Alkaline air: changing perspectives on nitrogen and air pollution in an ammonia-rich world: Alkaline Air

Mark A. Sutton; Netty Van Dijk; Peter E. Levy; Matthew R. Jones; Ian D. Leith; Lucy J. Sheppard; Sarah Leeson; Y. Sim Tang; Amy Stephens; Christine F. Braban; Ulrike Dragosits; Clare M. Howard; Massimo Vieno; David Fowler; Paul Corbett; Mohd Irfan Naikoo; Silvana Munzi; Christopher J. Ellis; Sudipto Chatterjee; Claudia E. Steadman; Andrea Móring; Patricia A. Wolseley

doi:10.1098/rsta.2019.0315

Alkaline air: changing perspectives on nitrogen and air pollution in an ammonia-rich world: Alkaline Air

Mark A. Sutton^*
, Netty Van Dijk
, Peter E. Levy
, Matthew R. Jones
, Ian D. Leith
, Lucy J. Sheppard
, Sarah Leeson
, Y. Sim Tang
, Amy Stephens
, Christine F. Braban
, Ulrike Dragosits
, Clare M. Howard
, Massimo Vieno
, David Fowler
, Paul Corbett
, Mohd Irfan Naikoo
, Silvana Munzi
, Christopher J. Ellis
, Sudipto Chatterjee
, Claudia E. Steadman

Andrea Móring, Patricia A. Wolseley

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

56 Scopus citations

Abstract

Ammonia and ammonium have received less attention than other forms of air pollution, with limited progress in controlling emissions at UK, European and global scales. By contrast, these compounds have been of significant past interest to science and society, the recollection of which can inform future strategies. Sal ammoniac (nushadir, nao sha) is found to have been extremely valuable in long-distance trade (ca AD 600-1150) from Egypt and China, where 6-8 kg N could purchase a human life, while air pollution associated with nushadir collection was attributed to this nitrogen form. Ammonia was one of the keys to alchemy - seen as an early experimental mesocosm to understand the world - and later became of interest as 'alkaline air' within the eighteenth century development of pneumatic chemistry. The same economic, chemical and environmental properties are found to make ammonia and ammonium of huge relevance today. Successful control of acidifying SO 2 and NO x emissions leaves atmospheric NH 3 in excess in many areas, contributing to particulate matter (PM 2.5) formation, while leading to a new significance of alkaline air, with adverse impacts on natural ecosystems. Investigations of epiphytic lichens and bog ecosystems show how the alkalinity effect of NH 3 may explain its having three to five times the adverse effect of ammonium and nitrate, respectively. It is concluded that future air pollution policy should no longer neglect ammonia. Progress is likely to be mobilized by emphasizing the lost economic value of global N emissions ($200 billion yr -1), as part of developing the circular economy for sustainable nitrogen management. This article is part of a discussion meeting issue 'Air quality, past present and future'.

Original language	English
Article number	20190315
Journal	Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences
Volume	378
Issue number	2183
DOIs	https://doi.org/10.1098/rsta.2019.0315
State	Published - 30 Oct 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020 The Authors.

Keywords

alkaline air
circular economy
ecosystem recovery
lichens
nitrogen
nushadir

ASJC Scopus subject areas

General Mathematics
General Engineering
General Physics and Astronomy

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1098/rsta.2019.0315

Cite this

Sutton, M. A., Van Dijk, N., Levy, P. E., Jones, M. R., Leith, I. D., Sheppard, L. J., Leeson, S., Sim Tang, Y., Stephens, A., Braban, C. F., Dragosits, U., Howard, C. M., Vieno, M., Fowler, D., Corbett, P., Naikoo, M. I., Munzi, S., Ellis, C. J., Chatterjee, S., ... Wolseley, P. A. (2020). Alkaline air: changing perspectives on nitrogen and air pollution in an ammonia-rich world: Alkaline Air. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 378(2183), Article 20190315. https://doi.org/10.1098/rsta.2019.0315

