Editorial for Advances in Geological and Geotechnical Engineering Research: Vol. 5 Issue 2 (2023)

Source:
By:Amin Beiranvand Pour

DOI: https://doi.org/10.30564/agger.v5i2.5688

Abstract: References:

[1] OlaOlorun, O.A., Akinola, O.O., Oyinloye, A.O., 2023. Petrology and geochemical features of crystalline rocks in Ora-Ekiti, Southwestern Nigeria. Advances in Geological and Geotechnical Engineering Research. 5(2), 24-37. DOI: https://doi.org/10.30564/agger.v5i2.5243 [2] Eze, S.U., Okiotor, M.E., Ighodalo, J.E., et al., 2023. Application of 2-D and 3-D geo-electrical resistivity tomography and geotechnical soil evaluation for engineering site investigation: A case study of Okerenkoko Primary School, Warri-Southwest, Delta State, Nigeria. Advances in Geological and Geotechnical Engineering Research. 5(2), 1-23. DOI: https://doi.org/10.30564/agger.v5i2.5382 [3] Bako, A.S., Rilwan, U., Umar, I., et al., 2023. Toxicity of radon-222 in groundwater across Keana in Nasarawa, Nigeria. Advances in Geological and Geotechnical Engineering Research. 5(2), 38-49. DOI: https://doi.org/10.30564/agger.v5i2.5632 [4] Straser, V., Cataldi, D., Cataldi, G., 2023. Radio direction finding method to mitigate tsunami risk in Sierra Leone. Advances in Geological and Geotechnical Engineering Research. 5(2), 64-75. DOI: https://doi.org/10.30564/agger.v5i2.5617 [5] Mayara de Souza, D., Clávio de Alcântara Júnior, L.L.L., 2023. Correlation of ground penetrating radar data with geotechnical prospect profiles: Reduto case study, Belém-PA, Brazil. Advances in Geological and Geotechnical Engineering Research. 5(2), 50-63. DOI: https://doi.org/10.30564/agger.v5i2.5579