Potential Association of Legionnaires’ Disease with Hot Spring Water, Hot Springs National Park and Hot Springs, Arkansas, USA, 2018–2019

The world community has long used natural hot springs for tourist and medicinal purposes. In Indonesia, the province of West Java, which is naturally surrounded by volcanoes, is the main destination for hot spring tourism. This paper is the first report on radon measurements in tourism natural hot spring water in Indonesia as part of radiation protection for public health. The purpose of this paper is to study the contribution of radon doses from natural hot spring water and thereby facilitate radiation protection for public health. A total of 18 water samples were measured with an electrostatic collection type radon monitor (RAD7, Durridge Co., USA). The concentration of radon in natural hot spring water samples in the West Java region, Indonesia ranges from 0.26 to 31 Bq L−1. An estimate of the annual effective dose in the natural hot spring water area ranges from 0.51 to 0.71 mSv with a mean of 0.60 mSv for workers. Meanwhile, the annual effective dose for the public ranges from 0.10 to 0.14 mSv with an average of 0.12 mSv. This value is within the range of the average committed effective dose from inhalation and terrestrial radiation for the general public, 1.7 mSv annually.

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Carbon Source Preference in Chemosynthetic Hot Spring Communities

Applied and Environmental Microbiology ◽

10.1128/aem.00511-15 ◽

2015 ◽

Vol 81 (11) ◽

pp. 3834-3847 ◽

Cited By ~ 20

Author(s):

Matthew R. Urschel ◽

Michael D. Kubo ◽

Tori M. Hoehler ◽

John W. Peters ◽

Eric S. Boyd

Keyword(s):

High Temperature ◽

National Park ◽

Hot Springs ◽

Dissolved Inorganic Carbon ◽

Hot Spring ◽

Affinity Constant ◽

Rrna Gene ◽

Organic Substrates ◽

Short Term ◽

Acetate Assimilation

ABSTRACTRates of dissolved inorganic carbon (DIC), formate, and acetate mineralization and/or assimilation were determined in 13 high-temperature (>73°C) hot springs in Yellowstone National Park (YNP), Wyoming, in order to evaluate the relative importance of these substrates in supporting microbial metabolism. While 9 of the hot spring communities exhibited rates of DIC assimilation that were greater than those of formate and acetate assimilation, 2 exhibited rates of formate and/or acetate assimilation that exceeded those of DIC assimilation. Overall rates of DIC, formate, and acetate mineralization and assimilation were positively correlated with spring pH but showed little correlation with temperature. Communities sampled from hot springs with similar geochemistries generally exhibited similar rates of substrate transformation, as well as similar community compositions, as revealed by 16S rRNA gene-tagged sequencing. Amendment of microcosms with small (micromolar) amounts of formate suppressed DIC assimilation in short-term (<45-min) incubations, despite the presence of native DIC concentrations that exceeded those of added formate by 2 to 3 orders of magnitude. The concentration of added formate required to suppress DIC assimilation was similar to the affinity constant (Km) for formate transformation, as determined by community kinetic assays. These results suggest that dominant chemoautotrophs in high-temperature communities are facultatively autotrophic or mixotrophic, are adapted to fluctuating nutrient availabilities, and are capable of taking advantage of energy-rich organic substrates when they become available.

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Geochemical Modeling of Scale Formation due to Cooling and CO2-degassing in San Kamphaeng Geothermal Field, Northern Thailand

Chiang Mai University Journal of Natural Sciences ◽

10.12982/cmujns.2021.049 ◽

2021 ◽

Vol 20 (3) ◽

Author(s):

Sutthipong Taweelarp ◽

Supanut Suntikoon ◽

Thaned Rojsiraphisal ◽

Nattapol Ploymaklam ◽

Schradh Saenton

Keyword(s):

