Novel gas exposure system for the controlled exposure of plants to gaseous hydrogen fluoride
Plants can serve as sensitive bioindicators of the presence of contaminant vapors in the atmosphere. This work describes a novel laboratory-based gas exposure system capable of calibrating plants as bioindicators for the detection and delineation of the atmospheric contaminant hydrogen fluoride (HF)...
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| Published in: | Environmental monitoring and assessment Vol. 195; no. 6; p. 752 |
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| Format: | Journal Article |
| Language: | English |
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01-06-2023
Springer Nature B.V Springer Science + Business Media |
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| Abstract | Plants can serve as sensitive bioindicators of the presence of contaminant vapors in the atmosphere. This work describes a novel laboratory-based gas exposure system capable of calibrating plants as bioindicators for the detection and delineation of the atmospheric contaminant hydrogen fluoride (HF) as a preparatory step for monitoring release emissions. To evaluate changes in plant phenotype and stress-induced physiological effects attributed to HF alone, the gas exposure chamber must have additional controls to simulate otherwise optimal plant growth conditions including variables such as light intensity, photoperiod, temperature, and irrigation. The exposure system was designed to maintain constant growth conditions during a series of independent experiments that varied between optimal (control) and stressful (HF exposure) conditions. The system was also designed to ensure the safe handling and application of HF. An initial system calibration introduced HF gas into the exposure chamber and monitored HF concentrations by cavity ring-down spectroscopy for a 48-h period. Stable concentrations inside the exposure chamber were observed after approximately 15 h, and losses of HF to the system ranged from 88 to 91%. A model plant species (
Festuca arundinacea
) was then exposed to HF for 48 h. Visual phenotype stress-induced responses aligned with symptoms reported in the literature for fluoride exposure (tip dieback and discoloration along the dieback transition margin). Fluoride concentrations in exposed tissues compared to control tissues confirmed enhanced fluoride uptake due to HF exposure. The system described herein can be applied to other reactive atmospheric pollutants of interest in support of bioindicator research. |
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| AbstractList | Plants can serve as sensitive bioindicators of the presence of contaminant vapors in the atmosphere. This work describes a novel laboratory-based gas exposure system capable of calibrating plants as bioindicators for the detection and delineation of the atmospheric contaminant hydrogen fluoride (HF) as a preparatory step for monitoring release emissions. To evaluate changes in plant phenotype and stress-induced physiological effects attributed to HF alone, the gas exposure chamber must have additional controls to simulate otherwise optimal plant growth conditions including variables such as light intensity, photoperiod, temperature, and irrigation. The exposure system was designed to maintain constant growth conditions during a series of independent experiments that varied between optimal (control) and stressful (HF exposure) conditions. The system was also designed to ensure the safe handling and application of HF. An initial system calibration introduced HF gas into the exposure chamber and monitored HF concentrations by cavity ring-down spectroscopy for a 48-h period. Stable concentrations inside the exposure chamber were observed after approximately 15 h, and losses of HF to the system ranged from 88 to 91%. A model plant species (
Festuca arundinacea
