Publications
Under review
[1] A. Citrini, M. Sangiorgio, L. Rosa. Disentangling the roles of future scenarios and climate/hydrological models in global water gap projections.
[2] A. Citrini, B.R. Scanlon, A. Rateb, G. Zhao, M. Sangiorgio, L. Rosa. Global managed aquifer recharge potential as a solution to water scarcity.
Published
[3] L. Rosa, A. Citrini, T. Terlouw, S. Mingolla. Water Scarcity Risks in Ammonia Fertilizer Production Pose a Threat to Global Food Security. Environmental Science & Technology 2025. https://pubs.acs.org/doi/10.1021/acs.est.5c14489
[4] A. Citrini, A. Bruggeman, I. Sofokleous, G. Zittis, G. Lazoglou, G.P. Beretta, C. Camera. Streamflow Projections in Valgrosina Valley: Climate Change Calls for Adaptation in the Alpine Region. 2025. HYDROLOGICAL PROCESSES, 39(10), e70276. https://doi.org/10.1002/hyp.70276.
[5] A. Citrini, M. Sangiorgio, L. Rosa. Global multi-model trends of unsustainable irrigation under climate change scenarios. Environmental Research Letters. 2025. 10.1088/1748-9326/adfcee
[6] G.P. Beretta, F. La Vigna, C. Camera, R.M. Gafà, A. Citrini, L. Martarelli, G.M. Monti, M. Roma, A. Silvi, V. Vitale, C. Fiori, M. Masetti, F. Pascarella, R. Proietti, S. Lo Faro, M.P. Congi, M. Gerardi, S. Tersigni, T. Baldoni, S. Ramberti, G. Barbato, P. Mercogliano, G. Giugliano. 2025. Hydrogeological Map of Italy 1:500.000 scale. 4 Sheets, Supplementary Notes and online tables. ISPRA – Geological Survey of Italy. Roma. https://sinacloud.isprambiente.it/portal/apps/sites/#/idrogeologia/pages/cartaidrogeologica500k
[7] A. Citrini, G. Lazoglou, A. Bruggeman, G. Zittis, G.P. Beretta, C. Camera. 2024. Advancing Hydrologic Modelling Through Bias Correcting Weather Radar Data: The Valgrosina Case Study in the Italian Alps. HYDROLOGICAL PROCESSES, 38(11), e15339. https://doi.org/10.1002/hyp.15339
[8] A. Citrini, A. Mayer, C. Camera, A. Erőss, J. Sültenfuß, G. Pezzera, G.P. Beretta. 2024. Hydrogeochemical and isotopic characterization of the main karst aquifers of the middle Valseriana (Northern Italy): Nossana and Ponte del Costone springs. APPLIED GEOCHEMISTRY, 169, 106046. https://doi.org/10.1016/j.apgeochem.2024.106046
[9] A. Citrini, C. Camera, F. Alborghetti, G.P. Beretta. 2021. Karst groundwater vulnerability assessment: application of an integrative index-based approach to main catchments of middle Valseriana springs (Northern Italy). DOI: 10.1007/s12665-021-09860-8. In ENVIRONMENTAL EARTH SCIENCES vol. 80 (17)
[10] A. Citrini, C. Camera, G.P. Beretta. 2020. Nossana Spring (Northern Italy) under Climate Change: Projections of Future Discharge Rates and Water Availability. DOI: https://doi.org/10.3390/w12020387. In WATER vol. 12 (2)
Editorials and columns
[1] A. Citrini, D. Lepore, D. Sartirana. 2025. Innovation and the Future of Hydrogeology: the point of view of ECHN-Italy. Acque Sotterranee-Italian Journal of Groundwater, 14(1).
[2] R.M. Gafà, F. La Vigna, C.A.S. Camera, L. Martarelli, G.M. Monti, M. Roma, A. Citrini, …, G.P. Beretta. 2024. The activity plan for the realization of the Hydrogeological Map of Italy at 1: 500,000 scale. Acque Sotterranee-Italian Journal of Groundwater, 13(1), 127-130.
[3] A. Di Giovanni,A. Citrini, E. Edigio. 2024. ECHN-Italy: overview of activities from the last year and future challenges. Acque Sotterranee-Italian Journal of Groundwater, 13(1), 123-125.
Conference presentations & Invited talks
[1] 2025. A. Citrini. Kick-off meeting. TRIEM – Tritium Release Information Exchange Meeting. (Online).
[2] 2025. C. Casarotto, A. Citrini, A. Morcioni, C.A.S. Camera. Field, geomechanical and laboratory investigations to develop and parametrize a numerical stress-strain model for the reconstruction of the Sasso Maurigno instability events (Valgrosina, northern Italy). https://doi.org/10.5194/egusphere-egu25-11430. EGU 2025, Vienna, Austria.
[3] 2024. A. Citrini, M. Sangiorgio, L. Rosa. Projected timelines of water depletion in world’s major irrigated agriculture hotspots. AGU 2024, Washington, D.C., USA.
