Links among slope morphology, canyon types and tectonics on passive and active margins in the northernmost South China Sea

Ho-Shing Yu; Emmy T. Y. Chang

doi:10.1007/s12583-009-0008-1

Journal of Earth Science ›› 2009, Vol. 20 ›› Issue (1) : 77 -84. DOI: 10.1007/s12583-009-0008-1

Article

Links among slope morphology, canyon types and tectonics on passive and active margins in the northernmost South China Sea

Ho-Shing Yu ¹^,^a
, Emmy T. Y. Chang ¹

Author information +

History +

PDF

Abstract

We examine slope profile types and variations in slope gradient and slope relief with depth for both passive and active margins in the northern most South China Sea. The passive South China margin is characterized by an exponential slope profile, mainly associated with clustered slope-confined canyons. The active Taiwan margin shows a linear-like shape with great variations along the lower slope. Fewer canyons occur on the Taiwan margin, and hence the influence of canyon incision on slope morphology is relatively less significant. Quantitative analyses of slope curvature, slope gradient and square root of relief variance are useful statistical parameters to explain characteristics and variability of morphology of the slope of the South China margin, but not for the Kaoping slope on the Taiwan side. On the active Taiwan margin, tectonic activities are dominant over sediment deposition and surface erosion, producing a slope profile quite different from those of passive margins of the Middle Atlantic, KwaZulu-Natal, South Africa where failure on slope and accompanying canyon incision are the dominant processes shaping the slope morphology.

Keywords

slope morphology / canyon / statistical analysis / continental margin / South China Sea

Cite this article

Download citation ▾

Ho-Shing Yu, Emmy T. Y. Chang. Links among slope morphology, canyon types and tectonics on passive and active margins in the northernmost South China Sea. Journal of Earth Science, 2009, 20(1): 77-84 DOI:10.1007/s12583-009-0008-1

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Adams E. W., Schlager W.. Basic Types of Submarine Slope Curvature. J. Sed. Res., 2000, 70: 814-828.

[2]	Chiang C. S., Yu H. S.. Morphotectonics and Incision of the Kaoping Submarine Canyon, SW Taiwan Orogenic Wedge. Geomorphology, 2006, 80(3–4): 199-213.

[3]	Goff J. A.. Quantitative Classification of Canyon Systems on Continental Slopes and a Possible Relationship to Slope Curvature. Geophy. Res. Lett., 2001, 28(23): 4359-4362.

[4]	Green A. N., Goff J. A., Uken R.. Geomorphological Evidence for Upslope Canyon-Forming Processes on the KwaZulu-Natal Shelf, SW Indian Ocean, South Africa. Geo-Mar. Lett., 2007, 27(6): 399-409.

[5]	Lallemand S. E., Tsien H. H.. An Introduction to Active Collision in Taiwan. Tectonophysics, 1997, 274(1–3): 1-4.

[6]	Liu C. S., Huang I. L., Teng L. S.. Structural Features off Southwestern Taiwan. Mar. Geol., 1997, 137(3–4): 305-319.

[7]	Liu C. S., Liu S. Y., Lallemand S., . Digital Elevation Model Offshore Taiwan and Its Tectonic Implications. TAO, 1998, 9: 705-738.

[8]	Liu C. S., Lundberg N., Reed D. L., . Morphological and Seismic Characteristics of the Kaoping Submarine Canyon. Mar. Geol., 1993, 111(1–2): 93-108.

[9]	Mitchell N. C.. Interpreting Long-Profiles of Canyons in the USA Atlantic Continental Slope. Mar. Geol., 2005, 214(1–3): 75-99.

[10]	O’Grady D. B., Syvitski J. P. M., Pratson L. F., . Categorizing the Morphologic Variability of Siliciclastic Passive Continental Margins. Geology, 2000, 28: 207-210.

[11]	Prather B. E., Booth J. R., Steffens G. S., . Classification, Lithologic Calibration, and Stratigraphic Succession of Seismic Facies of Intraslope Basins, Deep-Water Gulf of Mexico. AAPG Bull., 1998, 82: 701-728.

[12]	Pratson L. F., Haxby G. S.. What is the Slope of the U.S. Continental Margin?. Geology, 1996, 24: 3-6.

[13]	Shepard F. P.. Submarine Canyons: Multiple Causes and Long-Time Persistence. AAPG Bull., 1981, 65: 1062-1077.

[14]	Wessel P., Smith W. H. F.. New Version of the Generic Mapping Tools Released. EOS Trans. AGU, 1995, 76: 329

[15]	Wu, C. C., Liu, C. S., 2006. Distribution and Information of Submarine Slides Offshore Southern Taiwan. European Geosciences Union General Assembly, Abstract. Vienna, Austria

[16]	Yu H. S., Chiang C. S.. Seismic and Morphological Characteristics of the Kaohsiung Submarine Canyon, Southwestern Taiwan. J. Geol. Soc. China, 1996, 39(1): 73-86.

[17]	Yu H. S., Hong E.. Shifting Submarine Canyons and Development of a Foreland Basin in SW Taiwan: Controls of Foreland Sedimentation and Longitudinal Sediment Transport. J. Asian Earth Sci., 2006, 27(6): 922-932.

[18]	Yu, H. S., Huang, Z. Y., 2007. Morphotectonics and Sedimentation in Convergent Margin Basins: An Example from Juxtaposed Marginal Sea Basin and Foreland Basin, Northern South China Sea. Tectonophysics, doi: 10.1016/j.tecto.2007.11.007

[19]	Yu H. S., Lu J. C.. Development of the Shale Diapir-Controlled Fangliao Submarine Canyon on the Continental Slope off Southwestern Taiwan. J. Asian Earth Sci., 1995, 11(4): 265-276.

[20]	Yu H. S., Song G. S.. Submarine Physiographic Features in Taiwan Region and Their Geological Significance. J. Geol. Soc. China, 2000, 43(2): 267-286.