18 results on '"Hilton, Robert G."'
Search Results
2. Capturing the short-term variability of carbon dioxide emissions from sedimentary rock weathering in a remote mountainous catchment, New Zealand
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Roylands, Tobias, Hilton, Robert G., Garnett, Mark H., Soulet, Guillaume, Newton, Josephine-Anne, Peterkin, Joanne L., and Hancock, Peter
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- 2022
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3. Seismic cycles, earthquakes, landslides and sediment fluxes: Linking tectonics to surface processes using a reduced-complexity model
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Croissant, Thomas, Steer, Philippe, Lague, Dimitri, Davy, Philippe, Jeandet, Louise, and Hilton, Robert G.
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- 2019
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4. Climate regulates the erosional carbon export from the terrestrial biosphere
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Hilton, Robert G.
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- 2017
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5. Climate-regulation of organic carbon export in erosive mountain settings: A case study from Taiwan since the last glacial maximum.
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Zheng, Li-Wei, Hilton, Robert G., Chang, Yuan-Pin, Yang, Rick J., Ding, Xiaodong, Zheng, Xufeng, Lee, Tsung-Yu, Lu, Hsi-Jih, Lu, Jung-Tai, Lin, Yu-Shih, Liu, James T., and Kao, Shuh-Ji
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EROSION , *MOUNTAIN soils , *ATMOSPHERIC carbon dioxide , *LAST Glacial Maximum , *HOLOCENE Epoch , *YOUNGER Dryas , *MOUNTAIN climate , *GEOLOGICAL time scales - Abstract
The balance between the burial of biospheric organic carbon (OC bio) in the ocean and the oxidation of rock-derived organic carbon across landscapes (OC petro) helps to regulate atmospheric CO 2 and O 2 over geological time. However, we lack reconstructions of these processes over the timescales necessary to properly understand the drivers and feedbacks operating. Here we use a sediment core from the Zhuoshui River delta in Taiwan, which receives sediments from a rapidly uplifting and eroding catchment, to reconstruct the variations in OC content and radiocarbon composition since the Last Glacial Maximum (LGM). We find that the export of OC bio and the oxidation of OC petro are both modulated by climate-driven changes in physical erosion and temperature. During cold and dry periods, such as the LGM and the Younger Dryas (YD), shallow erosion and low temperature enhanced the preservation of OC bio in the biosphere in catchment, while deep erosion and high temperature during warm and wet periods, such as the Holocene, favored the dilution and degradation of OC bio. The weathering intensity of OC petro (ω) was inversely related to physical erosion, suggesting a lower intensity of oxidation during the Holocene period while the overall oxidation flux was enhanced. This suggests that the degree of weathering was primarily controlled by physical erosion. We propose a proxy to estimate the ratio of fluxes of OC bio export and OC petro oxidation, and show that the net balance between these two processes shifted from a carbon sink during the late deglacial period to a carbon source during the mid-late Holocene. Our study reveals that with CO 2 rise, a warmer and wetter climate would promote the exposure and oxidation of OC petro by erosion in this mountain range, leading the organic carbon balance towards a CO 2 source to the atmosphere. • Erosion and temperature control carbon dynamic in erosive setting. • Cold, dry periods boost carbon preservation. • Warm, wet climate shifts mountains to carbon sources. [ABSTRACT FROM AUTHOR]
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- 2024
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6. The isotopic composition and fluxes of particulate organic carbon exported from the eastern margin of the Tibetan Plateau.