@article{b538e269aadc4974913ce8e999ba14dc,

title = "Alkaline air: changing perspectives on nitrogen and air pollution in an ammonia-rich world: Alkaline Air",

abstract = "Ammonia and ammonium have received less attention than other forms of air pollution, with limited progress in controlling emissions at UK, European and global scales. By contrast, these compounds have been of significant past interest to science and society, the recollection of which can inform future strategies. Sal ammoniac (nushadir, nao sha) is found to have been extremely valuable in long-distance trade (ca AD 600-1150) from Egypt and China, where 6-8 kg N could purchase a human life, while air pollution associated with nushadir collection was attributed to this nitrogen form. Ammonia was one of the keys to alchemy - seen as an early experimental mesocosm to understand the world - and later became of interest as 'alkaline air' within the eighteenth century development of pneumatic chemistry. The same economic, chemical and environmental properties are found to make ammonia and ammonium of huge relevance today. Successful control of acidifying SO 2 and NO x emissions leaves atmospheric NH 3 in excess in many areas, contributing to particulate matter (PM 2.5) formation, while leading to a new significance of alkaline air, with adverse impacts on natural ecosystems. Investigations of epiphytic lichens and bog ecosystems show how the alkalinity effect of NH 3 may explain its having three to five times the adverse effect of ammonium and nitrate, respectively. It is concluded that future air pollution policy should no longer neglect ammonia. Progress is likely to be mobilized by emphasizing the lost economic value of global N emissions (\$200 billion yr -1), as part of developing the circular economy for sustainable nitrogen management. This article is part of a discussion meeting issue 'Air quality, past present and future'.",

keywords = "alkaline air, circular economy, ecosystem recovery, lichens, nitrogen, nushadir",

author = "Sutton, \{Mark A.\} and \{Van Dijk\}, Netty and Levy, \{Peter E.\} and Jones, \{Matthew R.\} and Leith, \{Ian D.\} and Sheppard, \{Lucy J.\} and Sarah Leeson and \{Sim Tang\}, Y. and Amy Stephens and Braban, \{Christine F.\} and Ulrike Dragosits and Howard, \{Clare M.\} and Massimo Vieno and David Fowler and Paul Corbett and Naikoo, \{Mohd Irfan\} and Silvana Munzi and Ellis, \{Christopher J.\} and Sudipto Chatterjee and Steadman, \{Claudia E.\} and Andrea M{\'o}ring and Wolseley, \{Patricia A.\}",

note = "Publisher Copyright: {\textcopyright} 2020 The Authors.",

year = "2020",

month = oct,

day = "30",

doi = "10.1098/rsta.2019.0315",

language = "English",

volume = "378",

journal = "Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences",

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Sutton, MA, Van Dijk, N, Levy, PE, Jones, MR, Leith, ID, Sheppard, LJ, Leeson, S, Sim Tang, Y, Stephens, A, Braban, CF, Dragosits, U, Howard, CM, Vieno, M, Fowler, D, Corbett, P, Naikoo, MI, Munzi, S, Ellis, CJ, Chatterjee, S, Steadman, CE, Móring, A & Wolseley, PA 2020, 'Alkaline air: changing perspectives on nitrogen and air pollution in an ammonia-rich world: Alkaline Air', Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol. 378, no. 2183, 20190315. https://doi.org/10.1098/rsta.2019.0315

Alkaline air: changing perspectives on nitrogen and air pollution in an ammonia-rich world: Alkaline Air. / Sutton, Mark A.; Van Dijk, Netty; Levy, Peter E. et al.
In: Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, Vol. 378, No. 2183, 20190315, 30.10.2020.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Alkaline air

T2 - changing perspectives on nitrogen and air pollution in an ammonia-rich world: Alkaline Air

AU - Sutton, Mark A.

AU - Van Dijk, Netty

AU - Levy, Peter E.

AU - Jones, Matthew R.

AU - Leith, Ian D.

AU - Sheppard, Lucy J.

AU - Leeson, Sarah

AU - Sim Tang, Y.