Carbon Dioxide ◽

Hot Springs ◽

Hot Spring ◽

Geochemical Modeling ◽

Chemical Properties ◽

Geothermal Field ◽

Spring Water ◽

Northern Thailand ◽

Scaling Potential ◽

Co2 Degassing

Scaling in a geothermal piping system can cause serious problems by reducing flow rates and energy efficiency. In this work, scaling potential of San Kamphaeng (SK) geothermal energy, Northern Thailand was assessed based on geochemical model simulation using physical and chemical properties of hot spring water. Water samples from surface seepage and groundwater wells, analyzed by ICP-OES and ion chromatograph methods for chemical constituents, were dominated by Ca-HCO3 facies having partial pressure of carbon dioxide of 10–2.67 to 10–1.75 atm which is higher than ambient atmospheric CO2 content. Surface seepage samples have lower temperature (60.9°C) than deep groundwater (83.1°C) and reservoir (127.1°C, based on silica geothermometry). Geochemical characteristics of the hot spring water indicated significant difference in chemical properties between surface seepage and deep, hot groundwater as a result of mineral precipitation along the flow paths and inside well casing. Scales were mainly composed of carbonates, silica, Fe-Mn oxides. Geochemical simulations based on multiple chemical reaction equilibria in PHREEQC were performed to confirm scale formation from cooling and CO2-degassing processes. Simulation results showed total cumulative scaling potential (maximum possible precipitation) from 267-m deep well was estimated as 582.2 mg/L, but only 50.4% of scaling potential actually took place at SK hot springs. In addition, maximum possible carbon dioxide outflux to atmosphere from degassing process in SK geothermal field, estimated from the degassing process, was 6,960 ton/year indicating a continuous source of greenhouse gas that may contribute to climate change. Keywords: Degassing, Geochemical modeling, PHREEQC, San Kamphaeng Hot Springs, Scaling

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Hydrochemical characteristics of the hot spring waters in the Kangding district related to the Lushan <i>M</i><sub>S</sub> 7.0 earthquake in Sichuan, China

Natural Hazards and Earth System Sciences Discussions ◽

10.5194/nhessd-2-7293-2014 ◽

2014 ◽

Vol 2 (12) ◽

pp. 7293-7308

Author(s):

Z. Chen ◽

X. Zhou ◽

J. Du ◽

C. Xie ◽

L. Liu ◽

...

Keyword(s):

Water Samples ◽

Carbonate Rocks ◽

Hot Springs ◽

Hot Spring ◽

Spring Water ◽

Lushan Earthquake ◽

Hydrochemical Characteristics ◽

Hydrochemical Data ◽

Deep Earth ◽

Precipitation Water

Abstract. Hydrogeochemistry of 10 hot springs in the Kangding district was investigated by analyzing cation and anion concentrations of the spring waters. The water samples were collected within 5 days after the Lushan earthquake. The spring waters are classified into 7 chemical types based on the hydrochemical compositions. Comparison with the hydrochemical data before the Lushan earthquake, concentrations of Ca2+, HCO3− and TDS of the waters from the Guanding, Erdaoqiao, Gonghe, Erhaoying, Tianwanhe and Caoke springs evidently increased, which resulted from enhancing interaction between deep-earth fluids and carbonate rocks by the increment of dissolved CO2 in the groundwater. Concentrations of Na+, Cl− and SO42− of the waters from the Guanding, zheduotang, Xinxing and Gonghe springs were decreased, indicating dilution of precipitation water. Concentrations of Na+ and SO42− of the Erhaoying spring water increased, which may be attributed to the more supplement of fluids enriched in sulfur. The results indicate that hydrochemical components of spring water can be used as an effective indicator for earthquakes.

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Hot-spring Systems Geobiology: abiotic and biotic influences on travertine formation at Mammoth Hot Springs, Yellowstone National Park, USA

Sedimentology ◽

10.1111/j.1365-3091.2010.01209.x ◽

2011 ◽

Vol 58 (1) ◽

pp. 170-219 ◽

Cited By ~ 98

Author(s):

BRUCE W. FOUKE

Keyword(s):

Yellowstone National Park ◽

National Park ◽

Hot Springs ◽

Hot Spring

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Nanoarchaeota, Their Sulfolobales Host, and Nanoarchaeota Virus Distribution across Yellowstone National Park Hot Springs

Applied and Environmental Microbiology ◽

10.1128/aem.01539-15 ◽

2015 ◽

Vol 81 (22) ◽

pp. 7860-7868 ◽

Cited By ~ 34

Author(s):

Jacob H. Munson-McGee ◽

Erin K. Field ◽

Mary Bateson ◽

Colleen Rooney ◽

Ramunas Stepanauskas ◽

...

Keyword(s):

Single Cell ◽

Yellowstone National Park ◽

National Park ◽

Hot Springs ◽

Hot Spring ◽

Genome Comparison ◽

Fish Analysis ◽

Content Type ◽

Cell Genome ◽

Single Cell Genome

ABSTRACTNanoarchaeotaare obligate symbionts with reduced genomes first described from marine thermal vent environments. Here, both community metagenomics and single-cell analysis revealed the presence ofNanoarchaeotain high-temperature (∼90°C), acidic (pH ≈ 2.5 to 3.0) hot springs in Yellowstone National Park (YNP) (United States). Single-cell genome analysis of two cells resulted in two nearly identical genomes, with an estimated full length of 650 kbp. Genome comparison showed that these two cells are more closely related to the recently proposedNanobsidianus stetterifrom a more neutral YNP hot spring than to the marineNanoarchaeum equitans. Single-cell and catalyzed reporter deposition-fluorescencein situhybridization (CARD-FISH) analysis of environmental hot spring samples identified the host of the YNPNanoarchaeotaas aSulfolobalesspecies known to inhabit the hot springs. Furthermore, we demonstrate thatNanoarchaeotaare widespread in acidic to near neutral hot springs in YNP. An integrated viral sequence was also found within oneNanoarchaeotasingle-cell genome and further analysis of the purified viral fraction from environmental samples indicates that this is likely a virus replicating within the YNPNanoarchaeota.

