Publications

Awasthi, N., Ray, E. and Paul, D. (2018). Sr and Nd Isotope Compositions of Alluvial Sediments from the Ganga Basin and their use as Potential Proxies for Source Identification and Apportionment. Chemical Geology, 476, 327-339.

Ray, E. and Paul, D. (2021). Major and Trace element Characteristics of the Average Indian Post-Archean Shale: Implications for Provenance, Weathering, and Depositional Environment. ACS Earth and Space Chemistry, 5(5), 1114.

Tauseef, M., Ray, E. and Paul, D., Malik, J.V., Ahmad, I. (2021). Mineralogical, geochemical, and magnetic susceptibility variations in the loess-paleosol sequence from Pattan, Kashmir Valley, India record an enhanced Indian summer monsoon around 35 Ka. Quaternary International, 616(1-3).

Ray, E.* and Paul, D., Bhutani, R., Chakrabarti, R., Yang, S. (2023). Sm-Nd isotope systematics of Indian shales constrain the growth of continental crust: Implication for supercontinent-superplume cycle. Lithos. DOI:10.1016/j.lithos.2023.107051.

Ray, E. and Paul, D., Bhutani, R. (Under Preparation). Compositional variability in Indian sandstones: Implications for provenance and tectonic setting.

Conference abstract

Ray, E. and Paul, D. (2018). Average Chemical Composition of Indian Shale Composite. AGU.

Ray, E., Paul, D., Chakrabarti, R., Bhutani, R. (2019). Average Chemical Composition of Indian Shale Composite: Implication for chemical weathering and Provenance.  Goldschmidt.

Ray, E. and Paul, D., Bhutani, R. (2020). Loess Geochemistry and Upper Crustal Composition of India: Comparison with Global loess and Global UCC. Goldschmidt.

Ray, E.* and Paul, D., Bhutani, R., Chakrabarti, R., Yang, S. (2023). Sm-Nd isotope systematics of Indian shales constrain the growth of Indian continental crust. Goldschmidt.

Ray, E.* and Paul, D., Bhutani, R., Chakrabarti, R., Yang, S. (2024). Continental crustal evolution revealed through sedimentary rocks: a case study from India. IGC.