2013
DOI: 10.1071/en13017
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A perspective on time: loss frequencies, time scales and lifetimes

Abstract: Environmental context. The need to describe the Earth's system or any of its components with a quantity that has units of time is ubiquitous. These quantities are used as metrics of the system to describe the response to a perturbation, the cumulative effect of an action or just the budget in terms of sources and sinks. Given a complex, non-linear system, there are many different ways to derive such quantities, and careful definitions are needed to avoid mistaken approximations while providing useful parameter… Show more

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Cited by 4 publications
(2 citation statements)
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“…Our estimate of the lifetime sensitivity of N 2 O to its burden is s = À0.065 ± 0.010, where the ±0.010 is a 1 sigma uncertainty as it includes almost the entire range of models except for G2d. Thus, the feedback factor is ff = 0.94 ± 0.01, and the effective residence time of an N 2 O perturbation is 109 ± 10 years [e.g., Prather, 2007;Prather and Holmes, 2013]. Unfortunately, there is no semiempirical method to derive this sensitivity using MLS observations, but given the limited range for this value since first reported in 1998, we feel that ±15% 1 sigma uncertainty is a conservative choice.…”
Section: N 2 O Lifetimes and Chemical Feedbackmentioning
confidence: 99%
“…Our estimate of the lifetime sensitivity of N 2 O to its burden is s = À0.065 ± 0.010, where the ±0.010 is a 1 sigma uncertainty as it includes almost the entire range of models except for G2d. Thus, the feedback factor is ff = 0.94 ± 0.01, and the effective residence time of an N 2 O perturbation is 109 ± 10 years [e.g., Prather, 2007;Prather and Holmes, 2013]. Unfortunately, there is no semiempirical method to derive this sensitivity using MLS observations, but given the limited range for this value since first reported in 1998, we feel that ±15% 1 sigma uncertainty is a conservative choice.…”
Section: N 2 O Lifetimes and Chemical Feedbackmentioning
confidence: 99%
“…One reason for separating P and L in this 215 way is to think of P as independent of O3 and L as being linearly proportional. Unfortunately, while the P reactions (2) have no obvious O3 terms, both these reactions and the OH and HO2 abundances in reactions (3) depend indirectly on O3; and thus with a true linearization of P-L, the lifetime of O3 is much shorter than inferred from L (Prather and Holmes, 2013). A similar chemical feedback with opposite sign occurs for CH4 whereby the lifetime of a CH4 addition is 220 longer than inferred from the linear relationship of reaction (1) (Prather, 1996).…”
Section: O3 + Oh  O2 + Ho2mentioning
confidence: 99%