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Titel |
Effects of vegetation cover on landscape denudation rates |
VerfasserIn |
Veronica Torres Acosta, Taylor Schildgen, Brian Clarke, Dirk Scherler, Bodo Bookhagen, Hella Wittmann, Friedhelm von Blankenburg, Manfred Strecker |
Konferenz |
EGU General Assembly 2014
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Medientyp |
Artikel
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Sprache |
Englisch
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Digitales Dokument |
PDF |
Erschienen |
In: GRA - Volume 16 (2014) |
Datensatznummer |
250093789
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Publikation (Nr.) |
EGU/EGU2014-8857.pdf |
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Zusammenfassung |
Increasing slope or relief in a landscape has long been known to correlate with faster
denudation rates. Despite a number of studies that have attempted to clarify the
additional role of precipitation on denudation, deciphering the complex influence of
climate on erosion rates in a landscape with variable slope and relief has remained
difficult.
The eastern and western branches of the East African Rift System (EARS) constitute
first-order tectonic and topographic features in East Africa, which have a profound influence
on the distribution and amount of rainfall. The Kenya Rift is an integral part of
the eastern branch and is characterized by pronounced differences in morphology,
rainfall, and vegetation cover. While paleoclimatic studies in this region reveal
general stability of the precipitation and vegetation patterns, short-term changes
on timescales of ca. 104 yrs have affected the area multiple times throughout the
Pleistocene.
We present 20 10Be-derived catchment-wide mean denudation rates from various
morphotectonic sectors of the Kenya Rift. The sampling locations include steep rift
escarpments, step-faulted composite escarpments, and gently inclined rift-shoulder areas.
These different environments also span a rainfall gradient of 0.004 to 4 m/yr, and vegetation
covers that range from very sparse to dense. For comparison, 10Be-derived denudation
rates are also available from the Rwenzori Mountains in the western branch of
the rift system. There, rainfall is high and the vegetation cover is denser than the
studied sites in Kenya, but the range of relief and slopes is similar. A first-order
comparison of our new denudation rates from Kenya with climatic and topographic
characteristics of the catchments show no obvious correlations. However, denudation rates
from sparsely vegetated environments in the Kenya Rift define a steep trend in the
denudation rate-slope relationship, while denudation rates from the densely vegetated
portion of the Kenya Rift and the Rwenzori Mountains define a shallower trend,
with rates that are more than 50% lower when comparing areas of similar slope.
Generally, millennial-scale denudation rates in the East African Rift increase faster
with topographic slope where vegetation is sparse, implying that (1) vegetation
stabilizes the soil layer and supports steeper slopes, creating a negative feedback in the
relationship between precipitation and denudation, and (2) minor changes in climate
can substantially affect denudation rates if they cause vegetation cover to change. |
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