Groundwater monitoring and modelling, a crucial challenge in a semi-arid and poorly documented region affected by a high poverty rate (southern Madagascar)

Romane Berthelin; Fara Pascale Rakotomandrindra; Rojin Alimohammad Nejad; Camille Ollivier; Ony Nantenaina Andriamiandrisoa; Matthieu Texier; Tsitola Benahy Ramananjato; Ludovic Oudin; Frédéric Satgé; Albert Olioso; Simone Fonda; Simon D. Carrière

doi:https://doi.org/10.5194/egusphere-egu25-17526

[Back] [Session HS2.1.6]

EGU25-17526, updated on 15 Mar 2025

https://doi.org/10.5194/egusphere-egu25-17526

EGU General Assembly 2025

© Author(s) 2025. This work is distributed under
the Creative Commons Attribution 4.0 License.

PICO | Tuesday, 29 Apr, 10:59–11:01 (CEST)

PICO spot A, PICOA.8

Groundwater monitoring and modelling, a crucial challenge in a semi-arid and poorly documented region affected by a high poverty rate (southern Madagascar)

Romane Berthelin¹, Fara Pascale Rakotomandrindra², Rojin Alimohammad Nejad¹, Camille Ollivier¹, Ony Nantenaina Andriamiandrisoa², Matthieu Texier¹, Tsitola Benahy Ramananjato³, Ludovic Oudin¹, Frédéric Satgé^4,5, Albert Olioso⁶, Simone Fonda⁷, and Simon D. Carrière^1,8

Romane Berthelin et al.

¹Sorbonne Université, Université PSL, EPHE, CNRS, Milieux Environnementaux, Transferts et Interactions dans les hydrosystèmes et les Sols, METIS, Paris, France
²Observatoire de Géophysique d'Antananarivo (IOGA), Antananarivo, Madagascar
³Action Contre la Faim, Antananarivo, Madagascar
⁴ESPACE-DEV, University Montpellier, IRD, University Antilles, University Guyane, University Réunion, Montpellier, France
⁵Instituto de Hidráulica e Hidrología (IHH), Universidad Mayor de San Andrés, La Paz, Bolivia
⁶URFM, INRAE, Avignon, France
⁷Action Contre la Faim, Paris, France
⁸UMR 5569, HSM, Univ. Montpellier, CNRS, IMT, IRD, Montpellier, France

Groundwater plays a key role in providing access to drinking water, especially in semi-arid regions where surface water is scarce or absent for much of the year. In the semi-arid region of southern Madagascar, approximately 2,000,000 people face one of the highest poverty rates in the world, making them particularly vulnerable to climatic hazards. As a result, describing and predicting groundwater dynamics is essential to understand and anticipate drought-related humanitarian crises. How to estimate groundwater recharge in a such poorly documented area?

Our work consisted of comparing two complementary approaches for estimating groundwater recharge. First, the Groundwater Resource Observatory for Southwestern Madagascar was established in 2014 in difficult logistical settings to monitor piezometric level from 16 boreholes located in various hydrogeological systems. This observatory provides long-term piezometric time series at an hourly time step, which were used to calculate recharge following the Water Table Fluctuation (WTF) Method.

Second, a spatial hydrology approach was developed to estimate potential recharge using precipitation and evapotranspiration global products based on remote sensing data. The two approaches were compared, revealing the potential and limits of both. Based on these results, we compare our findings with health outcomes, offering new avenues for research.

How to cite: Berthelin, R., Rakotomandrindra, F. P., Alimohammad Nejad, R., Ollivier, C., Andriamiandrisoa, O. N., Texier, M., Ramananjato, T. B., Oudin, L., Satgé, F., Olioso, A., Fonda, S., and Carrière, S. D.: Groundwater monitoring and modelling, a crucial challenge in a semi-arid and poorly documented region affected by a high poverty rate (southern Madagascar), EGU General Assembly 2025, Vienna, Austria, 27 Apr–2 May 2025, EGU25-17526, https://doi.org/10.5194/egusphere-egu25-17526, 2025.