https://orcid.org/0000-0001-9962-1437
Citations (19)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (3)
Anwar Mallongi, Annisa Utami Rauf, Anwar Daud, Muhammad Hatta, Wesam Al-Madhoun, Ridwan Amiruddin, Stang Stang, Atjo Wahyu & Ratna Dwi Puji Astuti. (2022) Health risk assessment of potentially toxic elements in Maros karst groundwater: a Monte Carlo simulation approach. Geomatics, Natural Hazards and Risk 13:1, pages 338-363.
Read now
Read now
Mohamed Haythem Msaddek, Yahya Moumni, Alaeddine Ayari, Moufida El May & Ismail Chenini. (2022) Artificial intelligence modelling framework for mapping groundwater vulnerability of fractured aquifer. Geocarto International 37:25, pages 10480-10510.
Read now
Read now
Md. Palash Uddin, Md. Al Mamun, Md. Ali Hossain & Masud Ibn Afjal. (2022) Improved folded-PCA for efficient remote sensing hyperspectral image classification. Geocarto International 37:25, pages 9474-9496.
Read now
Read now
Articles from other publishers (16)
Marisela Uzcategui-Salazar & Javier Lillo. (2022) A new approach to pollution vulnerability assessment in aquifers using K-means analysis. Environmental Earth Sciences 81:20.
Crossref
Crossref
Efrain Vizuete-Jaramillo, Diana Meza-Figueroa, Pablo A. Reyes-Castro & Agustin Robles-Morua. (2022) Using a Sensitivity Analysis and Spatial Clustering to Determine Vulnerability to Potentially Toxic Elements in a Semiarid City in Northwest Mexico. Sustainability 14:17, pages 10461.
Crossref
Crossref
Ata Allah Nadiri, Marjan Moazamnia, Sina Sadeghfam, Gopalakrishnan Gnanachandrasamy & Senapathi Venkatramanan. (2022) Formulating Convolutional Neural Network for mapping total aquifer vulnerability to pollution. Environmental Pollution 304, pages 119208.
Crossref
Crossref
Fabrizio Rama, Gianluigi Busico, José Luis Arumi, Nerantzis Kazakis, Nicolò Colombani, Luigi Marfella, Ricardo Hirata, Eduardo E. Kruse, Paul Sweeney & Micòl Mastrocicco. (2022) Assessment of intrinsic aquifer vulnerability at continental scale through a critical application of the drastic framework: The case of South America. Science of The Total Environment 823, pages 153748.
Crossref
Crossref
Brahim Askri, Abdelkader T. Ahmed & Rachida Bouhlila. (2022) Origins and processes of groundwater salinisation in Barka coastal aquifer, Sultanate of Oman. Physics and Chemistry of the Earth, Parts A/B/C 126, pages 103116.
Crossref
Crossref
Ata Allah Nadiri, Iraj Habibi, Maryam Gharekhani, Sina Sadeghfam, Rahim Barzegar & Sadra Karimzadeh. (2022) Introducing dynamic land subsidence index based on the ALPRIFT framework using artificial intelligence techniques. Earth Science Informatics 15:2, pages 1007-1021.
Crossref
Crossref
Hamid Kardan Moghaddam, Amir Rajaei, Zahra Rahimzadeh kivi & Hossein Kardan Moghaddam. (2022) Prediction of qualitative parameters concentration in the groundwater resources using the Bayesian approach. Groundwater for Sustainable Development 17, pages 100758.
Crossref
Crossref
Vivek Sivakumar, M. C. Sashik Kumar, Logesh Natarajan, Priyadarsi D. Roy & Lakshumanan Chokkalingam. (2022) Vulnerability Assessment of Groundwater in Industrialized Tiruppur Area of South India using GIS-based DRASTIC model. Journal of the Geological Society of India 98:5, pages 696-702.
Crossref
Crossref
Prashant Kumar, Reema Sharma & Subhasis Bhaumik. (2022) MCDA techniques used in optimization of weights and ratings of DRASTIC model for groundwater vulnerability assessment. Data Science and Management 5:1, pages 28-41.
Crossref
Crossref
Mariam Taazzouzte, Abdessamad Ghafiri, Hassan Lemacha, Saida El Moutaki & Imane Haidara. (2022) Mapping Intrinsic Vulnerability to Pollution Using the DRASTIC Method in the Temara Groundwater (Northwestern Morocco). International Journal of Agricultural and Environmental Information Systems 12:4, pages 1-18.
Crossref
Crossref
Haikuan Yang, Hua Yang, Junxiong Wang, Kang Zhou & Bing Cai. 2022. Advances in Intelligent Systems, Computer Science and Digital Economics III. Advances in Intelligent Systems, Computer Science and Digital Economics III
187
199
.
Mahbubur Rahman, Md. Morshedul Haque & Shafi M. Tareq. (2021) Appraisal of groundwater vulnerability in south-central part of Bangladesh using DRASTIC model: An approach towards groundwater protection and health safety. Environmental Challenges 5, pages 100391.
Crossref
Crossref
Ahmed M. Saqr, Mona G. Ibrahim, Manabu Fujii & Mahmoud Nasr. (2021) Sustainable Development Goals (SDGs) Associated with Groundwater Over-Exploitation Vulnerability: Geographic Information System-Based Multi-criteria Decision Analysis. Natural Resources Research 30:6, pages 4255-4276.
Crossref
Crossref
Kaouther Ncibi, Riheb Hadji, Soumaya Hajji, Houda Besser, Hichem Hajlaoui, Amor Hamad, Naziha Mokadem, Amina Ben Saad, Mongi Hamdi & Younes Hamed. (2021) Spatial variation of groundwater vulnerability to nitrate pollution under excessive fertilization using index overlay method in central Tunisia (Sidi Bouzid basin)*. Irrigation and Drainage 70:5, pages 1209-1226.
Crossref
Crossref
Maryam Sadat Kahe, Saman Javadi, Abbas Roozbahani & Kourosh Mohammadi. (2021) Parametric uncertainty analysis on hydrodynamic coefficients in groundwater numerical models using Monte Carlo method and RPEM. Environment, Development and Sustainability 23:8, pages 11583-11606.
Crossref
Crossref
Amit Bera, Bhabani Prasad Mukhopadhyay, Puja Chowdhury, Argha Ghosh & Swagata Biswas. (2021) Groundwater vulnerability assessment using GIS-based DRASTIC model in Nangasai River Basin, India with special emphasis on agricultural contamination. Ecotoxicology and Environmental Safety 214, pages 112085.
Crossref
Crossref