[4] 2024. A. Citrini. Internal Talk Series. MC3 – Max Planck Center (https://mc-3.org/). (Online).
[5] 2023. A. Citrini, G.P. Beretta, C. Camera. Unveiling the hydrological response to climate change in the alpine environment: the case study of Valgrosina (northern Italy). AGU 2023, San Francisco, USA.
[6] 2023. A. Morcioni, T. Apuani, A. Citrini, F. Cecinato, M. Veveakis. Prediction of the evolution of a large landslide under different climate scenarios: a physics-based model applied to the Ruinon Landslide (Italian Alps). World Landslide Forum, Florence, Italy.
[7] 2023. A. Citrini, G.P. Beretta, C. Camera. Weather radar precipitation as functional input for the operative calculation of potential infiltration water volume: the pilot case of the Lombardy Region. Flowpath 2023, St. Julian, Malta.
[8] 2023. C. Camera, A. Citrini, A. Morcioni, C. Casarotto, G.P. Beretta. Verification of snow-pillow measures through snow stratigraphy profiles for the determination of the Snow Water Equivalent in Valgrosina (northern Italy). Flowpath 2023, St. Julian, Malta.
[9] 2023. A. Citrini, G. Lazoglou, A. Bruggeman, G. Zittis, G.P. Beretta, C. Camera. Correction of hourly radar precipitation data based on rain-gauges values: what is the most efficient method for hydrologic modeling purposes?. DOI: 10.5194/egusphere-egu23-15902. EGU 2023, Vienna, Austria.
[10] 2022. A. Citrini, C. Camera, S. Bertocchi, G.P. Beretta. The exploitation of the middle Valseriana springs (northern Italy): current situation, studies undertaken, and next challenges. Sustain Valencia 2022, Valencia, Spain.
[11] 2022. A. Citrini, C. Camera, S. Bertocchi, G.P. Beretta. Preservation of drinking water: examples and applications of new technologies for the quality and quantitative monitoring of the resource. Food Safety and Healthy Living FSHL, Brasov, Romania and Online (Invited).
[12] 2022. A. Citrini, C. Camera, L. Marini, G.P. Beretta. Preliminary results regarding the simulation of a streamflow strongly influenced by anthropogenic use in an alpine context: the case of the Grosina valley (northern Italy). DOI: 10.5194/egusphere-egu22-1882. EGU 2022, Vienna, Austria.
[13] 2021. A. Citrini, C. Camera, F. Alborghetti, G.P. Beretta. The COPA+K method: an index-based approach for the karst groundwater vulnerability assessment. The Valseriana springs case (Northern Italy). Flowpath 2021, Naples, Italy.
[15] 2021. A. Citrini, C. Camera, F. Alborghetti, G.P. Beretta. Vulnerability assessment of karst aquifers using the COPA+K index based method: the case of the Valseriana springs (Northern Italy). International Symposium on Geofluids, Online.
[16] 2021. A. Citrini. Climate Change and karst water resources: the Nossana spring case (northern Italy). Jo.In Hydrocafe, Online (Invited).
[17] 2020. C. Camera, A. Citrini, G.P. Beretta. Effects of climate change on the Nossana karst spring (northern Italy): future discharge projections and water distribution system sustainability. DOI: 10.5194/egusphere-egu2020-3448. EGU 2020, Vienna, Austria.
[18] 2019. A. Citrini, C. Camera, and G.P. Beretta. Nossana Karst Spring Behaviour under future Climate Change Scenarios. Flowpath 2019, Milan, Italy
Academic service and Outreach
Co-chair and member of
ECHN-IAH Italy: Early Career Hydrogeologists’ Network of International Association of Hydrogeologists, Italian Chapter (https://www.iahitaly.it/echn-members)
CIPA at BSE Stanford campus: the Carnegie Institution Postdoctoral Association at the Biosphere Sciences & Engineering based at Staford. It is an organization composed of all postdocs at Carnegie Science and serves to build community amongst campus postdocs, share useful resources, and collectively advocate for BSE postdoc-specific issues (https://carnegiescience.edu/about/working/postdoctoral-fellow-opportunities).
Editor for
Acque Sotterranee – Italian Journal of Groundwater
Reviewed manuscripts for
Acque Sotterranee – Italian Journal of Groundwater
International Soil and Water Conservation Research
Media coverage
2025-07-13. La Stampa. “Pronta la nuova mappa delle riserve idriche italiane; «Parte da Milano il progetto di misurazione delle falde da cui proviene l’85% dell’acqua potabile»”. https://www.lastampa.it/milano/2025/07/13/news/pronta_la_nuova_mappa_delle_riserve_idriche_italiane-15230667/?ref=LSHRT-NOR-Pnull-S1-T1
2023-04-15. L’Eco di Bergamo. “Sorgente Nossana, lo studio dei geologi della Statale con Uniacque: «Fasi critiche destinate a crescere»”. https://www.ecodibergamo.it/stories/premium/valle-brembana/sorgente-nossana-studio-dei-geologi-della-statale-uniacque-fasi-critiche-o_1467666_11/
∇ - The Water Table 