AU - Stephens, Amy

AU - Braban, Christine F.

AU - Dragosits, Ulrike

AU - Howard, Clare M.

AU - Vieno, Massimo

AU - Fowler, David

AU - Corbett, Paul

AU - Naikoo, Mohd Irfan

AU - Munzi, Silvana

AU - Ellis, Christopher J.

AU - Chatterjee, Sudipto

AU - Steadman, Claudia E.

AU - Móring, Andrea

AU - Wolseley, Patricia A.

PY - 2020/10/30

Y1 - 2020/10/30

N2 - Ammonia and ammonium have received less attention than other forms of air pollution, with limited progress in controlling emissions at UK, European and global scales. By contrast, these compounds have been of significant past interest to science and society, the recollection of which can inform future strategies. Sal ammoniac (nushadir, nao sha) is found to have been extremely valuable in long-distance trade (ca AD 600-1150) from Egypt and China, where 6-8 kg N could purchase a human life, while air pollution associated with nushadir collection was attributed to this nitrogen form. Ammonia was one of the keys to alchemy - seen as an early experimental mesocosm to understand the world - and later became of interest as 'alkaline air' within the eighteenth century development of pneumatic chemistry. The same economic, chemical and environmental properties are found to make ammonia and ammonium of huge relevance today. Successful control of acidifying SO 2 and NO x emissions leaves atmospheric NH 3 in excess in many areas, contributing to particulate matter (PM 2.5) formation, while leading to a new significance of alkaline air, with adverse impacts on natural ecosystems. Investigations of epiphytic lichens and bog ecosystems show how the alkalinity effect of NH 3 may explain its having three to five times the adverse effect of ammonium and nitrate, respectively. It is concluded that future air pollution policy should no longer neglect ammonia. Progress is likely to be mobilized by emphasizing the lost economic value of global N emissions ($200 billion yr -1), as part of developing the circular economy for sustainable nitrogen management. This article is part of a discussion meeting issue 'Air quality, past present and future'.

AB - Ammonia and ammonium have received less attention than other forms of air pollution, with limited progress in controlling emissions at UK, European and global scales. By contrast, these compounds have been of significant past interest to science and society, the recollection of which can inform future strategies. Sal ammoniac (nushadir, nao sha) is found to have been extremely valuable in long-distance trade (ca AD 600-1150) from Egypt and China, where 6-8 kg N could purchase a human life, while air pollution associated with nushadir collection was attributed to this nitrogen form. Ammonia was one of the keys to alchemy - seen as an early experimental mesocosm to understand the world - and later became of interest as 'alkaline air' within the eighteenth century development of pneumatic chemistry. The same economic, chemical and environmental properties are found to make ammonia and ammonium of huge relevance today. Successful control of acidifying SO 2 and NO x emissions leaves atmospheric NH 3 in excess in many areas, contributing to particulate matter (PM 2.5) formation, while leading to a new significance of alkaline air, with adverse impacts on natural ecosystems. Investigations of epiphytic lichens and bog ecosystems show how the alkalinity effect of NH 3 may explain its having three to five times the adverse effect of ammonium and nitrate, respectively. It is concluded that future air pollution policy should no longer neglect ammonia. Progress is likely to be mobilized by emphasizing the lost economic value of global N emissions ($200 billion yr -1), as part of developing the circular economy for sustainable nitrogen management. This article is part of a discussion meeting issue 'Air quality, past present and future'.

KW - alkaline air

KW - circular economy

KW - ecosystem recovery

KW - lichens

KW - nitrogen

KW - nushadir

UR - https://www.scopus.com/pages/publications/85091810860

U2 - 10.1098/rsta.2019.0315

DO - 10.1098/rsta.2019.0315

M3 - Article

C2 - 32981429

AN - SCOPUS:85091810860

SN - 1364-503X

VL - 378

JO - Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences

JF - Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences

IS - 2183

M1 - 20190315

ER -

Alkaline air: changing perspectives on nitrogen and air pollution in an ammonia-rich world: Alkaline Air

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

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