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Perception and lived experience on health effects of natural hot spring water bath

International Journal of Community Medicine and Public Health ◽

10.18203/2394-6040.ijcmph20214978 ◽

2021 ◽

Vol 9 (1) ◽

pp. 39

Author(s):

Sirjana Tiwari

Keyword(s):

Uric Acid ◽

Lived Experience ◽

Hot Springs ◽

Phenomenological Study ◽

Skin Diseases ◽

Hot Spring ◽

Group Discussion ◽

Spring Water ◽

Water Bath ◽

Positive Effects

Background: Natural hot spring bath has enormous health benefits. The water found in natural hot springs contains a variety of different minerals which shows positive benefits on rheumatism, skin diseases, gastritis, sinusitis, cardiac diseases, joint pain and many more. The healing effect is mostly from mineral composition.Methods: Phenomenological study was conducted on twenty-one participants who were taking natural hot spring water bath in Singha tatopani, Myagdi. Each participant was randomly selected. Eight In-depth interview and two focus group discussion were used for collecting information. People who have immediate bath experience were included in the study and those who were ill and not able to response the question due to illness were excluded from the study. Informed consent was taken from each participant before participation. Afterwards transcripts were transcribe and translated in English and analyzed using thematic analysis was done with the means of Ms. Excel.Results: Participants perceived natural hot spring water bath has positive effects on health and experience large sweating and excretion of urine while bathing. It helps to run their digestive system smoothly, improve blood circulation, and prevent skin problem, relief uric acid, sinusitis, pneumonia, tonsillitis, nose allergy, chest allergy, bronchitis and insomnia. Hot spring foment their pain organ and promote health of accidental victims, physically handicapped people, minimized uterine problem of women, eye itching and epiphora (watery eye).Conclusions: Common diseases Gastritis, rheumatism, skin disease, uric acid can be relieved by taking natural hot spring water bath as well as it help to promote and improve their health status. That’s why natural hot spring water bath can be a beneficial for improvement of public health.

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Characterizing and Evaluating the Diverse Microbial Communities and Their Mercury Resistance Potential from Hot Spring Sites Representing Gradients in Temperature and pH in Yellowstone National Park

Aresty Rutgers Undergraduate Research Journal ◽

10.14713/arestyrurj.v1i1.137 ◽

2020 ◽

Vol 1 (1) ◽

Author(s):

Yelizaveta Rassadkina ◽

Spencer Roth ◽

Tamar Barkay

Keyword(s):

Microbial Communities ◽

Yellowstone National Park ◽

National Park ◽

Hot Springs ◽

Hot Spring ◽

Thermophilic Bacteria ◽

Sequence Data ◽

Mercury Resistance ◽

Sample Site ◽

Microorganism Community

Yellowstone National Park is home to many different hot springs, lakes, geysers, pools, and basins that range in pH, chemical composition, and temperature. These different environmental variations provide a broad range of conditions that select and grow diverse communities of microorganisms. In this study, we collected samples from geochemically diverse lakes and springs to characterize the microbial communities present through 16S rRNA metagenomic analysis. This information was then used to observe how various microorganisms survive in high mercury environments. The results show the presence of microorganisms that have been studied in previous literature. The results also depict gradients of microorganisms including thermophilic bacteria and archaea that exist in these extreme environments. In addition, beta diversity analyses of the sequence data showed site clustering based primarily on temperature instead of pH or sample site, suggesting that while pH, temperature, and sample site were all shown to be significant, temperature is the strongest factor driving microorganism community development. While it is important to characterize the microorganism community present, it is also important to understand how this community functions as a result of its selection. Along with looking at community composition, genomic material was tested to see if it contained mercury methylating (hgcA) or mercury reducing (merA) genes. Out of 22 samples, three of them were observed to have merA genes, while no samples had hgcA genes. These results indicate that microorganisms in Mustard and Nymph Springs may use mercury reduction. Understanding how microorganisms survive in environments with high concentrations of toxic pollutants is crucial because it can be used as a model to better understand mechanisms of resistance and the biogeochemical cycle, as well as for bioremediation and other solutions to anthropogenic problems.

