Biogenic volatile organic compound flux from the UK West Midlands urban tree canopy.

Lancaster Environment Centre

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Biogenic volatile organic compound flux from the UK West Midlands urban tree canopy. / Owen, S. M.; Mackenzie, A. Robert; Stewart, H. et al.
In: Ecological Applications, Vol. 13, No. 4, 08.2003, p. 927-938.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Harvard

Owen, SM, Mackenzie, AR, Stewart, H, Donovan, R & Hewitt, CN 2003, 'Biogenic volatile organic compound flux from the UK West Midlands urban tree canopy.', Ecological Applications, vol. 13, no. 4, pp. 927-938. https://doi.org/10.1890/01-5177

APA

Owen, S. M., Mackenzie, A. R., Stewart, H., Donovan, R., & Hewitt, CN. (2003). Biogenic volatile organic compound flux from the UK West Midlands urban tree canopy. Ecological Applications, 13(4), 927-938. https://doi.org/10.1890/01-5177

Vancouver

Owen SM, Mackenzie AR, Stewart H, Donovan R, Hewitt CN. Biogenic volatile organic compound flux from the UK West Midlands urban tree canopy. Ecological Applications. 2003 Aug;13(4):927-938. doi: 10.1890/01-5177

Author

Owen, S. M. ; Mackenzie, A. Robert ; Stewart, H. et al. / Biogenic volatile organic compound flux from the UK West Midlands urban tree canopy. In: Ecological Applications. 2003 ; Vol. 13, No. 4. pp. 927-938.

Bibtex

@article{9355bc76ed364252baf514103750c8e7,

title = "Biogenic volatile organic compound flux from the UK West Midlands urban tree canopy.",

abstract = "Biogenic emissions of the volatile organic compounds isoprene and monoterpenes (BVOCs) can contribute to tropospheric ozone and secondary particle formation and have indirect effects on climate change. While there are few studies of BVOC emissions from European towns and cities, several studies in North America indicate that the urban tree canopy may be a significant source of BVOC compounds, contributing to ozone and particle formation in the urban air-shed. Here, BVOC emissions from the U.K. West Midlands (UKWM) metropolitan area were estimated and compared with anthropogenic VOC emission estimates, and with BVOC emission estimates for other urban and U.K. regions. Monoterpene and isoprene emission potential estimates for the UKWM urban land-use classes spanned as much as two orders of magnitude, from 17–104 g·km–2·h–1 and from 42–1570 g·km–2·h–1, respectively. Isoprene emission potential estimates for the UKWM urban land classes (42–530 g·km–2·h–1) were of the same order of magnitude as isoprene emission measurements for U.K. gorse heathland in early summer (43 g·km–2·h–1), and up to approximately one order of magnitude lower than those measured from U.K. Sitka spruce forests in summer (658–6760 g·km–2·h–1). In the UKWM, the land class average of ΣBVOC emission estimates (75–165 kg·km–2·yr–1) were approximately two orders of magnitude lower than anthropogenic VOC emission estimates for the same area (70 000 kg·km–2·yr–1). Biogenic isoprene emission estimates from at least two of the UKWM urban land-use classes were equivalent to, or greater than, estimates of anthropogenic isoprene emissions. The extrapolation methodologies are critically discussed in the context of their uncertainties, and in the context of their generic potential.",

keywords = "air quality, biogenic emissions of volatile organic compounds, isoprene, monoterpenes, urban tree canopy, West Midlands, United Kingdom",

author = "Owen, {S. M.} and Mackenzie, {A. Robert} and H. Stewart and R. Donovan and CN Hewitt",

year = "2003",

month = aug,

doi = "10.1890/01-5177",

language = "English",

volume = "13",

pages = "927--938",

journal = "Ecological Applications",

issn = "1051-0761",

publisher = "ECOLOGICAL SOC AMER",

number = "4",

}

RIS

TY - JOUR

T1 - Biogenic volatile organic compound flux from the UK West Midlands urban tree canopy.