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Wang, Jin, Hilton, Robert G., Jin, Zhangdong, Zhang, Fei, Densmore, Alexander L., Gröcke, Darren R., Xu, Xiaomei, Li, Gen, and West, A. Joshua
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COLLOIDAL carbon , *CARBON cycle , *SEDIMENTARY rocks , *PLATEAUS , *MOUNTAINS , *SOIL air , *COMPOSITION of sediments - Abstract
Abstract Erosion of organic carbon from the terrestrial biosphere and sedimentary rocks plays an important role in the global carbon cycle across a range of timescales. Over geological timescales (>104 years), erosion and burial of particulate organic carbon (POC) from the terrestrial biosphere (POC biosphere) is an important CO 2 sink, while oxidation of organic carbon derived from sedimentary rocks (petrogenic, POC petro) releases CO 2 to the atmosphere. Over decadal to millennial timescales, the balance between POC biosphere production and degradation affects atmospheric CO 2 concentrations. To better constrain the controls on erosional carbon transfers, here we quantify POC biosphere and POC petro fluxes in a mountain range with relatively low runoff, the Longmen Shan, which drains the eastern margin of the Tibetan Plateau. We measure total organic carbon content ([OC total ]) and the carbon isotopic compositions (13C/12C expressed as δ13C; 14C/12C expressed as fraction modern or F mod) of organic matter in suspended sediments collected from six gauging stations on the Min Jiang, a tributary of the Yangtze River, from 2005 to 2012. We find that POC petro has a large range of δ13C, from −26.2‰ to −13.2‰. This POC petro mixes with POC biosphere to set the δ13C of POC in river sediments. Binary mixing models reveal the possibility of aged POC biosphere at two gauging stations which drain the high elevations of the eastern Tibetan Plateau, with modelled biospheric F mod values of 0.82 ± 0.09 and 0.84 ± 0.08. This is consistent with prior suggestions of aged biospheric carbon being eroded from the plateau. The annual POC petro yields range from 0.04 ± 0.02 tC km−2 yr−1 to 1.69 ± 0.56 tC km−2 yr−1 across the five study catchments, with basin average yield that appears to be linked to catchment average slope as a likely proxy for erosion rate. Here, the variability in the petrogenic organic carbon content of rocks masks the signal of the weathering and oxidation of this rock-derived organic carbon. The annual POC biosphere yields range from 0.21 ± 0.04 tC km−2 yr−1 to 3.33 ± 0.57 tC km−2 yr−1. These values are towards the lower end of those measured in mountain ranges around the world, which we suggest not only reflects the relatively low erosion rates of the Longman Shan, but also the low annual runoff (<1 m yr−1). Across this region, the river POC biosphere discharge is related to the intensity of runoff events. Our data suggest that a wetter (and/or stormier) climate could increase the erosional export of POC biosphere in this tectonically-active mountain range. Depending on the fate of POC biosphere downstream in larger river systems, this could act as carbon-cycle climate feedback over geological timescales. [ABSTRACT FROM AUTHOR]
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- 2019
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7. Geological respiration of a mountain belt revealed by the trace element rhenium
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Hilton, Robert G., Gaillardet, Jérôme, Calmels, Damien, and Birck, Jean-Louis
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- 2014
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8. Lithium isotopes in large rivers reveal the cannibalistic nature of modern continental weathering and erosion
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Dellinger, Mathieu, Gaillardet, Jérôme, Bouchez, Julien, Calmels, Damien, Galy, Valier, Hilton, Robert G., Louvat, Pascale, and France-Lanord, Christian
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- 2014
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9. Dilution of 10Be in detrital quartz by earthquake-induced landslides: Implications for determining denudation rates and potential to provide insights into landslide sediment dynamics
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West, A. Joshua, Hetzel, Ralf, Li, Gen, Jin, Zhangdong, Zhang, Fei, Hilton, Robert G., and Densmore, Alexander L.
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- 2014
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10. Corrigendum to "Fractionation of rhenium isotopes in the Mackenzie River basin during oxidative weathering" [Earth Planet. Sci. Lett. 573 (2021) 117131].
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Dellinger, Mathieu, Hilton, Robert G., and Nowell, Geoff M.
