Relationship between modern rainfall variability, cave dripwater, and stalagmite geochemistry in Guam, USA

Partin, J. W.; Jenson, John W.; Banner, Jay L.; Quinn, T. M.; Taylor, Frederick W.; Sinclair, D. J.; Hardt, B. F.; Lander, Mark A.; Bell, Tomoko; Miklavič, Blaž; Jocson, John; Taboroši, Danko

doi:10.1029/2011gc003930

Cited by 41 publications

(49 citation statements)

References 88 publications

(97 reference statements)

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“…3), better ventilation in the upper karst aquifer and higher CO 2 concentration gradients between the dripwater and cave air may allow for CO 2 to degas, causing dripwater PCO 2 to decrease and more calcite to precipitate along a flowpath (e.g. epikarst, cave ceiling; Fairchild et al 2000;Partin et al 2012). Conversely, during the wet season in Xueyu Cave, shorter groundwater residence times (higher drip rates in Fig.…”

Section: Mg/ca and Sr/ca Variationsmentioning

confidence: 88%

Processes controlling dripwater hydrochemistry variations in Xueyu Cave, SW China: implications for speleothem palaeoclimate signal interpretations

Wang

Yin

et al. 2015

Boreas

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Processes controlling dripwater hydrochemistry variations in Xueyu Cave, SW China: implications for speleothem palaeoclimate signal interpretations.Cave dripwater hydrochemistry responds to environmental changes, both within and outside of the cave, and thereby conveys this information to any stalagmite fed by the drips. As stalagmites are important archives of climate proxy information, understanding how dripwater hydrochemistry responds to environmental forcing is critical. However, despite the large number of speleothems in SW China, the response of dripwater to regional climate variability is not yet adequately understood. A 3-year study of three drip sites in Xueyu Cave, Chongqing Municipality, SW China, revealed the most important mechanisms controlling dripwater chemical variability. The principal chemical indices (pH, specific conductivity, Ca 2+ , Mg 2+ , Sr 2+ and HCO À 3 ) in collected dripwaters and the local climate data were analysed in this study. The principal controls on the hydrochemistry were found to be the external climate and its changes, groundwater residence time, cave ventilation and prior calcite precipitation (PCP) processes. Dripwater hydrochemistry showed strongly coherent seasonal patterns despite the fact that all sites are Ca-HCO 3 type waters and supersaturated with calcite. Seasonal changes in dripwater hydrochemistry were influenced by the soil and vadose zone CO 2 content as well as groundwater residence time in the upper karst zone. Cave-air CO 2 seasonal variations were consistent with changes in dripwater PCO 2 and cave ventilation. Trace element ratios (Mg/Ca and Sr/Ca) of dripwater were controlled by PCP processes. Seasonal variations in dripwater Mg/Ca and Sr/Ca ratios in Xueyu Cave showed inverse changes with the Asia Monsoon Index during the monitoring period, reflecting the seasonal climate changes that may have been recorded in the speleothems. Based on a linear regression of PCO 2 and the Ca 2+ data in the cold-dry winter season, a 130-ppm shift in cave-air PCO 2 results in a 1-ppm shift in dripwater Ca 2+ concentration in Xueyu Cave. This study illustrates the importance of understanding factors controlling the changes in the composition of dripwater before it reaches the speleothem.Calcite speleothems (stalagmites, stalactites and flowstones in caves) are amongst the most important archives of palaeoclimates and climate change in lowto mid-latitude regions. They are considered the best source of highly detailed continuous terrestrial records with seasonal to decadal resolution and precise and accurate chronologies. They offer multiple geochemical proxy measures, such as d 18 O, d 13 C, trace elements, fluorescent laminae, fluid inclusions, polycyclic aromatic hydrocarbons and lipid biomarkers, which represent previous ecological conditions (Verheyden et al.

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Section: Mg/ca and Sr/ca Variationsmentioning

confidence: 88%

Processes controlling dripwater hydrochemistry variations in Xueyu Cave, SW China: implications for speleothem palaeoclimate signal interpretations

Wang

Yin

et al. 2015

Boreas

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“…Dripwater chemistry evolves away from the initial solution composition during periods of increased PCP extent, which typically occurs in higher ventilation regimes (Wong et al, 2011) or during dry episodes (Partin et al, 2012;Tremaine and Froelich, 2013). Cave ventilation can be driven by density contrasts between atmospheric air and cave air that result in low pCO 2 ($395 ppmv) atmospheric air diluting high pCO 2 (500-20,000 ppmv) cave air (e.g., Spö tl et al, 2005;Baldini et al, 2008;Kowalczk and Froelich, 2010), or by atmospheric air becoming entrained into a cave entrance via heat exchange interaction with cave walls, also called chimney-ventilation (Mattey et al, 2010).…”