) was then exposed to HF for 48 h. Visual phenotype stress-induced responses aligned with symptoms reported in the literature for fluoride exposure (tip dieback and discoloration along the dieback transition margin). Fluoride concentrations in exposed tissues compared to control tissues confirmed enhanced fluoride uptake due to HF exposure. The system described herein can be applied to other reactive atmospheric pollutants of interest in support of bioindicator research. Abstract Plants can serve as sensitive bioindicators of the presence of contaminant vapors in the atmosphere. This work describes a novel laboratory-based gas exposure system capable of calibrating plants as bioindicators for the detection and delineation of the atmospheric contaminant hydrogen fluoride (HF) as a preparatory step for monitoring release emissions. To evaluate changes in plant phenotype and stress-induced physiological effects attributed to HF alone, the gas exposure chamber must have additional controls to simulate otherwise optimal plant growth conditions including variables such as light intensity, photoperiod, temperature, and irrigation. The exposure system was designed to maintain constant growth conditions during a series of independent experiments that varied between optimal (control) and stressful (HF exposure) conditions. The system was also designed to ensure the safe handling and application of HF. An initial system calibration introduced HF gas into the exposure chamber and monitored HF concentrations by cavity ring-down spectroscopy for a 48-h period. Stable concentrations inside the exposure chamber were observed after approximately 15 h, and losses of HF to the system ranged from 88 to 91%. A model plant species ( Festuca arundinacea ) was then exposed to HF for 48 h. Visual phenotype stress-induced responses aligned with symptoms reported in the literature for fluoride exposure (tip dieback and discoloration along the dieback transition margin). Fluoride concentrations in exposed tissues compared to control tissues confirmed enhanced fluoride uptake due to HF exposure. The system described herein can be applied to other reactive atmospheric pollutants of interest in support of bioindicator research. Plants can serve as sensitive bioindicators of the presence of contaminant vapors in the atmosphere. This work describes a novel laboratory-based gas exposure system capable of calibrating plants as bioindicators for the detection and delineation of the atmospheric contaminant hydrogen fluoride (HF) as a preparatory step for monitoring release emissions. To evaluate changes in plant phenotype and stress-induced physiological effects attributed to HF alone, the gas exposure chamber must have additional controls to simulate otherwise optimal plant growth conditions including variables such as light intensity, photoperiod, temperature, and irrigation. The exposure system was designed to maintain constant growth conditions during a series of independent experiments that varied between optimal (control) and stressful (HF exposure) conditions. The system was also designed to ensure the safe handling and application of HF. An initial system calibration introduced HF gas into the exposure chamber and monitored HF concentrations by cavity ring-down spectroscopy for a 48-h period. Stable concentrations inside the exposure chamber were observed after approximately 15 h, and losses of HF to the system ranged from 88 to 91%. A model plant species (Festuca arundinacea) was then exposed to HF for 48 h. Visual phenotype stress-induced responses aligned with symptoms reported in the literature for fluoride exposure (tip dieback and discoloration along the dieback transition margin). Fluoride concentrations in exposed tissues compared to control tissues confirmed enhanced fluoride uptake due to HF exposure. The system described herein can be applied to other reactive atmospheric pollutants of interest in support of bioindicator research. Plants can serve as sensitive bioindicators of the presence of contaminant vapors in the atmosphere. This work describes a novel laboratory-based gas exposure system capable of calibrating plants as bioindicators for the detection and delineation of the atmospheric contaminant hydrogen fluoride (HF) as a preparatory step for monitoring release emissions. To evaluate changes in plant phenotype and stress-induced physiological effects attributed to HF alone, the gas exposure chamber must have additional controls to simulate otherwise optimal plant growth conditions including variables such as light intensity, photoperiod, temperature, and irrigation. The exposure system was designed to maintain constant growth conditions during a