2018
DOI: 10.1002/2017tc004796
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Early Cenozoic Denudation of Central West Britain in Response to Transient and Permanent Uplift Above a Mantle Plume

Abstract: Upwelling mantle plumes beneath continental crust are predicted to produce difficult to quantify, modest uplift and denudation. The contribution of permanent and transient components to the uplift is also difficult to distinguish. A pulse of denudation in Britain in the Early Paleogene has been linked, although with some controversy, with the arrival of the proto‐Iceland mantle plume. In this contribution we show that combining apatite and zircon (U‐Th‐Sm)/He and apatite fission track analyses from central wes… Show more

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Cited by 7 publications
(5 citation statements)
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References 93 publications
(215 reference statements)
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“…Prominent erosional surfaces are limited in spatial extent, and determining their absolute ages can be challenging. In the absence of these large-scale features, local constraints on the timing and magnitude of denudation (the amount of overburden stripped off) are still very valuable for inferring changes in dynamic topography, as erosion is isostatically related to the amplitude of tectonic or dynamic uplift (England & Molnar, 1990;Brodie & White, 1994;Japsen et al, 2006;Luszczak et al, 2018). In order to extract quantitative estimates of denudation, the last few decades have seen a proliferation of geochronologic techniques that exploit radioactive decay, either induced by bombardment of atoms by cosmogenic radiation or from spontaneous alpha, beta, and fission decay of radionuclides.…”
Section: Landscape Denudation and Thermochronologymentioning
confidence: 99%
See 1 more Smart Citation
“…Prominent erosional surfaces are limited in spatial extent, and determining their absolute ages can be challenging. In the absence of these large-scale features, local constraints on the timing and magnitude of denudation (the amount of overburden stripped off) are still very valuable for inferring changes in dynamic topography, as erosion is isostatically related to the amplitude of tectonic or dynamic uplift (England & Molnar, 1990;Brodie & White, 1994;Japsen et al, 2006;Luszczak et al, 2018). In order to extract quantitative estimates of denudation, the last few decades have seen a proliferation of geochronologic techniques that exploit radioactive decay, either induced by bombardment of atoms by cosmogenic radiation or from spontaneous alpha, beta, and fission decay of radionuclides.…”
Section: Landscape Denudation and Thermochronologymentioning
confidence: 99%
“…Application of such analyses to the problem of landscape denudation can bracket the timing of the onset of incision, peneplanation episodes, burial by sedimentary deposition, or active tectonic processes, all of which may be associated with regional epeirogenic uplift (e.g. Japsen et al, 2006;Stanley et al, 2015;Luszczak et al, 2018;Wildman et al, 2016). Landscape evolution models indicate that the maximum magnitudes of denudation associated with dynamic topographic motions should be on the order of 2-3 km (e.g.…”
Section: Landscape Denudation and Thermochronologymentioning
confidence: 99%
“…3D backstripping used the same parameters, but involved further decompaction until the level of the West Bressay catchment (complete removal of the Moray Group), as seen in Figure 17B. The relief values shown in Figure 17B are obtained from adjusting the decompacted paleobathymetries by 350 m to compensate for excessive burial during the Upper Dornoch Fm -Beauly Member Łuszczak et al, 2018;Roberts et al, 2019). This could be related to transient dynamic support which is no longer present in the area.…”
Section: Depth Conversion and Decompactionmentioning
confidence: 99%
“…Prominent erosional surfaces are limited in spatial extent, and determining their absolute ages can be challenging. In the absence of these large-scale features, local constraints on the timing and magnitude of denudation (the amount of overburden stripped off) are still valuable for inferring changes in dynamic topography, as erosion is isostatically related to the amplitude of tectonic or dynamic uplift (England & Molnar, 1990;Brodie & White, 1994;Japsen et al, 2006;Luszczak et al, 2018;Jess et al, 2018). In order to extract quantitative estimates of denudation, the last few decades have seen a proliferation of geochronologic techniques that exploit radioactive decay, either induced by bombardment of atoms by cosmogenic radiation or from spontaneous alpha, beta, and fission decay of radionuclides.…”
Section: Landscape Denudation and Thermochronologymentioning
confidence: 99%
“…Application of such analyses to the problem of landscape denudation can bracket the timing of the onset of incision, peneplanation episodes, burial by sedimentary deposition, or active tectonic processes, all of which may be associated with regional epeirogenic uplift (e.g. Japsen et al, 2006;Stanley et al, 2015;Luszczak et al, 2018;Wildman et al, 2016;Guillaume et al, 2013). Landscape evolution models indicate that the maximum magnitudes of denudation associated with dynamic topographic motions should be on the order of 2-3 km (e.g.…”
Section: Landscape Denudation and Thermochronologymentioning
confidence: 99%