Publications
For a full publication list, see below or go to Google Scholar.
Highlights
Revel, M., Zhou, X., Modi, P., Cretaux, J.-F., Calmant, S., & Yamazaki, D.
Earth System Science Data, 16, 75-88, https://doi.org/10.5194/essd-16-75-2024, 2024
Revel, M., Zhou, X., Yamazaki, D., & Kanae, S.
Hydrology and Earth System Sciences, 27, 647–671, https://doi.org/10.5194/hess-27-647-2023, 2023
Revel, M., Ikeshima, D., Yamazaki, D., & Kanae, S.
Water Resources Research, 57(1), https://doi.org/10.1029/2020WR027876, 2021
Revel, M., Ikeshima, D., Yamazaki, D., & Kanae, S.
Water, 11(4), 829. https://doi.org/10.3390/w11040829, 2019
Full List
Original Papers (first author, reviewed)
R7) AltiMaP: altimetry mapping procedure for hydrography data
Revel, M., Zhou, X., Modi, P., Cretaux, J.-F., Calmant, S., & Yamazaki, D.
Earth System Science Data, 16, 75-88, https://doi.org/10.5194/essd-16-75-2024, 2024
R6) Assimilation of transformed water surface elevation to improve river discharge estimation in a continental-scale river
Revel, M., Zhou, X., Yamazaki, D., & Kanae, S.
Hydrology and Earth System Sciences, 27, 647–671, https://doi.org/10.5194/hess-27-647-2023, 2023
R5) A framework for estimating global-scale river discharge by assimilating satellite altimetry
Revel, M., Ikeshima, D., Yamazaki, D., & Kanae, S.
Water Resources Research, 57(1), https://doi.org/10.1029/2020WR027876, 2021
R4) A Physically Based Empirical Localization Method for Assimilating Synthetic SWOT Observations of a Continental-Scale River: A Case Study in the Congo Basin
Revel, M., Ikeshima, D., Yamazaki, D., & Kanae, S.
Water, 11(4), 829. https://doi.org/10.3390/w11040829, 2019
R3) Model Based Observation Localization Weighting Function for Amazon Mainstream
Revel, M., Yamazaki, D., & Kanae, S.
Journal of Japan Society of Civil Engineers, Ser. B1 (Hydraulic Engineering), 74(5), I_157-I_162,https://doi.org/10.2208/jscejhe.74.5_I_157,2018
R2) Estimating Global River Bathymetry by Assimilating Synthetic SWOT Measurements
Revel, M., Yamazaki, D., & Kanae, S.
Journal of Japan Society of Civil Engineers, Ser. B1 (Hydraulic Engineering), 74(4), I_307-I_312. https://doi.org/10.2208/jscejhe.74.I_307,2018
R1) Experimental Investigation of Sediment Trap Efficiency in Reservoirs
Revel, N. M. T. K., Ranasiri, L. P. G. R., Rathnayake, R. M. C. R. K., & Pathirana, K. P. P.
Engineer: Journal of the Institution of Engineers, Sri Lanka, 47(2), 1. https://doi.org/10.4038/engineer.v47i2.6863, 2014
Original Papers (collaboration, reviewed)
C7) Quantifying the relative contributions of climate change and ENSO to flood occurrence in Bangladesh
Uddin, S., Revel, M., Modi, P., & Yamazaki, D.
Environmental Research Letters, 18, 104027, https://iopscience.iop.org/article/10.1088/1748-9326/acfa11, 2023
C6) Res-CN (Reservoir dataset in China): hydrometeorological time series and landscape attributes across 3254 Chinese reservoirs
Shen, Y., Nielsen, K., Revel, M., Liu, D., & Yamazaki, D.
Earth System Science Data, 15, 2781–2808, https://doi.org/10.5194/essd-15-2781-2023, 2023
C5) Increased floodplain inundation in the Amazon since 1980
Fleischmann, A., Papa, F., Hamilton, S. K., Fassoni-Andrade, A., Wongchuig, S., Espinoza, J. C., Paiva, R., Melack, J., Fluet-Chouinard, E., Castello, L., Almeida, R., Bonnet, M. P., Alves, L. G., Moreira, D., Yamazaki, D., Revel, M., & Collischonn, W.
Environmental Research Letters, 11(20), 5035–5040. https://doi.org/10.1088/1748-9326/acb9a7, 2023
C4) Multivariable Integrated Evaluation of Hydrodynamic Modeling: A Comparison of Performance Considering Different Baseline Topography Data
Modi, P., Revel, M., & Yamazaki, D.,
Water Resources Research, 58(8), https://doi.org/10.1029/2021WR031819, 2022
C3) How much inundation occurs in the Amazon River basin?