series of independent experiments that varied between optimal (control) and stressful (HF exposure) conditions. The system was also designed to ensure the safe handling and application of HF. An initial system calibration introduced HF gas into the exposure chamber and monitored HF concentrations by cavity ring-down spectroscopy for a 48-h period. Stable concentrations inside the exposure chamber were observed after approximately 15 h, and losses of HF to the system ranged from 88 to 91%. A model plant species (Festuca arundinacea) was then exposed to HF for 48 h. Visual phenotype stress-induced responses aligned with symptoms reported in the literature for fluoride exposure (tip dieback and discoloration along the dieback transition margin). Fluoride concentrations in exposed tissues compared to control tissues confirmed enhanced fluoride uptake due to HF exposure. The system described herein can be applied to other reactive atmospheric pollutants of interest in support of bioindicator research. |
| ArticleNumber | 752 |
| Author | DaCosta, Michelle Howard, Michael Emsbo-Mattingly, Stephen D. DeMille, Katherine F. Krieger, Gary Webster, Katie B. |
| Author_xml | – sequence: 1 givenname: Katherine F. surname: DeMille fullname: DeMille, Katherine F. email: Kdemille@newfields.com organization: NewFields Environmental Forensics Practice, LLC – sequence: 2 givenname: Stephen D. surname: Emsbo-Mattingly fullname: Emsbo-Mattingly, Stephen D. organization: NewFields Environmental Forensics Practice, LLC – sequence: 3 givenname: Gary surname: Krieger fullname: Krieger, Gary organization: NewFields E&E – sequence: 4 givenname: Michael surname: Howard fullname: Howard, Michael organization: Mission Support and Test Services, LLC – sequence: 5 givenname: Katie B. surname: Webster fullname: Webster, Katie B. organization: University of Massachusetts Amherst – sequence: 6 givenname: Michelle surname: DaCosta fullname: DaCosta, Michelle organization: University of Massachusetts Amherst |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/37247106$$D View this record in MEDLINE/PubMed https://www.osti.gov/biblio/1975561$$D View this record in Osti.gov |
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| Issue | 6 |
| Keywords | Air monitoring Hydrogen fluoride Gas exposure system Bioindicator |
| Language | English |
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| PublicationSubtitle | An International Journal Devoted to Progress in the Use of Monitoring Data in Assessing Environmental Risks to Humans and the Environment |
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| References_xml | – volume: 11 start-page: 470 issue: 10 year: 1961 end-page: 489 ident: CR2 article-title: An air pollution phytotron: A controlled environment facility for studies into the effects of air pollutants on vegetation publication-title: Journal of the Air Pollution Control Association doi: 10.1080/00022470.1961.10468026 contributor: fullname: Adams – volume: 33 start-page: 583 issue: 4 year: 2007 end-page: 588 ident: CR22 article-title: Lolium perenne as a biomonitor of atmospheric levels of fluoride publication-title: Environment International doi: 10.1016/j.envint.2006.10.004 contributor: fullname: Carballeira – year: 2000 ident: CR9 publication-title: Chemistry of the upper and lower atmosphere: Theory, experiments, and applications contributor: fullname: Pitts – ident: CR4 – volume: 5 start-page: 1128 issue: 11 year: 1971 end-page: 1132 ident: CR21 article-title: Effects of hydrogen fluoride on production and organic reserves of bean seed publication-title: Environmental Science & Technology doi: 10.1021/es60058a010 contributor: fullname: Pack – volume: 6 start-page: 444 year: 2015 end-page: 453 ident: CR23 article-title: Biomonitoring of airborne fluoride and polycyclic aromatic hydrocarbons in industrial areas of Cordoba, Argentina, using standardized grass cultures of Lolium multiflorum publication-title: Atmospheric Pollution Research doi: 10.5094/APR.2015.049 contributor: fullname: Rodriguez – volume: 10 start-page: 80 year: 1981 end-page: 87 ident: CR28 article-title: Uranium conversion and enrichment technologies: Sources of atmospheric fluoride publication-title: Journal of Environmental Quality doi: 10.2134/jeq1981.00472425001000010018x contributor: