Author:
Thangaraj Kongeswaran,Karthikeyan Sivakumar
Publisher
Springer Nature Singapore
Reference35 articles.
1. Anbazhagan G, Manivel M (2010) Targeting groundwater potential zones in hard rock terrain using remote sensing and GIS. Recent Trends Water Res Remote Sens Gen Perspect 11(2):8–24
2. Asare-Kyei D, Forkuor G, Venus V (2015) Modeling flood hazard zones at the sub-district level with the rational model integrated with GIS and remote sensing approaches. Water 7(7):3531–3564
3. Bagyaraj M, Ramkumar T, Venkatramanan S, Gurugnanam B (2013) Application of remote sensing and GIS analysis for identifying groundwater potential zone in parts of Kodaikanal Taluk, South India. Front Earth Sci 7(1):65–75
4. Bariweni PA, Tawari CC, Abowei JFN (2012) Some environmental effects of flooding in the Niger Delta Region of Nigeria. Int J Fish Aquat Sci 1(1):35–46
5. Belal AA, El-Ramady HR, Mohamed ES, Saleh AM (2014) Drought risk assessment using remote sensing and GIS techniques. Arab J Geosci 7(1):35–53
Cited by
4 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
1. A geospatial approach for assessing urban flood risk zones in Chennai, Tamil Nadu, India;Environmental Science and Pollution Research;2023-08-28
2. Hydrogeochemical Evaluation of Groundwater for Drinking and Irrigation Purposes in Avudaiyarkoil Block, Pudukkottai District, Tamil Nadu, India;Asian Journal of Water, Environment and Pollution;2023-07-21
3. An Assessment of Geospatial Analysis Combined with AHP Techniques to Identify Groundwater Potential Zones in the Pudukkottai District, Tamil Nadu, India;Water;2023-03-13
4. Hydrogeochemical Survey along the Northern Coastal Region of Ramanathapuram District, Tamilnadu, India;Applied Sciences;2022-05-31