Extreme event attribution using kmscale simulation reveals the pronounced role of climate change in the Durban floods

dc.article.end-page15en
dc.article.start-page1en
dc.citation.doi10.1038/S43247-025-02460-5en
dc.contributor.authorFrancois Engelbrechten
dc.contributor.authorJessica Steinkopfen
dc.contributor.authorNicolette Changen
dc.contributor.authorS Biskopen
dc.contributor.authorJohan Malherbeen
dc.contributor.authorC Engelbrechten
dc.contributor.authorStefan Graben
dc.contributor.authorA le Rouxen
dc.contributor.authorColeen Vogelen
dc.contributor.authorJonathan Padavatanen
dc.contributor.authorM Thatcheren
dc.contributor.authorJohn McGregoren
dc.date.accessioned2025-09-19T08:52:35Z
dc.facultyFACULTY OF SCIENCEen
dc.identifier.citationWOSen
dc.identifier.urihttps://hdl.handle.net/10539/46516
dc.journal.titleExtreme event attribution using kmscale simulation reveals the pronounced role of climate change in the Durban floodsen
dc.journal.volume6en
dc.school5.04en
dc.titleExtreme event attribution using kmscale simulation reveals the pronounced role of climate change in the Durban floodsen
dc.typeJournal Articleen

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