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EARTH (Planet) , *WATERSHEDS , *ISOTOPIC fractionation , *WEATHERING - Published
- 2022
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11. The isotopic composition of particulate organic carbon in mountain rivers of Taiwan
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Hilton, Robert G., Galy, Albert, Hovius, Niels, Horng, Ming-Jame, and Chen, Hongey
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ISOTOPE geology , *DISSOLVED organic matter , *BIOSPHERE , *GEOCHEMISTRY , *GEOLOGICAL formations , *RIVERS - Abstract
Abstract: Small rivers draining mountain islands are important in the transfer of terrestrial particulate organic carbon (POC) to the oceans. This input has implications for the geochemical stratigraphic record. We have investigated the stable isotopic composition of POC () in rivers draining the mountains of Taiwan. In 15 rivers, the suspended load has a mean that ranges from − to − (on average 37 samples per river) over the interval of our study. To investigate this variability we have supplemented suspended load data with measurements of POC in bedrock and river bed materials, and constraints on the composition of the terrestrial biomass. Fossil POC in bedrock has a range in from − to − between the major geological formations. Using coupled and N/C we have found evidence in the suspended load for mixing of fossil POC with non-fossil POC from the biosphere. In two rivers outside the Taiwan Central Range anthropogenic land use appears to influence , resulting in more variable and lower values than elsewhere. In all other catchments, we have found that variability in is not controlled by the variable composition of the biomass, but instead by heterogeneous fossil POC. In order to quantify the fraction of suspended load POC derived from non-fossil sources () as well as the isotopic composition of fossil POC () carried by rivers, we adapt an end-member mixing model. River suspended sediments and bed sediments indicate that mixing of fossil POC results in a negative trend between N/C and that is distinct from the addition of non-fossil POC, collapsing multiple fossil POC end-members onto a single mixing trend. As an independent test of the model, reproduces the fraction modern () in our samples, determined from measurements, to within 0.09 at the 95% confidence level. Over the sampling period, the mean of suspended load POC was low (0.29±0.02, n =459), in agreement with observations from other mountain rivers where physical erosion rates are high and fossil POC enters river channels. The mean in suspended POC varied between − and − from catchment to catchment. This variability is primarily controlled by the distribution of the major geological formations. It also covers entirely the range of found in marine sediments which is commonly thought to derive from mixing between marine and terrigenous POC. If land-sourced POC is preserved in marine sediments, then changes in the bulk observed offshore Taiwan could instead be explained by changes in the onshore provenance of sediment. The range in of fossil organic matter in sedimentary rocks exposed at the surface is large and given the importance of these rocks as a source of clastic sediment to the oceans, care should be taken in accounting for fossil POC in marine deposits supplied by active mountain belts. [Copyright &y& Elsevier]
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- 2010
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12. Fractionation of rhenium isotopes in the Mackenzie River basin during oxidative weathering.
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Dellinger, Mathieu, Hilton, Robert G., and Nowell, Geoff M.
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WATERSHEDS , *SURFACE of the earth , *RIVER sediments , *CHEMICAL weathering , *ISOTOPIC fractionation , *ANALYSIS of river sediments , *MASS budget (Geophysics) - Abstract
• 0.3‰ of δ 187 Re variation across rivers from the Mackenzie River basin. • For each river, the δ 187 Re of the dissolved load is higher than that of the corresponding river sediment • The δ 187 Re of river water and sediments is controlled by both provenance and modern oxidative weathering processes • The average δ 187 Re of Mackenzie bedrock (∼ − 0.05 ‰) and dissolved load (∼ − 0.01 ‰) are lower than Atlantic seawater δ 187 Re. Rhenium (Re) is a trace element whose redox chemistry makes it an ideal candidate to trace a range of geochemical processes. Here, we report the first rhenium isotopic measurements (δ 187 Re) from river-borne materials to assess the influence of chemical weathering on Re isotopes at continental scale. The δ 187 Re was measured in water, suspended sediments and bedloads from the Mackenzie River and its main Arctic tributaries in Northwestern Canada. We find that the δ 187 Re (relative to NIST SRM 989) of river waters ranges from −0.05‰ to +0.07‰, which is generally higher than the corresponding river sediment (−0.25‰ to +0.01‰). We show that the range of δ 187 Re in river sediments (∼0.30‰) is controlled by a combination of source bedrock isotopic variability (provenance) and modern oxidative weathering processes. After correcting for bedrock variability, the δ 187 Re of solids appear to be positively correlated with the amount of Re depletion related to oxidative weathering. This correlation, and the offset in δ 187 Re between river water and sediment, can be explained by preferential oxidation of reactive phases with high δ 187 Re (i.e. rock organic carbon, sulfide minerals), but could also result from fractionation during oxidation or the influence of secondary weathering processes. Overall, we find that both basin-average bedrock δ 187 Re (∼−0.05‰) and dissolved δ 187 Re (∼−0.01‰) in the Mackenzie River are lower than the δ 187 Re of Atlantic seawater (+0.12‰). These observations provide impetus for future work to constrain the Re isotope mass balance of seawater, and assess the potential for secular shifts in its δ 187 Re values over time, which could provide an additional isotopic proxy to trace current and past redox processes at Earth's Surface. [ABSTRACT FROM AUTHOR]
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- 2021
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13. Source, transport and fluxes of Amazon River particulate organic carbon: Insights from river sediment depth-profiles.
