A study of the long‐term variability of thunderstorm days in southeast Brazil

Pinto, O.; Pinto, I. R. C. A.; Ferro, Marco

doi:10.1002/jgrd.50282

Cited by 48 publications

(46 citation statements)

References 70 publications

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“…In addition, the percentage of positive-polarity flashes also generally decreases. Urbanization has also been implicated in driving temporal trends and variability in lightning observations over southeastern Brazil [121] and central and southeastern China [180,181].…”

Section: Impact Of Surface Air Pollution On Lightningmentioning

confidence: 99%

Lightning NO x and Impacts on Air Quality

2016

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Lightning generates relatively large but uncertain quantities of nitrogen oxides (NO x ), critical precursors for ozone and hydroxyl radical (OH), the primary tropospheric oxidants. Lightning NO x strongly influences background ozone and OH due to high ozone production efficiencies in the free troposphere, effecting small but non-negligible contributions to surface pollutant concentrations. Lightning globally contributes 3-4 ppbv of simulated annual-mean policy-relevant background (PRB) surface ozone, comprised of local, regional, and hemispheric components, and up to 18 ppbv during individual events. Feedbacks via methane may counter some of these effects on decadal time scales. Lightning contributes ∼1 % to annual-mean surface particulate matter, as a direct precursor and by promoting faster oxidation of other precursors. Lightning also ignites wildfires and contributes to nitrogen deposition. Urban pollution influences lightning itself, with implications for regional lightning-NO x production and feedbacks on downwind surface pollution. How lightning emissions will change in a warming world remains uncertain.

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Section: Impact Of Surface Air Pollution On Lightningmentioning

confidence: 99%

Lightning NO x and Impacts on Air Quality

2016

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“…Warm and cold air advections that differentiate air density may also in random cases affect propagation of sound (Changnon, 1993). These and other factors such as site-specific topography, fast growing cities that overbuild old stations and station relocations in turn may influence obtained annual average number of days with the thunderstorms over the particular stations and make climatological spatial comparisons between them less reliable (Westcott, 1995;Changnon, 2001a;Rivas Soriano and de Pablo, 2002;Pinto et al, 2013;Enno, 2014b).…”

Section: Accepted Manuscriptmentioning

confidence: 95%

Relationship between human observations of thunderstorms and the PERUN lightning detection network in Poland

Czernecki

Taszarek

Kolendowicz

et al. 2016

Atmospheric Research

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“…Since the UHI effect has becoming more prominent along the last decades with the growth of the urban area of Manaus, we have also investigated the time variation of the lightning activity during this period using thunderstorm day data [29]. Thunderstorm day data is the unique information available in Manaus for a long time period.…”

Section: Observations In the Amazon Regionmentioning

confidence: 99%

Lightning Enhancement in the Amazon Region Due to Urban Activity

Pinto¹,

Pinto²,

Neto³

2013

AJCC

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Urbanization has an increasing contribution to anthropogenic climate forcing. The impact arises mainly from the Urban Heat Island (UHI) effect and aerosol anthropogenic emissions. An important but not completely understood consequence of this forcing is its effect on local lightning activity. Changes in lightning activity may result in a feedback on the climate system. In this article, it investigates changes in the lightning activity in the city of Manaus, located in the Amazon region of Brazil. It is found that, over the city, the lightning activity is larger than that in the regions around it and it has been increasing in the last four decades simultaneously with the increasing of its urban area. Our results suggest that such changes are caused by the UHI effect. The observations reported here are unique and relevant because Manaus is located in the central part of the Amazon rainforest and inside one of the three global lightning chimneys in the world.

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A study of the long‐term variability of thunderstorm days in southeast Brazil

Cited by 48 publications

References 70 publications

Lightning NO x and Impacts on Air Quality

Lightning NO x and Impacts on Air Quality

Relationship between human observations of thunderstorms and the PERUN lightning detection network in Poland

Lightning Enhancement in the Amazon Region Due to Urban Activity

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