Section: Identifying Prior Calcite Precipitationmentioning

confidence: 99%

A two-year automated dripwater chemistry study in a remote cave in the tropical south Pacific: Using [Cl−] as a conservative tracer for seasalt contribution of major cations

Tremaine

Sinclair

Stoll

et al. 2016

Geochimica et Cosmochimica Acta

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Stalagmite Mg/Ca and Sr/Ca ratios are commonly interpreted as proxies for past hydrologic conditions and are often used to supplement carbon and oxygen stable isotope records. While the processes that control these element ratios, including water-rock interaction, dripwater residence time, and upstream precipitation of calcite, are well understood in continental caves, there have been few investigations of dripwater Element/Ca (X/Ca) evolution in coastal marine caves where seasalt can have a strong influence on the incoming Mg/Ca ratio.We instrumented a marine cave on the remote South Pacific island of Niue to record daily cave microclimate, as well as weekly-integrated drip rates, dripwater oxygen and hydrogen isotopes, and dripwater chemistry over a period of twenty-two months. Using chloride as a conservative tracer for sea-spray, we calculate that seasalt input accounts for a large portion of dripwater Na, SO 4 , and Mg (89%, 93%, and 85% respectively) and a smaller portion of the Ca and Sr (19% and 17%). During the second year of this study a gradual decrease (by $18%) in dripwater chlorinity was observed, suggesting that an epikarsthosted seasalt aerosol inventory was being diluted over time. Minor element to calcium ratios for B, K, Cl, SO 4 , Mg, Na, Sr, and Fe all strongly covary over the observation period, suggesting that although sea-spray plays a significant role in modulating incoming drip chemistry, prior calcite precipitation (PCP) dominates chemical evolution within the epikarst. During a prolonged drought episode, evaporative enrichments in dripwater dD and d 18 O (+4‰ and 0.5‰, respectively) were observed to coincide with increased cation and anion concentrations, strong Ca removal via PCP, and increases in Sr/Ca and Mg/Ca ratios (28% and 34%, respectively), suggesting that concomitant enrichment in speleothem d 18 O and X/Ca ratios may be interpreted as multi-proxy evidence for dry climate conditions. We use modern dripwater chemistry and empirical water-calcite distribution coefficients to predict a range of stalagmite X/Ca ratios. We then forward model a number of scenarios that could modulate stalagmite chemistry, including increased/decreased seasalt input and changing dripwater flow path through calcite, dolomite, and aragonite bedrock. One major implication from this study is that even if PCP and flow path lithology remain constant over time, changing seasalt input can drive stalagmite Mg/Ca and Sr/Ca ratios away from PCP-controlled covariation, and lead to strongly varying http://dx. ScienceDirect Geochimica et Cosmochimica Acta 184 (2016) 289-310Sr/Mg ratios. Thus in order to interpret coastal cave stalagmite X/Ca records accurately, it is necessary to estimate seasalt input and analyze parent drip and bedrock chemistry to quantify the influence of each contributing process.

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“…America (Oster et al 2012), Australia (McDonald et al 2007) and East Asia (Hu et al 2008, Partin et al 2012. However, lack of long-term observations from monsoonal India complicates the assessment of the ISM core region response to global climate change.…”

Section: Accepted M Manuscriptmentioning

confidence: 99%

Cave ventilation and rainfall signals in dripwater in a monsoonal setting – a monitoring study from NE India

et al. 2015

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Highlights: Mawmluh Cave dripwater bears monsoonal rainfall signal  Ventilation depends on surface-cave temperature gradient and river flow  Dry season cave air CO2 is closely linked to gas transport via entrances and less to soil air CO2  Evidence suggests anthropogenic impact on aquifer, temperature, and ventilation dynamics Keywords: Indian Summer Monsoon, microclimate monitoring, water isotopes, cave ventilation

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Relationship between modern rainfall variability, cave dripwater, and stalagmite geochemistry in Guam, USA

Cited by 41 publications

References 88 publications

Processes controlling dripwater hydrochemistry variations in Xueyu Cave, SW China: implications for speleothem palaeoclimate signal interpretations

Processes controlling dripwater hydrochemistry variations in Xueyu Cave, SW China: implications for speleothem palaeoclimate signal interpretations

A two-year automated dripwater chemistry study in a remote cave in the tropical south Pacific: Using [Cl−] as a conservative tracer for seasalt contribution of major cations

Cave ventilation and rainfall signals in dripwater in a monsoonal setting – a monitoring study from NE India

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