The effect of uncertainties in kinetic and photochemical data on model predictions of stratospheric ozone depletion

D J Fish; M R Burton

doi:Doi 10.1029/97jd01971

The effect of uncertainties in kinetic and photochemical data on model predictions of stratospheric ozone depletion

D J Fish
, M R Burton

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

Abstract

During the past few years, three-dimensional chemical transport models have matured to a point at which their results are often in good agreement with observations, lending confidence to model estimates of ozone loss. In this paper a Lagrangian photochemical model is used to assess the error in model predictions that results from errors in the kinetic and photochemical data used by the model. The results indicate that Arctic ozone destruction can be modeled with an uncertainty of +/- 25% (1 sigma) and that midlatitude ozone destruction can be modeled with an uncertainty of +/- 50%. It is also shown that two reactions, from a total of more than 100, are responsible for more than a third of the uncertainty in model calculations of Arctic ozone loss.

Original language	English
Pages (from-to)	25537-25542
Number of pages	6
Journal	Journal of Geophysical Research-Atmospheres
Volume	102
Issue number	D21
DOIs	https://doi.org/Doi 10.1029/97jd01971
Publication status	Published - 1997

Keywords

radiation-field
troposphere
sensitivity
propagation
absorption

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Cite this

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title = "The effect of uncertainties in kinetic and photochemical data on model predictions of stratospheric ozone depletion",

abstract = "During the past few years, three-dimensional chemical transport models have matured to a point at which their results are often in good agreement with observations, lending confidence to model estimates of ozone loss. In this paper a Lagrangian photochemical model is used to assess the error in model predictions that results from errors in the kinetic and photochemical data used by the model. The results indicate that Arctic ozone destruction can be modeled with an uncertainty of +/- 25\% (1 sigma) and that midlatitude ozone destruction can be modeled with an uncertainty of +/- 50\%. It is also shown that two reactions, from a total of more than 100, are responsible for more than a third of the uncertainty in model calculations of Arctic ozone loss.",

keywords = "radiation-field, troposphere, sensitivity, propagation, absorption",

author = "Fish, \{D J\} and Burton, \{M R\}",

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year = "1997",

doi = "Doi 10.1029/97jd01971",

language = "English",

volume = "102",

pages = "25537--25542",

journal = "Journal of Geophysical Research-Atmospheres",

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T1 - The effect of uncertainties in kinetic and photochemical data on model predictions of stratospheric ozone depletion

AU - Fish, D J

AU - Burton, M R

N1 - Yh548 Times Cited:14 Cited References Count:18

PY - 1997

Y1 - 1997

N2 - During the past few years, three-dimensional chemical transport models have matured to a point at which their results are often in good agreement with observations, lending confidence to model estimates of ozone loss. In this paper a Lagrangian photochemical model is used to assess the error in model predictions that results from errors in the kinetic and photochemical data used by the model. The results indicate that Arctic ozone destruction can be modeled with an uncertainty of +/- 25% (1 sigma) and that midlatitude ozone destruction can be modeled with an uncertainty of +/- 50%. It is also shown that two reactions, from a total of more than 100, are responsible for more than a third of the uncertainty in model calculations of Arctic ozone loss.

AB - During the past few years, three-dimensional chemical transport models have matured to a point at which their results are often in good agreement with observations, lending confidence to model estimates of ozone loss. In this paper a Lagrangian photochemical model is used to assess the error in model predictions that results from errors in the kinetic and photochemical data used by the model. The results indicate that Arctic ozone destruction can be modeled with an uncertainty of +/- 25% (1 sigma) and that midlatitude ozone destruction can be modeled with an uncertainty of +/- 50%. It is also shown that two reactions, from a total of more than 100, are responsible for more than a third of the uncertainty in model calculations of Arctic ozone loss.

KW - radiation-field

KW - troposphere

KW - sensitivity

KW - propagation

KW - absorption

U2 - Doi 10.1029/97jd01971

DO - Doi 10.1029/97jd01971

M3 - Article

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SN - 2169-9011

SN - 2169-9100

SN - 2169-9402

SN - 2169-9291

VL - 102

SP - 25537

EP - 25542

JO - Journal of Geophysical Research-Atmospheres

JF - Journal of Geophysical Research-Atmospheres

IS - D21

ER -

The effect of uncertainties in kinetic and photochemical data on model predictions of stratospheric ozone depletion

Abstract

Keywords

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