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Bouchez, Julien, Galy, Valier, Hilton, Robert G., Gaillardet, Jérôme, Moreira-Turcq, Patricia, Pérez, Marcela Andrea, France-Lanord, Christian, and Maurice, Laurence
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PARTICULATE matter , *ORGANIC compounds , *SEDIMENTS , *CHEMICAL stability , *HYDRODYNAMICS - Abstract
Abstract: In order to reveal particulate organic carbon (POC) source and mode of transport in the largest river basin on Earth, we sampled the main sediment-laden tributaries of the Amazon system (Solimões, Madeira and Amazon) during two sampling campaigns, following vertical depth-profiles. This sampling technique takes advantage of hydrodynamic sorting to access the full range of solid erosion products transported by the river. Using the Al/Si ratio of the river sediments as a proxy for grain size, we find a general increase in POC content with Al/Si, as sediments become finer. However, the sample set shows marked variability in the POC content for a given Al/Si ratio, with the Madeira River having lower POC content across the measured range in Al/Si. The POC content is not strongly related to the specific surface area (SSA) of the suspended load, and bed sediments have a much lower POC/SSA ratio. These data suggest that SSA exerts a significant, yet partial, control on POC transport in Amazon River suspended sediment. We suggest that the role of clay mineralogy, discrete POC particles and rock-derived POC warrant further attention in order to fully understand POC transport in large rivers. To examine the source of POC in the Amazon Basin in more detail, we use radiocarbon (14C) content and the stable isotope composition (δ13C) of POC. 14C activity demonstrates that rock-derived POC is a significant component of river bed sediments and contributes to POC across the river depth-profiles of suspended sediments. We estimate that the flux of rock-derived POC may reach 10% of the total POC export by the Amazon River. After correcting for rock-derived POC input, we find that POC from the terrestrial biosphere (biospheric POC) is mostly sourced from C3-plants. Higher biospheric POC δ13C values in the Madeira River (by 0.5–1‰) are best explained by a small (<5%) contribution of C4-grasses from Bolivian savannas. Finally, we use 14C to estimate the mean age of biospheric POC exported from the Amazon Basin. The data show that biospheric POC is younger in the Solimões River (1120years) than in the Madeira River (2850 years). These ages are much younger than the corresponding estimates of sediment residence time in the basin, suggesting that lowland areas and/or young POC from above-ground biomass may contribute disproportionately to the biomarker signals in terrigenous sediments of the Amazon delta. [Copyright &y& Elsevier]
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- 2014
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14. Earthquakes drive focused denudation along a tectonically active mountain front.
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Li, Gen, West, A. Joshua, Densmore, Alexander L., Jin, Zhangdong, Zhang, Fei, Wang, Jin, Clark, Marin, and Hilton, Robert G.
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EARTHQUAKES , *EROSION , *PLATE tectonics , *METAPHYSICAL cosmology - Abstract
Earthquakes cause widespread landslides that can increase erosional fluxes observed over years to decades. However, the impact of earthquakes on denudation over the longer timescales relevant to orogenic evolution remains elusive. Here we assess erosion associated with earthquake-triggered landslides in the Longmen Shan range at the eastern margin of the Tibetan Plateau. We use the M w 7.9 2008 Wenchuan and M w 6.6 2013 Lushan earthquakes to evaluate how seismicity contributes to the erosional budget from short timescales (annual to decadal, as recorded by sediment fluxes) to long timescales (kyr to Myr, from cosmogenic nuclides and low temperature thermochronology). Over this wide range of timescales, the highest rates of denudation in the Longmen Shan coincide spatially with the region of most intense landsliding during the Wenchuan earthquake. Across sixteen gauged river catchments, sediment flux-derived denudation rates following the Wenchuan earthquake are closely correlated with seismic ground motion and the associated volume of Wenchuan-triggered landslides ( r 2 > 0.6 ), and to a lesser extent with the frequency of high intensity runoff events ( r 2 = 0.36 ). To assess whether earthquake-induced landsliding can contribute importantly to denudation over longer timescales, we model the total volume of landslides triggered by earthquakes of various magnitudes over multiple earthquake cycles. We combine models that predict the volumes of landslides triggered by earthquakes, calibrated against the Wenchuan and Lushan events, with an earthquake magnitude–frequency distribution. The long-term, landslide-sustained “seismic erosion rate” is similar in magnitude to regional long-term denudation rates (∼0.5–1 mm yr −1 ). The similar magnitude and spatial coincidence suggest that earthquake-triggered landslides are a primary mechanism of long-term denudation in the frontal Longmen Shan. We propose that the location and intensity of seismogenic faulting can contribute to focused denudation along a high-relief plateau margin. [ABSTRACT FROM AUTHOR]
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- 2017
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15. Dilution of 10Be in detrital quartz by earthquake-induced landslides: Implications for determining denudation rates and potential to provide insights into landslide sediment dynamics.
