Measuring pH in low ionic strength glacial meltwaters using ion selective field effect transistor (ISFET) technology
Measuring pH in glacial meltwaters is challenging, because they are cold, remote, subject to freeze‐thaw cycles and have low ionic strength. Traditional methods often perform poorly there; glass electrodes have high drift and long response times, and spectrophotometric techniques are unpractical in...
Published in: | Limnology and Oceanography: Methods |
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Association for the Sciences of Limnology and Oceanography (ASLO)
2021
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Online Access: | https://orca.cardiff.ac.uk/id/eprint/138233/ https://doi.org/10.1002/lom3.10416 https://orca.cardiff.ac.uk/id/eprint/138233/1/Bagshaw_lom3.10416.pdf |
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ftunivcardiff:oai:https://orca.cardiff.ac.uk:138233 2023-05-15T16:29:51+02:00 Measuring pH in low ionic strength glacial meltwaters using ion selective field effect transistor (ISFET) technology Bagshaw, Elizabeth A. Wadham, Jemma L. Tranter, Martyn Beaton, Alexander D. Hawkings, Jon R. Lamarche-Gagnon, Guillaume Mowlem, Matthew C. 2021-03-31 application/pdf https://orca.cardiff.ac.uk/id/eprint/138233/ https://doi.org/10.1002/lom3.10416 https://orca.cardiff.ac.uk/id/eprint/138233/1/Bagshaw_lom3.10416.pdf en eng Association for the Sciences of Limnology and Oceanography (ASLO) https://orca.cardiff.ac.uk/id/eprint/138233/1/Bagshaw_lom3.10416.pdf Bagshaw, Elizabeth A. https://orca.cardiff.ac.uk/view/cardiffauthors/A1991811U.html orcid:0000-0001-8392-1750 orcid:0000-0001-8392-1750, Wadham, Jemma L., Tranter, Martyn, Beaton, Alexander D., Hawkings, Jon R., Lamarche-Gagnon, Guillaume and Mowlem, Matthew C. 2021. Measuring pH in low ionic strength glacial meltwaters using ion selective field effect transistor (ISFET) technology. Limnology and Oceanography: Methods 19 (3) , pp. 222-233. 10.1002/lom3.10416 https://doi.org/10.1002/lom3.10416 file https://orca.cardiff.ac.uk/138233/1/Bagshaw_lom3.10416.pdf doi:10.1002/lom3.10416 cc_by CC-BY Article PeerReviewed 2021 ftunivcardiff https://doi.org/10.1002/lom3.10416 2022-11-10T23:38:58Z Measuring pH in glacial meltwaters is challenging, because they are cold, remote, subject to freeze‐thaw cycles and have low ionic strength. Traditional methods often perform poorly there; glass electrodes have high drift and long response times, and spectrophotometric techniques are unpractical in cold, remote environments. Ion selective field effect transistor (ISFET) sensors are a promising alternative, proven in marine and industrial applications. We assess the suitability of two models of ISFET, the Honeywell Durafet and Campbell Scientific Sentron, for use in glacial melt through a series of lab and field experiments. The sensors have excellent tolerance of freeze‐thaw and minimal long‐term drift, with the Durafet experiencing less drift than the Sentron model. They have predictable response to temperature, although the Durafet housing causes some lag during rapid cycling, and the impact of stirring is an order of magnitude less than that of glass electrodes. At low ionic strength (< 1 mmol L−1), there is measurable error, but this is quantifiable, and less than glass electrodes. Field tests demonstrated low battery consumption, excellent longevity and resistance to extreme conditions, and revealed biogeochemical processes that were unlikely to be recorded by standard methods. Meltwater pH in two glacial catchments in Greenland remained > 7 with consistent diurnal cycles from the very first meltwater flows. We recommend that ISFET sensors are used to assess the pH of glacial meltwater, since their tolerance is significantly better than alternative methods: the Durafet is accurate to ± 0.2 pH when waters are > 1 mmol L−1 ionic strength, and ± 0.3 pH at < 1 mmol L−1. Article in Journal/Newspaper Greenland Cardiff University: ORCA (Online Research @ Cardiff) Greenland Limnology and Oceanography: Methods 19 3 222 233 |
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Open Polar |
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Cardiff University: ORCA (Online Research @ Cardiff) |
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ftunivcardiff |
language |
English |
description |