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Study of geothermometers and chemical composition of hot springs in Zavkhan province

Bulletin of Institute of Chemistry and Chemical Technology, Mongolian Academy of Sciences ◽

10.5564/bicct.v0i7.1275 ◽

2019 ◽

pp. 61-67

Author(s):

Bolormaa Ch ◽

Oyuntsetseg D ◽

Bolormaa O

Keyword(s):

Hot Springs ◽

Hot Spring ◽

Geothermal Gradient ◽

Spring Water ◽

Geothermal Water ◽

Reservoir Temperature ◽

Oxidation Reduction ◽

Oxidation Reduction Potential ◽

Temperature Ranges ◽

Total Dissolved Solid

In this study, we collected hot spring water sample from Otgontenger, Tsetsuukh, Zart, Ulaan Khaalga and Khojuul in Zavkhan province. The purpose of this study is to determine the temperature of geothermal water and its depth which based on the hydrochemical component. Hot spring water analyses showed that temperature ranges between 33.4 to 45.5°C, pH ranges 8.40 to 9.56, and the total dissolved solid amount was 170 to 473 mg/L. From the result of hydrochemical analyses, hot spring samples were included in SO4-Na and HCO3-Na type. In comparison to other hot spring samples, Tsetsuukh hot spring has shown negative oxidation reduction potential, -0.8 mV and dissolved hydrogen, 0.22 mg/L. Therefore, it has a higher ability for medical treatment than other hot spring water due to its reduction state. The reservoir temperature of these hot springs is calculated by several geothermometer methods, and temperatures ranged between 102оC to 149оC. According to this result, it assumed that geothermal water with low temperature which has the ability to use for room heating and producing energy by the binary system. Thus, we determined that reservoir depth is 1.3 to 3.7 km using annual average surface and reservoir temperature, and regional geothermal gradient. Завхан аймгийн халуун рашаануудын химийн найрлага, геотермометрийн судалгаа Хураангуй: Бид энэхүү судалгааны ажлаар Завхан аймгийн нутагт орших Отгонтэнгэр, Зарт, Цэцүүх, Улаан хаалга, Хожуулын халуун рашаануудын гидрохимийн найрлагыг нарийвчлан тогтоосоны үндсэн дээр тухайн рашаануудын газрын гүний халуун усны температур болон гүнийг тогтоох зорилго тавин ажиллаа. Завхан аймгийн рашаанууд нь халуун 33.4-45.5°C температуртай, шүлтлэг орчинтой (pH 8.4-9.56), 170-473 мг/л хүртэл эрдэсжилттэй, HCO3-Na болон SO4-Na-ийн төрлийн халуун рашааны ангилалд хамаарагдаж байна. Эдгээр рашаануудаас Цэцүүхийн халуун рашааны исэлдэн ангижрах потенциал нь -0.8 мВ, ууссан устөрөгчийн агуулга 0.22 мг/л илэрсэн нь судалгаанд хамрагдсан бусад рашаануудтай харьцуулахад ангижрах төлөвт оршиж байгаа бөгөөд илүү эмчилгээний идэвхтэй болохыг харуулж байна. Судалгаанд хамрагдсан халуун рашаануудын гүний температурыг химийн найрлагаас нь хамааруулан хэд хэдэн геотермометрийг ашиглан тооцоход дунджаар 102-149oС байсан ба энэ нь бага температуртай усны ангилалд хамаарагдаж байгаа учир тухайн халуун усны нөөцийг өрөө тасалгаа халаах болон бинари системийг ашиглан цахилгаан гаргаж авах боломжтой байна. Мөн Завхан аймгийн халуун рашаануудын газрын гүний халуун усны нөөц нь газрын гадаргаас доош 1.3-3.7 км-ийн гүнд байрладаг болохыг орд дээрх температур, газрын гүний халуун усны температур болон бүс нутгийн геотермал градиентад үндэслэн тооцоолон тодорхойллоо. Түлхүүр үг: Гидрохими, халуун рашаан, геотермометр, гүний температур.

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Application research of intelligent monitoring system of longsheng hot spring water temperature based on Internet of Things

Thermal Science ◽

10.2298/tsci181127150l ◽

2019 ◽

Vol 23 (5 Part A) ◽

pp. 2613-2622

Author(s):

Bi Li ◽

Shi Zheng

Keyword(s):

Water Temperature ◽

Monitoring System ◽

Hot Springs ◽

Cold Water ◽

Hot Spring ◽

Spring Water ◽

Temperature Monitoring ◽

Hot Water ◽

Single Chip ◽

Main Station

Guangxi Guilin area, China, is rich in hot spring resources. In this paper, a hot spring water temperature monitoring system is developed for longsheng hot springs. Mainly using the hot water of eye of hot springs as the heat source, designing a set of multi-point temperature monitoring system with single-chip and multi-slave as the core of the single-chip microcomputer and wireless and bi-directional transmission for the main station and multiple slave stations to realize automatic temperature monitoring. The system slave station can exchange geothermal water with high temperature extracted from the eye of hot springs and cold water, and automatically control the temperature of the hot spring pool to reach a set value range by controlling the flow rate of the cold water. At the same time, the main station can complete the tasks of monitoring system by setting control commands such as temperature.

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