2014
DOI: 10.5194/esurf-2-455-2014
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The linkages among hillslope-vegetation changes, elevation, and the timing of late-Quaternary fluvial-system aggradation in the Mojave Desert revisited

Abstract: Abstract. Valley-floor-channel and alluvial-fan deposits and terraces in the southwestern US record multiple episodes of late-Quaternary fluvial-system aggradation and incision. Perhaps the most well-constrained of these episodes took place from the latest Pleistocene to the present in the Mojave Desert. One hypothesis for this episode -i.e., the paleovegetation-change hypothesis (PVCH) -posits that a reduction in hillslope vegetation cover associated with the transition from Pleistocene woodlands to Holocene … Show more

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Cited by 22 publications
(29 citation statements)
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“…Such an expansion of the fluvial drainage network could have mobilized hillslope deposits stored as colluvium during the last glacial epoch, mobilizing large volumes of sediment into the fluvial system during the transition to the present interglacial (Bull, 1991;Pelletier, 2014). This hypothesis is consistent with measured ages of the onset of aggradation in valley floor and alluvial fan depositional zones in the central Mojave Desert, in which aggradation occurs earliest (ca.…”
Section: J D Pelletier Et Al: the Influence Of Holocene Vegetationsupporting
confidence: 83%
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“…Such an expansion of the fluvial drainage network could have mobilized hillslope deposits stored as colluvium during the last glacial epoch, mobilizing large volumes of sediment into the fluvial system during the transition to the present interglacial (Bull, 1991;Pelletier, 2014). This hypothesis is consistent with measured ages of the onset of aggradation in valley floor and alluvial fan depositional zones in the central Mojave Desert, in which aggradation occurs earliest (ca.…”
Section: J D Pelletier Et Al: the Influence Of Holocene Vegetationsupporting
confidence: 83%
“…In especially arid areas of the southwestern USA such as the central Mojave Desert, the range of elevations affected by late Quaternary conversions of grasslands/woodlands to shrublands extends to elevations as high as 1800 m a.s.l. (Pelletier, 2014).…”
Section: J D Pelletier Et Al: the Influence Of Holocene Vegetationmentioning
confidence: 99%
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“…On uplands, the distinction between hillslopes and valley bottoms is important for the purposes of estimating soil, intact regolith, and sedimentary deposit thicknesses because upland valley bottoms, while erosional over long time scales, can be areas of significant deposition over short time scales, which can result in locally thick sedimentary deposits. For example, variations in erosion rates caused by Quaternary climatic changes have led to recent (i.e., 10 3 to 10 4 years) deposition in many valley bottoms, even those within mountain ranges that are undergoing net erosion over longer time scales [Bull, 1991;Pelletier, 2014]. The distinction between hillslopes and valley bottoms is usually not significant for estimating sedimentary deposit thicknesses in lowlands because sedimentary deposit thicknesses are most strongly controlled by structural geologic factors (e.g., fault geometries that define the boundaries between mountain ranges and adjacent depositional basins), with surface topography acting as a relatively minor controlling factor.…”
Section: Definitions and Conceptual Modelmentioning
confidence: 99%
“…Upland valley bottoms are areas that have undergone net erosion over geologic time scales but are often infilled with sedimentary deposits as a result of Quaternary climatic changes that have episodically delivered large volumes of sediment from hillslopes to valley bottoms that are not adjusted to transport such high sediment loads [e.g., Bull, 1991;Pelletier, 2014]. As a result, many of these valley bottoms are filled with meters to tens of meters of sediment above bedrock.…”
Section: Estimating Sedimentary Deposit Thickness On Upland Valley Bomentioning
confidence: 99%