A new soil mechanics approach to quantify and predict land subsidence by peat compression
article
Land subsidence threatens many coastal areas. Quantifying current and predicting future subsidence are essential to sustain the viability of these areas with respect to rising sea levels. Despite its scale and severity, methods to quantify subsidence are scarce. In peat-rich subsidence hot spots, subsidence is often caused by peat compression. We introduce the standard Cone Penetration Test (CPT) as a technique to quantify subsidence due to compression of peat. In a test in the Holland coastal plain, the Netherlands, we found a strong relationship between thickness reduction of peat and cone resistance, due to an increase in peat stiffness after compression. We use these results to quantify subsidence of peat in subsiding areas of Sacramento-San Joaquin delta and Kalimantan, and found values corresponding with previously made observations. These results open the door for CPT as a new method to document past and predict future subsidence due to peat compression over large areas. ©2016. American Geophysical Union. All Rights Reserved.
Topics
TNO Identifier
574276
ISSN
00948276
Source
Geophysical Research Letters, 43(20), pp. 10,792-10,799.
Publisher
Blackwell Publishing Ltd
Pages
10,792-10,799
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