In-situ cosmogenic 36Cl denudation rates of carbonates in Guizhou karst area

Xu, Sheng; Liu, Cong Qiang; Freeman, Stewart P.H.T.; Lang, Yun Chao; Schnabel, Christoph; Tu, Chengjian; Wilcken, Klaus M.

doi:10.1007/s11434-013-5756-8

Cited by 31 publications

(19 citation statements)

References 19 publications

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“…Matsushi et al (2010) showed the importance of chemical dissolution in karst areas under subtropical climates in Japan and the greater impact of physical erosion in subarctic environments. Xu et al (2013) came to similar conclusions studying samples collected in various climatic contexts in China and whose sampling altitudes ranged from 500 to 2300 meters above sea level. They determined denudation rates varying from 17 to 47 mm/ka that are roughly inversely proportional to the Mean Annual Temperature (MAT) at the sampling sites.…”

Section: -Development and Applications Of Cosmogenic Nuclides In Carbsupporting

confidence: 61%

Limited influence of climatic gradients on the denudation of a Mediterranean carbonate landscape

et al. 2018

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The dynamics of carbonate-dominated landscapes is still debated, and first-order questions pertaining to the respective importance of chemical and mechanical weathering processes or the influence of climatic variability on denudation rates are largely open. To address these issues, we investigate the denudation pattern across a climatic gradient in Provence, SE France. We focused on a series of major carbonate mountain ranges with elevation spanning 200 to 2000 m and associated with more than 2-fold variations in mean annual temperature and precipitation. We collected 25 samples from 10 different mountain ranges and quantified denudation rates through the measurement of their 36 Cl concentrations in order to explore tectonic and climatic controls on these carbonate landscapes evolution. We observe that most of our samples experience denudation rates in the 30-60 mm/ka range (averaged over 5 to 40 ka), with no evident dependence on variations of mean annual temperature or precipitation. One range (Lure mountain) stands out as a significant outlier, with much higher denudation rates (>100 mm/ka) than adjacent sites (Ventoux mountain) at the same elevation and experiencing similar presentday environmental conditions. We explore in details the climatic, tectonic and geomorphological contexts of these two ranges in order to understand the reasons for this apparent 3-fold difference in denudation rates. A regionally-documented major Holocene hillslope destabilization event appears to be a likely candidate to explain the observed lower 36 Cl concentrations at the top of the Lure mountain. At longer wavelengths, our regional dataset shows no clear control of modern precipitation gradients on denudation rates, consistent with previous observations in landscapes underlain by other lithologies.

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Section: -Development and Applications Of Cosmogenic Nuclides In Carbsupporting

confidence: 61%

Limited influence of climatic gradients on the denudation of a Mediterranean carbonate landscape

et al. 2018

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“…Xu et al. () found similar denudation rates in the Guizhou karst, China (MAP 900–1,300 mm). Both studies obtained denudation rates with similar ranges to that of our dataset in the Luberon where MAP is 700 mm, which highlights the importance of water availability and chemical dissolution in controlling carbonate weathering, as proposed by Ryb, Matmon, Erel, Haviv, Benedetti et al.…”

Section: Discussionmentioning

confidence: 76%

“…Most of these studies have focused on areas dominated by quartz‐rich bedrock, due to the routine use of in‐situ 10 Be to determine denudation rates. In contrast, only a few studies have used 36 Cl to investigate the denudation in carbonate‐dominated landscapes (Matsushi et al., ; Stone, Allan, Fifield, Evans, & Chivas, ; Xu et al., ). Recent work by Ryb, Matmon, Erel, Haviv, Benedetti et al.…”

Section: Introductionmentioning

confidence: 99%

Morphological controls on the dynamics of carbonate landscapes under a mediterranean climate

et al. 2017

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“…Stone et al () first established the use of the 36 Cl cosmogenic nuclide to determine bedrock denudation rates in limestones. Previous studies of 36 Cl denudation rates have focused on exposed bedrock denudation rates, where dissolution is the dominant lowering process (Godard et al, ; Schaller et al, ; Thomas et al, ; Xu et al, ). However, quantification of carbonate denudation at the catchment scale is needed to integrate the effects of mechanical denudation processes along hillslopes and channels and to understand its impact on relief generation.…”

Section: Introductionmentioning

confidence: 99%

“…Note that carbonate lithologies are disproportionately over-represented at high elevations. Xu et al, 2013). However, quantification of carbonate denudation at the catchment scale is needed to integrate the effects of mechanical denudation processes along hillslopes and channels and to understand its impact on relief generation.…”

Section: Introductionmentioning

confidence: 99%

Chemical Versus Mechanical Denudation in Meta‐Clastic and Carbonate Bedrock Catchments on Crete, Greece, and Mechanisms for Steep and High Carbonate Topography

et al. 2019

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On Crete—as is common elsewhere in the Mediterranean—carbonate massifs form high mountain ranges whereas topography is lower in areas with meta‐clastic rocks. This observation suggests that differences in denudational processes between carbonate‐rich rocks and quartzofeldspathic units impart a fundamental control on landscape evolution. Here we present new cosmogenic basin‐average denudation rate measurements from both 10Be and 36Cl in meta‐clastic and carbonate bedrock catchments, respectively, to assess relationships between denudation rates, processes, and topographic form. We compare total denudation rates to dissolution rates calculated from 49 new and previously published water samples. Basin‐average denudation rates of meta‐clastic and carbonate catchments are similar, with mean values of ~0.10 mm/a and ~0.13 mm/a, respectively. The contribution of dissolution to total denudation rate was <10% in the one measured meta‐clastic catchment, and ~40% for carbonate catchments (~0.05 mm/a), suggesting the dominance of physical over chemical weathering at the catchment scale in both rock types. Water mass‐balance calculations for three carbonate catchments suggests 40–90% of surface runoff is lost to groundwater. To explore the impact of dissolution and infiltration to groundwater on relief, we develop a numerical model for carbonate denudation. We find that dissolution modifies the river profile channel steepness, and infiltration changes the fluvial response time to external forcing. Furthermore, we show that infiltration of surface runoff to groundwater in karst regions is an efficient way to steepen topography and generate the dramatic relief in carbonates observed throughout Crete and the Mediterranean.

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In-situ cosmogenic 36Cl denudation rates of carbonates in Guizhou karst area

Cited by 31 publications

References 19 publications

Limited influence of climatic gradients on the denudation of a Mediterranean carbonate landscape

Limited influence of climatic gradients on the denudation of a Mediterranean carbonate landscape

Morphological controls on the dynamics of carbonate landscapes under a mediterranean climate

Chemical Versus Mechanical Denudation in Meta‐Clastic and Carbonate Bedrock Catchments on Crete, Greece, and Mechanisms for Steep and High Carbonate Topography

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