fullname: Taylor – volume: 67 start-page: 193 year: 2016 end-page: 203 ident: CR15 article-title: Vegetation damage in the vicinity of an aluminum smelter in Brazil publication-title: Ecological Indicators doi: 10.1016/j.ecolind.2016.02.044 contributor: fullname: da Silva – ident: CR29 – volume: 85 start-page: 109 issue: 1 year: 1994 end-page: 116 ident: CR14 article-title: Plants as bioindicators of air pollution at the Serra do Mar near the industrial complex of Cubatão, Brazil publication-title: Environmental Pollution doi: 10.1016/0269-7491(94)90244-5 contributor: fullname: Domingos – volume: 5 start-page: 108 issue: 2 year: 1957 end-page: 116 ident: CR3 article-title: Relationship among exposure periods, foliar burn, and fluorine content of plants exposed to hydrogen fluoride publication-title: Agricultural and Food Chemistry doi: 10.1021/jf60072a002 contributor: fullname: Applegate – volume: 122 start-page: 1 year: 2021 end-page: 9 ident: CR24 article-title: Could the fluoride-tolerant species Panicum maximum replace sensitive plants in fluoride biomonitoring? publication-title: Ecological Indicators doi: 10.1016/j.ecolind.2020.107308 contributor: fullname: Gomes – volume: 7 start-page: 88 issue: 2 year: 1957 end-page: 91 ident: CR1 article-title: Further applications of the limed filter paper technique in fluorine air pollution studies publication-title: Journal of the Air Pollution Control Association doi: 10.1080/00966665.1957.10467794 contributor: fullname: Adams – volume: 67 start-page: 247 issue: 2 year: 2007 end-page: 253 ident: CR6 article-title: Effects of fluoride emissions on two tropical grasses: Chloris gayana and Panicum maximum cv. 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year: 2018 end-page: 16 ident: CR5 article-title: Atmospheric chemistry of hydrogen fluoride publication-title: Journal of Atmospheric Chemistry doi: 10.1007/s10874-017-9359-7 contributor: fullname: Cheng – volume: 125 start-page: 3 issue: 1 year: 2003 end-page: 11 ident: CR31 article-title: Native plant species suitable as bioindicators and biomonitors for airborne fluoride publication-title: Environmental Pollution doi: 10.1016/S0269-7491(03)00090-3 contributor: fullname: Davison – ident: CR26 – volume: 7 start-page: 88 issue: 2 year: 1957 ident: 11382_CR1 publication-title: Journal of the Air Pollution Control Association doi: 10.1080/00966665.1957.10467794 contributor: fullname: DF Adams – volume: 67 start-page: 193 year: 2016 ident: 11382_CR15 publication-title: Ecological Indicators doi: 10.1016/j.ecolind.2016.02.044 contributor: fullname: E Louback – start-page: 107 volume-title: Turfgrass Biology, Genetics and Breeding year: 2003 ident: 11382_CR19 contributor: fullname: WA Meyer – volume: 5 start-page: 1128 issue: 11 year: 1971 ident: 11382_CR21 publication-title: Environmental Science & Technology doi: 10.1021/es60058a010 contributor: fullname: MR Pack – volume: 14 start-page: 465 issue: 11 year: 1964 ident: 11382_CR18 publication-title: Journal of the Air Pollution and Control Association doi: 10.1080/00022470.1964.10468316 contributor: fullname: DC McCune – start-page: 117 volume-title: Plants for Toxicity Assessment year: 1990 ident: 11382_CR32 doi: 10.1520/STP19057S contributor: fullname: LH Weinstein – volume: 41 start-page: 4828 issue: 23 year: 2007 ident: 11382_CR11 publication-title: Atmospheric Environment doi: 10.1016/j.atmosenv.2007.02.010 contributor: fullname: J Franzaring – volume: 5 start-page: 108 issue: 2 year: 1957 ident: 11382_CR3 publication-title: Agricultural and Food Chemistry doi: 10.1021/jf60072a002 contributor: fullname: DF Adams – ident: 11382_CR29 – volume-title: Chemistry of the upper and lower atmosphere: Theory, experiments, and applications year: 2000 ident: 11382_CR9 contributor: fullname: BJ Finlayson-Pitts – volume: 98 start-page: 103 year: 1971 ident: 11382_CR20 publication-title: Bulletin of the Torrey Botanical Club doi: 10.2307/2483775 contributor: fullname: TH Nash III – volume: 10 start-page: 80 year: 1981 ident: 11382_CR28 publication-title: Journal of Environmental Quality doi: 10.2134/jeq1981.00472425001000010018x contributor: fullname: FG Taylor – volume-title: Fluorides in the environment: Effects on plants and animals year: 2004 ident: 11382_CR30 doi: 10.1079/9780851996837.0000 contributor: