8 results on '"Wong, Henri"'
Search Results
2. Cosmogenic 10Be and 26Al sample preparation at the University of Wollongong
- Author
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Codilean, Alexandru T., Fülöp, Réka-H., Wilcken, Klaus M., Koutamanis, Dafne S., Fink, David, Fifield, L. Keith, Wong, Henri, Enge, T. Gabriel, Vardanega, Chris, and Rowling, Brett
- Published
- 2023
- Full Text
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3. Reconstructing the History of Nutrient Loads and Sources in the Derwent Estuary, Tasmania, Australia, using Isotopic Fingerprinting Techniques
- Author
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Stevens, Harrison, Chase, Zanna, Zawadzki, Atun, Wong, Henri, and Proemse, Bernadette C.
- Published
- 2021
- Full Text
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4. Combustion Completeness and Sample Location Determine Wildfire Ash Leachate Chemistry.
- Author
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Campbell, Micheline, Treble, Pauline C., McDonough, Liza K., Naeher, Sebastian, Baker, Andy, Grierson, Pauline F., Wong, Henri, and Andersen, Martin S.
- Subjects
STALACTITES & stalagmites ,SPELEOTHEMS ,LEACHATE ,EFFECT of human beings on climate change ,SOIL chemistry ,INORGANIC chemistry ,COMBUSTION - Abstract
Understanding past fire regimes and how they vary with climate, human activity, and vegetation patterns is fundamental to the mitigation and management of changing fire regimes as anthropogenic climate change progresses. Ash‐derived trace elements and pyrogenic biomarkers from speleothems have recently been shown to record past fire activity in speleothems from both Australia and North America. This calls for an empirical study of ash geochemistry to aid the interpretation of speleothem palaeofire proxy records. Here we present analyses of leached ashes collected following fires in southwest and southeast Australia. We include a suite of inorganic elemental data from the water‐soluble fraction of ash as well as a selection of organic analytes (pyrogenic lipid biomarkers). We also present elemental data from leachates of soils collected from sites in southwest Australia. We demonstrate that the water‐soluble fraction of ash differs from the water‐soluble fraction of soils, with trace and minor element concentrations in ash leachates varying with combustion completeness (burn severity) and sample location. Changes in some lipid biomarker concentrations extracted from ashes may reflect burn severity. Our results contribute to building a process‐based understanding of how speleothem geochemistry may record fire frequency and severity, and suggest that more research is needed to understand the transport pathways for the inclusion of pyrogenic biomarkers in speleothems. Our results also demonstrate that potential contaminant loads from ashes are much higher than from soils, with implications for the management of karst catchments, which are a critical water resource. Plain Language Summary: Understanding past fire activity is necessary to develop effective land management strategies to manage activity. Recently, stalagmites (naturally forming cave decorations) have been shown to record past fire information through chemical changes. The chemical changes are due to post‐fire leaching of wildfire ash. By investigating wildfire ash chemistry, we will be able to improve our interpretations of the stalagmite past fire signal. Our results show that ash chemistry from Australian fires varies with burn severity and sample location, and that the ash chemistry and soil chemistry differ. Results suggest that stalagmites may record burn severity as well as fire frequency. We also suggest that the potential impact of high concentrations of potential contaminants in wildfire ash on karst aquifers should be further investigated. Key Points: Stalagmites record past fire activity through changes in inorganic and organic chemistry sourced from ashesWildfire ash leachate chemistry will aid interpretation of proxy fire dataResults show that inorganic chemistry varies with burn severity and sample location, and the pyrogenic biomarker signal is less clear [ABSTRACT FROM AUTHOR]
- Published
- 2024
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5. Tropical vegetation productivity and atmospheric methane over the last 40,000 years from model simulations and stalagmites in Sulawesi, Indonesia.
- Author
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Krause, Claire E., Kimbrough, Alena K., Gagan, Michael K., Hopcroft, Peter O., Dunbar, Gavin B., Hantoro, Wahyoe S., Hellstrom, John C., Cheng, Hai, Edwards, R. Lawrence, Wong, Henri, Suwargadi, Bambang W., Valdes, Paul J., and Rifai, Hamdi
- Subjects
STALACTITES & stalagmites ,SOIL respiration ,ANTARCTIC ice ,ICE cores ,SOIL productivity ,ATMOSPHERIC methane ,VEGETATION dynamics - Abstract
Recent research has shown the potential of speleothem δ
13 C to record a range of environmental processes. Here, we report on230 Th-dated stalagmite δ13 C records for southwest Sulawesi, Indonesia, over the last 40,000 yr to investigate the relationship between tropical vegetation productivity and atmospheric methane concentrations. We demonstrate that the Sulawesi stalagmite δ13 C record is driven by changes in vegetation productivity and soil respiration and explore the link between soil respiration and tropical methane emissions using HadCM3 and the Sheffield Dynamic Global Vegetation Model. The model indicates that changes in soil respiration are primarily driven by changes in temperature and CO2 , in line with our interpretation of stalagmite δ13 C. In turn, modelled methane emissions are driven by soil respiration, providing a mechanism that links methane to stalagmite δ13 C. This relationship is particularly strong during the last glaciation, indicating a key role for the tropics in controlling atmospheric methane when emissions from high-latitude boreal wetlands were suppressed. With further investigation, the link between δ13 C in stalagmites and tropical methane could provide a low-latitude proxy complementary to polar ice core records to improve our understanding of the glacial–interglacial methane budget. [ABSTRACT FROM AUTHOR]- Published
- 2024
- Full Text
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6. The 8.2 ka event in northern Spain: timing, structure and climatic impact from a multi-proxy speleothem record.