AU - Owen, S. M.

AU - Mackenzie, A. Robert

AU - Stewart, H.

AU - Donovan, R.

AU - Hewitt, CN

PY - 2003/8

Y1 - 2003/8

N2 - Biogenic emissions of the volatile organic compounds isoprene and monoterpenes (BVOCs) can contribute to tropospheric ozone and secondary particle formation and have indirect effects on climate change. While there are few studies of BVOC emissions from European towns and cities, several studies in North America indicate that the urban tree canopy may be a significant source of BVOC compounds, contributing to ozone and particle formation in the urban air-shed. Here, BVOC emissions from the U.K. West Midlands (UKWM) metropolitan area were estimated and compared with anthropogenic VOC emission estimates, and with BVOC emission estimates for other urban and U.K. regions. Monoterpene and isoprene emission potential estimates for the UKWM urban land-use classes spanned as much as two orders of magnitude, from 17–104 g·km–2·h–1 and from 42–1570 g·km–2·h–1, respectively. Isoprene emission potential estimates for the UKWM urban land classes (42–530 g·km–2·h–1) were of the same order of magnitude as isoprene emission measurements for U.K. gorse heathland in early summer (43 g·km–2·h–1), and up to approximately one order of magnitude lower than those measured from U.K. Sitka spruce forests in summer (658–6760 g·km–2·h–1). In the UKWM, the land class average of ΣBVOC emission estimates (75–165 kg·km–2·yr–1) were approximately two orders of magnitude lower than anthropogenic VOC emission estimates for the same area (70 000 kg·km–2·yr–1). Biogenic isoprene emission estimates from at least two of the UKWM urban land-use classes were equivalent to, or greater than, estimates of anthropogenic isoprene emissions. The extrapolation methodologies are critically discussed in the context of their uncertainties, and in the context of their generic potential.

AB - Biogenic emissions of the volatile organic compounds isoprene and monoterpenes (BVOCs) can contribute to tropospheric ozone and secondary particle formation and have indirect effects on climate change. While there are few studies of BVOC emissions from European towns and cities, several studies in North America indicate that the urban tree canopy may be a significant source of BVOC compounds, contributing to ozone and particle formation in the urban air-shed. Here, BVOC emissions from the U.K. West Midlands (UKWM) metropolitan area were estimated and compared with anthropogenic VOC emission estimates, and with BVOC emission estimates for other urban and U.K. regions. Monoterpene and isoprene emission potential estimates for the UKWM urban land-use classes spanned as much as two orders of magnitude, from 17–104 g·km–2·h–1 and from 42–1570 g·km–2·h–1, respectively. Isoprene emission potential estimates for the UKWM urban land classes (42–530 g·km–2·h–1) were of the same order of magnitude as isoprene emission measurements for U.K. gorse heathland in early summer (43 g·km–2·h–1), and up to approximately one order of magnitude lower than those measured from U.K. Sitka spruce forests in summer (658–6760 g·km–2·h–1). In the UKWM, the land class average of ΣBVOC emission estimates (75–165 kg·km–2·yr–1) were approximately two orders of magnitude lower than anthropogenic VOC emission estimates for the same area (70 000 kg·km–2·yr–1). Biogenic isoprene emission estimates from at least two of the UKWM urban land-use classes were equivalent to, or greater than, estimates of anthropogenic isoprene emissions. The extrapolation methodologies are critically discussed in the context of their uncertainties, and in the context of their generic potential.

KW - air quality

KW - biogenic emissions of volatile organic compounds

KW - isoprene

KW - monoterpenes

KW - urban tree canopy

KW - West Midlands

KW - United Kingdom

U2 - 10.1890/01-5177

DO - 10.1890/01-5177

M3 - Journal article

VL - 13

SP - 927

EP - 938

JO - Ecological Applications

JF - Ecological Applications

SN - 1051-0761

IS - 4

ER -

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