Abstract
Heavy mineral assemblages have been widely used to effectively trace sediment sources. Heavy mineral assemblages are rarely used in research to trace sediment sources in the southern Okinawa Trough compared with geochemical proxies. In this study, the TESCAN Integrated Mineral Analyzer (TIMA) revealed the full-size heavy mineral assemblages in the five layers of the core sediment H4-S2 in the southern Okinawa Trough. During the past 700 years, the heavy mineral assemblages in the sediments of the southern Okinawa Trough were very similar to the East China Sea shelf/Yangtze River, mainly composed of mica and chlorite; dolomite; actinolite; and hematite/magnetite. The grain size distribution of heavy minerals is in the clay–sand range and mainly in silt. Actinolite and hornblende can indicate the supply of sediments from the East China Sea shelf/Yangtze River to the southern Okinawa Trough. Due to their complex sources, pyrite, epidote, and hematite/magnetite are not adequate indicators for distinguishing between the different provenance areas. Because previous studies have used a variety of analytical methods, especially using heavy liquids with different densities, dolomite cannot be used as a marker for sediments on the Yangtze River/East China Sea shelf. Therefore, the East China Sea shelf/Yangtze River is a vital provenance of sediments from the southern Okinawa Trough since the late Holocene period.
Highlights
The southern Okinawa Trough (SOT), as the deepest region of the Okinawa Trough (OT), has the highest deposition rate of the Holocene, about 9.5 m/ka [1]
In OTS-1, the heavy mineral assemblages are dominated by actinolite (18.57%), epidote (18.56%), and mica and chlorite (11.34%)
In OTS-2, the heavy minerals are mainly composed of dolomite (29.18%), mica and chlorite (25.88%), and actinolite (10.35%)
Summary
The southern Okinawa Trough (SOT), as the deepest region of the Okinawa Trough (OT), has the highest deposition rate of the Holocene, about 9.5 m/ka [1]. Due to its extremely fast deposition rate, the SOT has become a key area for the study of oceanic circulation and paleoclimate evolution [2]. The provenance of the SOT is in the spotlight. Studies on the source of sediments in the SOT since the Holocene have been inconclusive [2]. The Sr-Nd isotopic composition indicates the provenance of SOT sediments since the Holocene in Taiwan rivers [3,4].
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