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West, A. Joshua, Hetzel, Ralf, Li, Gen, Jin, Zhangdong, Zhang, Fei, Hilton, Robert G., and Densmore, Alexander L.
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QUARTZ , *EARTHQUAKES , *LANDSLIDES , *SEDIMENTS , *WENCHUAN Earthquake, China, 2008 , *WATERSHEDS - Abstract
Abstract: The concentration of 10Be in detrital quartz (10Beqtz) from river sediments is now widely used to quantify catchment-wide denudation rates but may also be sensitive to inputs from bedrock landslides that deliver sediment with low 10Beqtz. Major landslide-triggering events can provide large amounts of low-concentration material to rivers in mountain catchments, but changes in river sediment 10Beqtz due to such events have not yet been measured directly. Here we examine the impact of widespread landslides triggered by the 2008 Wenchuan earthquake on 10Beqtz in sediment samples from the Min Jiang river basin, in Sichuan, China. Landslide deposit material associated with the Wenchuan earthquake has consistently lower 10Beqtz than in river sediment prior to the earthquake. River sediment 10Beqtz decreased significantly following the earthquake downstream of areas of high coseismic landslide occurrence (i.e., with greater than ∼0.3% of the upstream catchment area affected by landslides), because of input of the 10Be-depleted landslide material, but showed no systematic changes where landslide occurrence was low. Changes in river sediment 10Beqtz concentration were largest in small first-order catchments but were still significant in large river basins with areas of . Spatial and temporal variability in river sediment 10Beqtz has important implications for inferring representative denudation rates in tectonically active, landslide-dominated environments, even in large basins. Although the dilution of 10Beqtz in river sediment by landslide inputs may complicate interpretation of denudation rates, it also may provide a possible opportunity to track the transport of landslide sediment. The associated uncertainties are large, but in the Wenchuan case, calculations based on 10Be mixing proportions suggest that river sediment fluxes in the 2–3 years following the earthquake increased by a similar order of magnitude in the 0.25–1 mm and the <0.25 mm size fractions, as determined from 10Beqtz mixing calculations and hydrological gauging, respectively. Such information could provide new insight into sediment transfer, with implications for secondary sediment-related hazards and for understanding the removal of mass from mountains. [Copyright &y& Elsevier]
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- 2014
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16. Erosion-driven drawdown of atmospheric carbon dioxide: The organic pathway
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Hovius, Niels, Galy, Albert, Hilton, Robert G., Sparkes, Robert, Smith, Joanne, Shuh-Ji, Kao, Hongey, Chen, In-Tian, Lin, and Joshua West, A.
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EROSION , *ATMOSPHERIC carbon dioxide , *SUBMARINE geology , *SHIELDS (Geology) , *GEOLOGICAL carbon sequestration , *BIOMASS , *SEDIMENTATION & deposition , *TURBIDITES - Abstract
Abstract: Rapidly eroding, coastal mountain belts, where steep rivers and submarine channels connect upland sources to nearby marine sinks are hotspots of organic carbon transfer from life biomass, soil and exhumed bedrock into geological storage. Using observations from the Southern Alps of New Zealand, and Taiwan, we have mapped this organic pathway to geological carbon sequestration, and can evaluate the magnitude and efficiency of transfers between sources and sinks. We demonstrate that POC is harvested by landsliding, but importantly also by common and widespread surface runoff on steep hillslopes. Although terrestrially sourced POC is found in many sedimentary environments associated with mountain belts and frontier basins, it appears to be most abundantly trapped and preserved in marine turbidites. The loss of all forms of POC in onward transport through short, steep routing systems to this repository is limited. This is in marked contrast to larger routing systems, in which only the most resilient forms of POC survive into long-term deposition. [Copyright &y& Elsevier]
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- 2011
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17. Constraints on the source of reactive phases in sediment from a major Arctic river using neodymium isotopes.
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Larkin, Christina S., Piotrowski, Alexander M., Hindshaw, Ruth S., Bayon, Germain, Hilton, Robert G., Baronas, J. Jotautas, Dellinger, Mathieu, Wang, Ruixue, and Tipper, Edward T.
