Milliman, J.D.J.D.MillimanSAULWOOD LINKao, S.J.S.J.KaoLiu, J.P.J.P.LiuCHAR-SHINE LIUChiu, J.K.J.K.ChiuLin, Y.C.Y.C.Lin2018-09-102018-09-102007http://www.scopus.com/inward/record.url?eid=2-s2.0-34548785027&partnerID=MN8TOARShttp://scholars.lib.ntu.edu.tw/handle/123456789/330724During Typhoon Mindulle in early July 2004, the Choshui River (central-western Taiwan) discharged ∼72 Mt of sediment to the eastern Taiwan Strait; peak concentrations were ≥200 g/L, ∼35%-40% of which was sand. Box-core samples and CHIRP (compressed high-intensity radar pulse) sonar records taken just before and after the typhoon indicate that the hyperpycnal sediment was first deposited adjacent to the mouth of the Choshui, subsequently resuspended and transported northward (via the Taiwan Warm Current), and redeposited as a patchy coastal band of mud-dominated sediment that reached thicknesses of 1-2 m within megaripples. Within a month most of the mud was gone, probably continuing its northward transit, but more mud appeared in late August in response to Typhoon Aere. Following autumn and winter storms, the entire nearshore area was again sand dominated by early spring. © 2007 The Geological Society of America.application/pdf683880 bytesapplication/pdfHyperpycnal; Seafloor; Taiwan; Typhoon[SDGs]SDG13Hyperpycnal discharge; Hyperpycnal sediment; Patchy coastal band; Seafloor; Climate change; Coastal zones; Ocean currents; Sediment transport; Storms; discharge; resuspension; ripple; seafloor; sediment transport; typhoon; Asia; Choshui River; Eurasia; Far East; Taiwan; Taiwan Straitjournal article10.1130/G23760A.12-s2.0-34548785027