Measuring pH in glacial meltwaters is challenging, because they are cold, remote, subject to freeze‐thaw cycles and have low ionic strength. Traditional methods often perform poorly there; glass electrodes have high drift and long response times, and spectrophotometric techniques are unpractical in cold, remote environments. Ion selective field effect transistor (ISFET) sensors are a promising alternative, proven in marine and industrial applications. We assess the suitability of two models of ISFET, the Honeywell Durafet and Campbell Scientific Sentron, for use in glacial melt through a series of lab and field experiments. The sensors have excellent tolerance of freeze‐thaw and minimal long‐term drift, with the Durafet experiencing less drift than the Sentron model. They have predictable response to temperature, although the Durafet housing causes some lag during rapid cycling, and the impact of stirring is an order of magnitude less than that of glass electrodes. At low ionic strength (< 1 mmol L−1), there is measurable error, but this is quantifiable, and less than glass electrodes. Field tests demonstrated low battery consumption, excellent longevity and resistance to extreme conditions, and revealed biogeochemical processes that were unlikely to be recorded by standard methods. Meltwater pH in two glacial catchments in Greenland remained > 7 with consistent diurnal cycles from the very first meltwater flows. We recommend that ISFET sensors are used to assess the pH of glacial meltwater, since their tolerance is significantly better than alternative methods: the Durafet is accurate to ± 0.2 pH when waters are > 1 mmol L−1 ionic strength, and ± 0.3 pH at < 1 mmol L−1. |
format |
Article in Journal/Newspaper |
author |
Bagshaw, Elizabeth A. Wadham, Jemma L. Tranter, Martyn Beaton, Alexander D. Hawkings, Jon R. Lamarche-Gagnon, Guillaume Mowlem, Matthew C. |
spellingShingle |
Bagshaw, Elizabeth A. Wadham, Jemma L. Tranter, Martyn Beaton, Alexander D. Hawkings, Jon R. Lamarche-Gagnon, Guillaume Mowlem, Matthew C. Measuring pH in low ionic strength glacial meltwaters using ion selective field effect transistor (ISFET) technology |
author_facet |
Bagshaw, Elizabeth A. Wadham, Jemma L. Tranter, Martyn Beaton, Alexander D. Hawkings, Jon R. Lamarche-Gagnon, Guillaume Mowlem, Matthew C. |
author_sort |
Bagshaw, Elizabeth A. |
title |
Measuring pH in low ionic strength glacial meltwaters using ion selective field effect transistor (ISFET) technology |
title_short |
Measuring pH in low ionic strength glacial meltwaters using ion selective field effect transistor (ISFET) technology |
title_full |
Measuring pH in low ionic strength glacial meltwaters using ion selective field effect transistor (ISFET) technology |
title_fullStr |
Measuring pH in low ionic strength glacial meltwaters using ion selective field effect transistor (ISFET) technology |
title_full_unstemmed |
Measuring pH in low ionic strength glacial meltwaters using ion selective field effect transistor (ISFET) technology |
title_sort |
measuring ph in low ionic strength glacial meltwaters using ion selective field effect transistor (isfet) technology |
publisher |
Association for the Sciences of Limnology and Oceanography (ASLO) |
publishDate |
2021 |
url |
https://orca.cardiff.ac.uk/id/eprint/138233/ https://doi.org/10.1002/lom3.10416 https://orca.cardiff.ac.uk/id/eprint/138233/1/Bagshaw_lom3.10416.pdf |
geographic |
Greenland |
geographic_facet |
Greenland |
genre |
Greenland |
genre_facet |
Greenland |
op_relation |
https://orca.cardiff.ac.uk/id/eprint/138233/1/Bagshaw_lom3.10416.pdf Bagshaw, Elizabeth A. https://orca.cardiff.ac.uk/view/cardiffauthors/A1991811U.html orcid:0000-0001-8392-1750 orcid:0000-0001-8392-1750, Wadham, Jemma L., Tranter, Martyn, Beaton, Alexander D., Hawkings, Jon R., Lamarche-Gagnon, Guillaume and Mowlem, Matthew C. 2021. Measuring pH in low ionic strength glacial meltwaters using ion selective field effect transistor (ISFET) technology. Limnology and Oceanography: Methods 19 (3) , pp. 222-233. 10.1002/lom3.10416 https://doi.org/10.1002/lom3.10416 file https://orca.cardiff.ac.uk/138233/1/Bagshaw_lom3.10416.pdf doi:10.1002/lom3.10416 |
op_rights |
cc_by |
op_rightsnorm |
CC-BY |
op_doi |
https://doi.org/10.1002/lom3.10416 |
container_title |
Limnology and Oceanography: Methods |
container_volume |
19 |
container_issue |
3 |
container_start_page |
222 |
op_container_end_page |
233 |
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1766019561460596736 |