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TRACE metals , *NEODYMIUM isotopes , *RARE earth metals , *SILICATE minerals , *SEDIMENTARY rocks , *RIVER sediments , *SEDIMENTS - Abstract
• Assessment of reactive phases in suspended particulates in a major Arctic river. • Neodymium isotopes show equilibration between Fe-Mn oxides and dissolved loads. • Reactive iron flux from the Mackenzie River is large; 0.21(+0.06,−0.05) Tg/yr. • Sedimentary rock weathering provides an important source of labile trace metals. Riverine suspended particulate matter (SPM) is essential for the delivery of micronutrients such as iron (Fe) to the oceans. SPM is known to consist of multiple phases with differing reactivity, but their role in the delivery of elements to the oceans is poorly constrained. Here we provide new constraints on the source and composition of reactive phases in SPM from the Mackenzie River, the largest sediment source to the Arctic Ocean. Sequential leaching of SPM shows that river sediments contain labile Fe phases. We estimate the labile Fe flux is substantial (0.21(+0.06,−0.05) Tg/yr) by quantifying Fe concentrations in weak leaches of the SPM. The labile Fe phase hosts a considerable amount of rare earth elements (REE), including neodymium (Nd). We demonstrate that the labile Fe phase and dissolved load have radiogenic Nd isotope ratios that are identical within uncertainty, but up to 8 epsilon units distinct from the silicate phase. We interpret this as evidence for dynamic cycling between Fe-oxide phases in SPM and the river water, demonstrating the high reactivity of the labile Fe phase. Nd isotope and elemental molar ratios suggest that a significant amount of labile Fe- and Nd-bearing phases are derived from Fe-oxides within the sedimentary source rock rather than silicate mineral dissolution. Thus, sedimentary rock erosion and weathering provides an important source of labile Fe, manganese (Mn) and by extension potentially other trace metals. Our results imply that both past and future environmental change in the Arctic, such as permafrost thaw, may trigger changes to the supply of reactive trace metals. These results demonstrate that a re-evaluation of sediment reactivity within rivers is required where uplifted sedimentary rocks are present. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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18. Archaeological cereals as an isotope record of long-term soil health and anthropogenic amendment in southern Scandinavia.
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Gron, Kurt J., Larsson, Mikael, Gröcke, Darren R., Andersen, Niels H., Andreasen, Marianne H., Bech, Jens-Henrik, Henriksen, Peter Steen, Hilton, Robert G., Jessen, Mads Dengsø, Møller, Niels A., Nielsen, Finn Ole, Nielsen, Poul Otto, Pihl, Anders, Sørensen, Lasse, Westphal, Jørgen, Rowley-Conwy, Peter, and Church, Mike J.
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SOIL amendments , *NITROGEN isotopes , *ISOTOPES , *SOIL productivity , *CARBON isotopes , *CROP yields , *AGRICULTURE , *ANTHROPOGENIC soils - Abstract
Maintaining soil health is integral to agricultural production, and the archaeological record contains multiple lines of palaeoclimatic and palaeoenvironmental proxy evidence that can contribute to the understanding and analysis of long-term trajectories of change that are key for contextualizing 21st century global environmental challenges. Soil is a capital resource and its nutrient balance is modified by agricultural activities, making it necessary to ensure soil productivity is maintained and managed through human choices and actions. Since prehistory this has always been the case; soil is a non-renewable resource within a human lifetime. Here, we present and interpret carbon and nitrogen isotope analysis of charred cereals from southern Scandinavia. Anthropogenic effects on soils are evident from the initiation of farming 6000 years ago, as is amendment to counteract its effects. The earliest cereals were planted on pristine soils, and by the late Neolithic, agriculture extensified. By the Iron Age it was necessary to significantly amend depleted soils to maintain crop yields. We propose that these data provide a record of soil water retention, net precipitation and amendment. From the start of the Neolithic there is a concurrent decrease in both Δ13C and δ15N, mitigated only by the replacement of soil organic content in the form of manure in the Iron Age. The cereal isotopes provide a record of trajectories of agricultural sustainability and anthropogenic adaptation for nearly the entire history of farming in the region. • Isotope analyses of charred cereals are used to explore long-term soil health. • Soil amendment was practiced from the start of the Scandinavian Neolithic. • Anthropogenic soil depletion was only mitigated in the Iron Age. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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