Abstract
To synthetically realize the character of major-element compositions as well as its significance for provenance and paleoenvironment recorded in core sediments of the West Philippine Sea over the last 700 ka, grain size and major elements of 221 bulk sediments, together with major-element compositions in the detrital phase of 16 typical samples, in core MD06-3047 collected from the Benham Rise were analyzed. Both discrimination plot and R-mode factor analysis indicate that vertical changes of major elements are mainly controlled by the sedimentation of nearby volcanic matter and the eolian dust input, whereas influences from marine biologic deposition and hydrothermal activity are minor. In particular, Al2O3 and K2O are representative of an eolian dust factor. The variation in the eolian dust factor score is characterized by the obviously glacial-interglacial periodicity and can be well compared with the paleotemperature record of the Antarctic ice core and the evolution of the East Asian winter monsoon (EAWM) recorded in the Chinese loess sequence, and then offers a new proxy for the evolution history of eolian dust input into the study area that is controlled by the EAWM intensity and aridity in the continental source regions of atmospheric dust.
Highlights
To synthetically realize the character of major-element compositions as well as its significance for provenance and paleoenvironment recorded in core sediments of the West Philippine Sea over the last 700 ka, grain size and major elements of 221 bulk sediments, together with major-element compositions in the detrital phase of 16 typical samples, in core MD06-3047 collected from the Benham Rise were analyzed
Based on synthetic analyses of major-element contents of 221 bulk sediments and detrital phase of 16 typical samples, combining with our previous work on surface sediments of the East Philippine Sea (EPS) [9,12,15], the present study aims to reveal the general character of major elements in core samples of the West Philippine Sea (WPS), and the better understanding on sediment provenance as well as its paleoenvironmental significance
The applied age model in this study was obtained by comparing our δ18O curve for the benthic foraminifer C. wuellerstorfi with the standard LR04 δ18O stack (Figure 1) [17]
Summary
To synthetically realize the character of major-element compositions as well as its significance for provenance and paleoenvironment recorded in core sediments of the West Philippine Sea over the last 700 ka, grain size and major elements of 221 bulk sediments, together with major-element compositions in the detrital phase of 16 typical samples, in core MD06-3047 collected from the Benham Rise were analyzed Both discrimination plot and R-mode factor analysis indicate that vertical changes of major elements are mainly controlled by the sedimentation of nearby volcanic matter and the eolian dust input, whereas influences from marine biologic deposition and hydrothermal activity are minor. Based on synthetic analyses of major-element contents of 221 bulk sediments and detrital phase of 16 typical samples, combining with our previous work on surface sediments of the East Philippine Sea (EPS) [9,12,15], the present study aims to reveal the general character of major elements in core samples of the WPS, and the better understanding on sediment provenance as well as its paleoenvironmental significance
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