of fractured basalt rock and availability of water in the basalt region.

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Section: Introductionmentioning

confidence: 99%

Experimental Investigation on Hard Rock Strata for the purpose of Ground Water Improvement with the inclusion of Bore Blasting Technique

Chandarana,

Agnihotri,

Saha

2024

IJE

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“…Groundwater potential can be inferred from many groundwater recharge in uencing factors such as lineament density, land cover, land use, drainage density, vegetation, aspect, rainfall, soil type, e.t.c., depending on regional peculiarities [12], [15]- [18]. These factors are classi ed and weighted using multi-in uencing factor (MIF) and Analytic Hierarchy Process (AHP) methods [8], [12], [19].…”

Section: Introductionmentioning

confidence: 99%

Determination of Groundwater Potential Zones on the Eastern Slope of Mount Cameroon using Geospatial Techniques and Seismoelectric Method

Njumbe,

Lordon,

Agyingi

2023

Preprint

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In complex hard-rock terrain where the population suffers from water scarcity, the use of site-specific single-method surface geophysical survey to prospect for groundwater is a common practice. However, this has not completely solved the problem of drilling dry wells. To combat this failure, geospatial data and the analytical hierarchy process (AHP) are being used as supporting techniques to increase the chance of success. This study had the aim of generating groundwater potential zones (GWPZ) map of the complex strato-volcanic terrain of Buea by integrating geospatial techniques, AHP and the seismoelectric method. Six factors influencing groundwater recharge were used to define the groundwater potential zones. Via the AHP and weighted overlay methods, five classes of groundwater potential zones were delineated: very poor, poor, moderate, good, and very good. More than half of the study area has good to very good groundwater potential. Lastly, the GWPZ model is validated with an iso-conductivity map from a seismoelectric survey and existing static water level data. The iso-conductivity map revealed four main conductivity zones that correlate positively with the GWPZ map. The northwestern part of the study area is characterised by moderate groundwater potential, poor formation conductivity and dry boreholes. There is an uneven distribution of groundwater and variable water table depth in the area. The results of this study are very encouraging, and the integrated approach used has proven to be efficient in determining groundwater potential zones in complex volcanic terrain.

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Identification of groundwater potential zones and its relation to settlement and agriculture: a study in Taraphini river basin, West Bengal, India

Bhakta,

Barui,

Ghosh

2024

Sustain. Water Resour. Manag.

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Remote sensing and geographic information system (GIS)-based high-resolution mapping of potential groundwater recharge zones on the hard rock terrains of the Cameroon volcanic line (CVL)

Cited by 7 publications

References 40 publications

Experimental Investigation on Hard Rock Strata for the purpose of Ground Water Improvement with the inclusion of Bore Blasting Technique

Experimental Investigation on Hard Rock Strata for the purpose of Ground Water Improvement with the inclusion of Bore Blasting Technique

Determination of Groundwater Potential Zones on the Eastern Slope of Mount Cameroon using Geospatial Techniques and Seismoelectric Method

Identification of groundwater potential zones and its relation to settlement and agriculture: a study in Taraphini river basin, West Bengal, India

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