Fleischmann, A., Papa, F., Fassoni-Andrade, A., Melack, J., Wongchuig, S., Dias De Paiva, R., Hamilton, S., Fluet-Chouinard, E., Barbedo, R., Aires, F., Bitar, A., Bonnet, M., Coe, M., Ferreira-Ferreira, J., Hess, L., Jensen, K., Mcdonald, K., Ovando, A., Park, E., Parrens, M., Pinel, S., Prigent, C., Resende, A., Revel, M., Rosenqvist, A., Rosenqvist, J., Rudorff, C., Silva, T., Yamazaki, D., & Collischonn, W.
Remote Sensing of Environment, 278(May), 113099. https://doi.org/10.1016/j.rse.2022.113099, 2022
C2) Correction of river bathymetry parameters using the stage-discharge rating curve
Zhou, X., Revel, M., Modi, P., Shiozawa, T., & Yamazaki, D.
Water Resources Research, 58(4), https://doi.org/10.1029/2021WR031226, 2022
C1) Global 5-ARCMIN Resolution Water Resource Assessment Using the H08 Global Hydrological Model
Keisuke, D., Revel, M., Hanasaki, N., & Kanae, S.
Journal of Japan Society of Civil Engineers, Ser. B1 (Hydraulic Engineering), 76(2), I_109-I_114,https://doi.org/10.2208/jscejhe.76.2_I_109,2020
Conference Proceeding (reviewed)
P10) Global Discharge Estimation By Assimilating Satellite Altimetry with the Current Limitations of the Hydrodynamic Models in the perspective of SWOT mission
Revel, M., Zhou, X., Yamazaki, D., & Kanae, S.
AGU (American Geophysical Union) Fall Meeting, Online Everywhere, December 2022
P9) Ability of assimition of satellite altimetry to estimate river discharge
Revel, M., Zhou, X., Yamazaki, D., & Kanae, S.
Hydrology and Water Resources Society, Annual Research Conference 2022
P8) Prospects of Assimilating Remote Sensing Data into a Hydrodynamic Model in Amazon Basin
Revel, M., Yamazaki, D., & Kanae, S.
JpGU (Japan Geoscience Union) Meeting, Mukhari, Japan, May 2022
P7) Potential of Assimilating Satellite Altimetry Data into a Continental-Scale River Routing Model
Revel, M., Ikeshima, D., Yamazaki, D., & Kanae, S.
AGU (American Geophysical Union) Fall Meeting, Online Everywhere, December 2021
P6) Estimating River Discharge by Assimilating SWOT Observations using a Physically Based Empirical Localization Method
Revel, M., Ikeshima, D., Yamazaki, D., & Kanae, S.
AGU (American Geophysical Union) Fall Meeting, Online Everywhere, December 2020
P5) Assimilation of Synthetic SWOT Observations to Improve Global River Bathymetry Using Local Ensemble Transform Kalman Filter
Revel, M., Yamazaki, D., & Kanae, S.
AGU (American Geophysical Union) Fall Meeting, Washington, December 2018
P4) Seasonal Responses of Pacific Japan Teleconnection on Indo-China Peninsula
Revel, M., Utsumi, N., Yoshikawa, S., & Kanae, S.
JpGU-AGU (Japan Geophysical Union - American Geophysical Union) Joint Meeting, Makuhari Messe, Chiba, May 2017
P3) Contribution of Pacific Japan Teleconnection to Different Weather Systems in Thailand Monsoon Domain
Revel, M., Utsumi, N., Yoshikawa, S., & Kanae, S.
Proceedings of 2016 Annual Conference, Japan Society of Hydrology and Water Resources, Fukushima, September 2016, https://doi.org/10.11520/jshwr.29.0_69
P2) Predictability of Seasonal Precipitation Intensities Associated with Tropical Cyclones and Disturbances in Indo-China Region
Revel, M., Utsumi, N., Yoshikawa, S., & Kanae, S.
AGU (American Geophysical Union) Fall Meeting, San Francisco, December 2016
P1) The Impact of PJ Index on the Different Precipitation Providing Weather Systems in Indo China Region
Revel, M., Utsumi, N., Yoshikawa, S., & Kanae, S.
Proceedings of The International Science Conference on MAHASRI, Tokyo Metropolitan University, Tokyo, March 2016