Groundwater Prize - 9th Award

Overview

J. Jaime Gómez-Hernández – Universitat Politècnica de València, Spain

Dr. Gómez-Hernández’ work involves solving the inverse problem in hydrogeology. An inverse problem in science is the process of calculating the causal factors that produced a set of observations. A reliable depiction of groundwater flow and mass transport in the subsurface requires characterising the spatial variability of the parameters that control the state of the system. These parameters need to be known over the entire domain of interest, but in practice, can only be determined for a few locations, and unfortunately, they display a large spatial variability that makes them impossible to predict at unsampled locations without considerable uncertainty.

Dr. Gómez-Hernández’ greatest achievements in solving this problem include (1) proposing that natural heterogeneity is not well represented by multiGaussian fields, and (2) developing the ‘self-calibrating method’ using pilot points for the stochastic inversion of natural heterogeneity, which yields an estimate of the parameters, but also an estimate about their uncertainty. Both contributions, due to their novelty, were met with strong opposition at first, but have become common practice today.

Winner Profile

Dr. J. Jaime Gómez-Hernández

Dr. Gómez-Hernández is Professor of Hydraulic and Environmental Engineering at the Universitat Politècnica de València, Spain.

Education:

• 1992 – PhD; Stanford University (Geostatistics for Natural Resource Evaluation)
• 1991 – MS; Stanford University (Applied Hydrogeology)
• 1988 – Ingeniero de Caminos y Puertos; Universitat Politècnica de València (Civil Engineering)

Selected Awards:

2021 – Distinguished Lecturer for the International Association of Mathematical Geosciences
2020 – William Christian Krumbein Medal
1999 – Prize for Research and Technology of Wastes
1990 – Centennial Teaching Assistant, Stanford University

 

 

Acceptance Speech

jaime300x300His Royal Highness, authorities, ladies and gentlemen:

It is a great pleasure and honor to be awarded the Prince Bin Abdulaziz International Prize for Water. Recognition is the best reward that we scientists may have, and receiving this prize raises the recognition to its highest levels, since, without any doubt, this is the most important prize worldwide in water resources. Thank you.

Thank you also to the prize council members and to the many people who have accompanied me in my scientific journey, particularly all my former Ph.D. students, without whom most of my research could not have been completed. Last but certainly not least, thanks to my family and especially to my wife, Inma, for having provided during all these years the kind of support that we, crazy scientists, need at all times.

I have been working on groundwater for the last thirty-five years, and I have been complaining that groundwater does not receive the attention by politicians, managers, and the public in general that it deserves. Fortunately, HRH Crown Prince Sultan Bin Abdulaziz's wisdom has put water on the spot, and especially groundwater, the invisible resource.

Groundwater is a precious resource, the magnitude of which is not well understood. Did you know that about 50% of the population drinks groundwater, or that 50% of the water that flows in the rivers comes from groundwater, or that 40% of the irrigation water is pumped from the subsurface, or that groundwater is the only safe water supply in many parts of the world?

Yet, groundwater is not very well known and is not very well managed, either.

I have been attracted by mathematics since my childhood and later by computer science. Groundwater allowed me to combine both to better understand how groundwater moves underground and how aquifers may look like. We proposed new ways to interpret the data and new models to describe it. We also warned about the difficulty of making precise predictions and the importance of tagging those predictions with some uncertainty. We claimed that aquifer heterogeneity could not be modeled with simple Gaussian models, and we were heavily criticized for it. We proposed new approaches to solve the inverse problem in groundwater. And lately, we developed new ways for the identification of contaminant sources in aquifers. All of these always aimed to improve our knowledge of the underground.

Because the better we understand how aquifers function, the better we can make the best use of them: as alternative water storage to mitigate the impact of climate change, as a way to prevent saltwater intrusion, as an instrument critical to sustaining aquatic ecosystems, or simply as the source of water that should continue feeding half the world population.

Thanks again for helping to make the invisible groundwater visible.

Winning Work

[1] Teng Xu, J. Jaime Gómez-Hernández. "Probability fields revisited in the context of ensemble Kalman filtering." Journal of Hydrology, 531, Part 1, 40-52, doi:10.1016/j.jhydrol.2015.06.062, 2015.

[2] Teng Xu, J. Jaime Gomez-Hernandez, (2015). "Inverse sequential simulation: A new approach for the characterization of hydraulic conductivities demonstrated on a non-Gaussian field." Water Resources Research, 51, 2227–2242

[3] Teng Xu, J. Jaime Gómez-Hernández. "Characterization of non-Gaussian conductivities and porosities with hydraulic heads, solute concentrations, and water temperatures." Water Resources Research, 52(8), 6111-6136, doi:10.1002/2016WR019011, 2016.

[4] Teng Xu, J. Jaime Gómez-Hernández. "Joint identification of contaminant source location, initial release time, and initial solute concentration in an aquifer via ensemble Kalman filtering." Water Resources Research, 52(8), 6587-6595, doi:10.1002/2016WR019111, 2016.

[5] Teng Xu, J. Jaime Gomez-Hernandez, (2018). "Simultaneous identification of a contaminant source and hydraulic conductivity via the restart normal-score ensemble Kalman filter." Advances in Water Resources, 112, 106-123.

Back to all 9th Award Winners

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