Accumulation rate and mixing of shelf sediments in the Monterey Bay National Marine Sanctuary

Primary tabs

Lewis, R. C., Coale, K. H., Edwards, B. D., Marot, M., Douglas, J. N., & Burton, E. J. (2002). Accumulation rate and mixing of shelf sediments in the Monterey Bay National Marine Sanctuary. Marine Geology, 181(1), 157-169. doi:10.1016/S0025-3227(01)00265-1
Metadata
TitleAccumulation rate and mixing of shelf sediments in the Monterey Bay National Marine Sanctuary
AuthorsR. Lewis, K. Coale, B. Edwards, M. Marot, J. Douglas, E. Burton
AbstractThe distribution of excess 210Pb in 31 sediment cores was used to determine modern (last 100 yr) mass accumulation rates and the depth of sediment mixing on the continental shelf between Pacifica and Monterey, California, USA. Apparent mass accumulation rates average 0.27 g cm-2 yr-1 and range from 0.42 g cm-2 yr-1 to 0.12 g cm-2 yr-1. Accumulation rates were highest at mid-shelf water depths (60-100 m) adjacent to major rivers and near the head of the Ascension submarine canyon. Cores from water depths of less than 65 m had low, uniform 210Pb activity profiles and sandy textures. The uppermost 5-13 cm of 15 cores had uniform 210Pb activity profiles above a region of steadily decreasing 210Pb activity. This phenomenon was attributed to sediment mixing. The thickness of this upper layer of uniform 210Pb activity decreased southward from 13 cm, west of Pacifica, to less than 5 cm, near Monterey Canyon. This southward decrease may be attributed to shallower bioturbation in the southern study area. Integrated excess 210Pb activities were generally higher where sedimentation rates were high. They were also higher with increasing distance from major rivers. Thus, sedimentation rate alone does not explain the distribution of integrated excess 210Pb in this study area. Excess 210Pb in the seafloor is controlled by other factors such as sediment texture, the atmospheric deposition rate of 210Pb, and the residence time of sediment particles in the water column. © 2002 Elsevier Science B.V. All rights reserved.
JournalMarine Geology
Date2002
Start page157
End page169
ISSN0025-3227
SubjectsAccumulation rate, Lead, Sand, Sedimentation, Sediments, Textures, Submarine geology, continental shelf, lead isotope, mixing, sediment core, sedimentation rate, shelf sediment, United States
NoteCited By (since 1996):28, CODEN: MAGEA, Oceanography

Bookmark

Bookmarks: