Short-Term Drought Forecast across Two Different Climates Using Machine Learning Models Piraei R.; Niazkar M., Gangi F.; Eryılmaz Türkkan G.; Afzali S.H. 2024, Hydrology, doi: 10.3390/hydrology11100163
Application of Machine Learning Models for Short-term Drought Analysis Based on Streamflow Drought Index Niazkar M., Piraei R.; Zakwan M. 2024, Water Resources Management, doi: 10.1007/s11269-024-03959-w
Risk assessment of national railway infrastructure due to sea-level rise: an application of a methodological framework in Italian coastal railways Ricciardi G., Ellena M., Barbato G., Alcaras E.; Parente C.; Carcasi G.; Zarelli C.; Franciosi A.; Mercogliano P. 2024, Environmental Monitoring and Assessment, Volume 196, Issue 9 - Article number 822, doi: 10.1007/s10661-024-12942-2
Reconsidering the impact of environmental, social and governance practices on firm profitability Agnese P.; Carè R.; Cerciello M.;Taddeo S. 2024, Management Decision, doi: 10.1108/MD-10-2023-1943
Editorial: Assessment of Climate Change Impact on Water Resources Using Machine Learning Algorithms Niazkar M., Zakwan M.; Reza Goodarzi M.; Azamathulla Hazi M. 2024, Journal of Water and Climate Change, doi: 10.2166/wcc.2024.002
Assessing the impact of COVID-19 lockdowns on water quality in Anzali Wetland, Iran, using remote sensing data Goodarzi M.R.; Niknam A.R.R.; Sabaghzadeh M.; Mokhtari M.H.; Niazkar M. 2024, Water Practice and Technology, Volume 19, Issue 6, Pages 2237 - 2254, doi: 10.2166/wpt.2024.135
A comparison of machine learning methods for estimation of snow density using satellite images Goodarzi M.R.; Sabaghzadeh M.; Barzkar A.; Niazkar M., Saghafi M. 2024, Water and Environment Journal, doi: 10.1111/wej.12939
Producer, farm, production or perception? What really drives adaptation to climate change in the case of producers of Geographical Indications? Pagliacci F.; Salpina D. 2024, Bio-based and Applied Economics, https://oaj.fupress.net/index.php/bae/article/view/15221
A perspective on the next generation of Earth system model scenarios: Towards representative emission pathways (REPs) Meinshausen M.; Schleussner C.-F.; Beyer K.; Bodeker G.; Boucher O.; Canadell J.G.; Daniel J.S.; Diongue-Niang A.; Driouech F.; Fischer E.; Forster P.; Grose M.; Hansen G.; Hausfather Z.; Ilyina T.; Kikstra J.S.; Kimutai J.; King A.D.; Lee J.-Y.; Lennard C.; Lissner T.; Nauels A.; Peters G.P.; Pirani A., Plattner G.-K.; Pörtner H.; Rogelj J.; Rojas M.; Roy J.; Samset B.H.; Sanderson B.M.; Séférian R.; Seneviratne S.; Smith C.J.; Szopa S.; Thomas A.; Urge-Vorsatz D.; Velders G.J.M.; Yokohata T.; Ziehn T.; Nicholls Z. 2024, Geoscientific Model Development, Volume 17, Issue 11, Pages 4533 - 4559, doi: 10.5194/gmd-17-4533-2024
Hydraulic Conductivity Estimation: Comparison of Empirical Formulas Based on New Laboratory Experiments Goodarzi M.R.; Vazirian M.; Niazkar M. 2024, Water (Switzerland), Volume 16, Issue 13 - Article number 1854, doi: 10.3390/w16131854