fullname: LH Weinstein – volume: 165 start-page: 507 issue: 3 year: 2003 ident: 11382_CR10 publication-title: Plant Science doi: 10.1016/S0168-9452(03)00205-X contributor: fullname: R Fornasiero – volume: 85 start-page: 109 issue: 1 year: 1994 ident: 11382_CR14 publication-title: Environmental Pollution doi: 10.1016/0269-7491(94)90244-5 contributor: fullname: A Klumpp – volume: 33 start-page: 583 issue: 4 year: 2007 ident: 11382_CR22 publication-title: Environment International doi: 10.1016/j.envint.2006.10.004 contributor: fullname: A Rey-Asensio – ident: 11382_CR26 – volume: 37 start-page: 335 issue: 4 year: 1985 ident: 11382_CR27 publication-title: Environmental Pollution Series a, Ecological and Biological doi: 10.1016/0143-1471(85)90122-9 contributor: fullname: EJ Sun – ident: 11382_CR4 – volume: 19 start-page: 1059 issue: 11 year: 1985 ident: 11382_CR12 publication-title: Environmental Science & Technology doi: 10.1021/es00141a006 contributor: fullname: D Grosjean – volume: 6 start-page: 444 year: 2015 ident: 11382_CR23 publication-title: Atmospheric Pollution Research doi: 10.5094/APR.2015.049 contributor: fullname: JH Rodriguez – volume: 8 start-page: 454 issue: 5 year: 2008 ident: 11382_CR7 publication-title: Ecological Indicators doi: 10.1016/j.ecolind.2007.04.008 contributor: fullname: AM Divan Jr – volume: 122 start-page: 1 year: 2021 ident: 11382_CR24 publication-title: Ecological Indicators doi: 10.1016/j.ecolind.2020.107308 contributor: fullname: BF Sant'Anna-Santos – volume: 75 start-page: 1 year: 2018 ident: 11382_CR5 publication-title: Journal of Atmospheric Chemistry doi: 10.1007/s10874-017-9359-7 contributor: fullname: M Cheng – volume: 50 start-page: 393 issue: 4 year: 2017 ident: 11382_CR25 publication-title: Fluoride contributor: fullname: S Shahab – volume: 2 start-page: 444 issue: 6 year: 1968 ident: 11382_CR16 publication-title: Environmental Science & Technology doi: 10.1021/es60018a002 contributor: fullname: DC MacLean – volume: 11 start-page: 470 issue: 10 year: 1961 ident: 11382_CR2 publication-title: Journal of the Air Pollution Control Association doi: 10.1080/00022470.1961.10468026 contributor: fullname: DF Adams – ident: 11382_CR13 – volume: 67 start-page: 247 issue: 2 year: 2007 ident: 11382_CR6 publication-title: Ecotoxicology and Environmental Safety doi: 10.1016/j.ecoenv.2006.06.002 contributor: fullname: AM Divan Jr – volume: 38 start-page: 561 issue: 5 year: 2003 ident: 11382_CR8 publication-title: Journal of Environmental Science and Health, Part B doi: 10.1081/PFC-120023514 contributor: fullname: T Döğeroğlu – volume: 22 start-page: 710 issue: 9 year: 1972 ident: 11382_CR17 publication-title: Journal of the Air Pollution Control Association doi: 10.1080/00022470.1972.10469704 contributor: fullname: J Matsushima – volume: 125 start-page: 3 issue: 1 year: 2003 ident: 11382_CR31 publication-title: Environmental Pollution doi: 10.1016/S0269-7491(03)00090-3 contributor: fullname: LH Weinstein |
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| Snippet | Plants can serve as sensitive bioindicators of the presence of contaminant vapors in the atmosphere. This work describes a novel laboratory-based gas exposure... Abstract Plants can serve as sensitive bioindicators of the presence of contaminant vapors in the atmosphere. This work describes a novel laboratory-based gas... |
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| SubjectTerms | Air pollution Analytical methods Atmospheric Protection/Air Quality Control/Air Pollution Bioindicators Cavity ringdown Chambers Contaminants Dieback Discoloration Earth and Environmental Science Ecology Ecotoxicology Emissions Environment Environmental Biomarkers Environmental Management Environmental monitoring Environmental Monitoring - methods Environmental science Exposure Fluorides Fluorides - toxicity Gases Growth conditions Hydrofluoric Acid Hydrogen Hydrogen fluoride Indicator species Irrigation systems Light intensity Luminous intensity Monitoring/Environmental Analysis Phenotypes Photoperiods Physiological effects Plant growth Plant species Plants Pollution monitoring Spectroscopy Symptoms Uptake Vapors |
| Title | Novel gas exposure system for the controlled exposure of plants to gaseous hydrogen fluoride |
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