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Kilhavn, Hege, Couchoud, Isabelle, Drysdale, Russell N., Rossi, Carlos, Hellstrom, John, Arnaud, Fabien, and Wong, Henri
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SPELEOTHEMS ,MERIDIONAL overturning circulation ,ICE cores ,GREENLAND ice ,CREDIT ratings ,TIME series analysis - Abstract
The 8.2 ka event is regarded as the most prominent climate anomaly of the Holocene and is thought to have been triggered by a meltwater release to the North Atlantic that was of sufficient magnitude to disrupt the Atlantic Meridional Overturning Circulation (AMOC). It is most clearly captured in Greenland ice-core records, where it is reported as a cold and dry anomaly lasting ∼ 160 years, from 8.25 ± 0.05 until 8.09 ± 0.05 ka (Thomas et al., 2007). It is also recorded in several archives in the North Atlantic region; however, its interpreted timing, evolution and impacts vary significantly. This inconsistency is commonly attributed to poorly constrained chronologies and/or inadequately resolved time series. Here we present a high-resolution speleothem record of early Holocene palaeoclimate from El Soplao Cave in northern Spain, a region pertinent to studying the impacts of AMOC perturbations on south-western Europe. We explore the timing and impact of the 8.2 ka event on a decadal scale by coupling speleothem stable carbon and oxygen isotopic ratios, trace element ratios (Mg / Ca and Sr / Ca), and growth rate. Throughout the entire speleothem record, δ18 O variability is related to changes in effective recharge. This is supported by the pattern of changes in δ13 C, Mg / Ca and growth rate. The 8.2 ka event is marked as a centennial-scale negative excursion in El Soplao δ18 O, starting at 8.19 ± 0.06 ka and lasting until 8.05 ± 0.05 ka, suggesting increased recharge at the time. Although this is supported by the other proxies, the amplitude of the changes is minor and largely within the realm of variability over the preceding 1000 years. Further, the shift to lower δ18 O leads the other proxies, which we interpret as the imprint of the change in the isotopic composition of the moisture source, associated with the meltwater flux to the North Atlantic. A comparison with other well-dated records from south-western Europe reveals that the timing of the 8.2 ka event was synchronous, with an error-weighted mean age for the onset of 8.23 ± 0.03 and 8.10 ± 0.05 ka for the end of the event. This compares favourably with the North Greenland Ice Core Project (NGRIP) record. The comparison also reveals that the El Soplao δ18 O is structurally similar to the other archives in south-western Europe and the NGRIP ice-core record. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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7. Rare earth elements and yttrium as tracers of waste/rock-groundwater interactions.
- Author
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Cendón, Dioni I., Rowling, Brett, Hughes, Catherine E., Payne, Timothy E., Hankin, Stuart I., Harrison, Jennifer J., Peterson, Mark A., Stopic, Attila, Wong, Henri, and Gadd, Patricia
- Published
- 2022
- Full Text
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8. Selected adjuvants increase the efficacy of foliar biofortification of iodine in bread wheat ( Triticum aestivum L.) grain.
- Author
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Magor E, Wilson MD, Wong H, Cresswell T, Sánchez-Palacios JT, Bell RW, and Penrose B
- Abstract
Agronomic biofortification of crops is a promising approach that can improve the nutritional value of staple foods by alleviating dietary micronutrient deficiencies. Iodine deficiency is prevalent in many countries, including Australia, but it is not clear what foliar application strategies will be effective for iodine fortification of grain. This study hypothesised that combining adjuvants with iodine in foliar sprays would improve iodine penetration in wheat, leading to more efficient biofortification of grains. The glasshouse experiment included a total of nine treatments, including three reference controls: 1) Water; 2) potassium iodate (KIO
3 ) and 3) potassium chloride (KCl); and a series of six different non-ionic surfactant or oil-based adjuvants: 4) KIO3 + BS1000; 5) KIO3 + Pulse® Penetrant; 6) KIO3 + Uptake® ; 7) KIO3 + Hot-Up® ; 8) KIO3 + Hasten® and 9) KIO3 + Synerterol® Horti Oil. Wheat was treated at heading, and again during the early milk growth stage. Adding the organosilicon-based adjuvant (Pulse® ) to the spray formulation resulted in a significant increase in grain loading of iodine to 1269 µg/kg compared to the non-adjuvant KIO3 control at 231µg/kg, and the water and KCl controls (both 51µg/kg). The second most effective adjuvant was Synerterol® Horti Oil, which increased grain iodine significantly to 450µg/kg. The Uptake® , BS1000, Hasten® , and Hot-Up® adjuvants did not affect grain iodine concentrations relative to the KIO3 control. Importantly, iodine application and the subsequent increase in grain iodine had no significant effects on biomass production and grain yield relative to the controls. These results indicate that adjuvants can play an important role in agronomic biofortification practices, and organosilicon-based products have a great potential to enhance foliar penetration resulting in a higher translocation rate of foliar-applied iodine to grains, which is required to increase the iodine density of staple grains effectively., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Magor, Wilson, Wong, Cresswell, Sánchez-Palacios, Bell and Penrose.)- Published
- 2023
- Full Text
- View/download PDF
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