2002
DOI: 10.1029/2001jd000380
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Contrasting convective regimes over the Amazon: Implications for cloud electrification

Abstract: Four distinct meteorological regimes in the Amazon basin have been examined to distinguish the contributions from boundary layer aerosol and convective available potential energy (CAPE) to continental cloud structure and electrification. The lack of distinction in the electrical parameters (peak flash rate, lightning yield per unit rainfall) between aerosol‐rich October and aerosol‐poor November in the premonsoon regime casts doubt on a primary role for the aerosol in enhancing cloud electrification. Evidence … Show more

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Cited by 436 publications
(394 citation statements)
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“…The transition from the dry to wet season is influenced by complex interactions between smoke-derived aerosols and deep convective clouds (Albrecht et al, 2011). Although the seasonal variability in the average convective available potential energy (CAPE) is small, the tail of the CAPE seasonal distribution (computed as the surface parcel) exhibits relatively higher values during the dry to wet season transition than during the wet season (Williams et al, 2002). During the dry season, the aerosols produced by biomass burning in central South America impact a larger area, reaching the tropical Pacific, subtropical South America, and the South Atlantic Freitas et al, 2005Freitas et al, , 2017Camponogara et al, 2014).…”
Section: The Amazon Forest Climatementioning
confidence: 99%
See 2 more Smart Citations
“…The transition from the dry to wet season is influenced by complex interactions between smoke-derived aerosols and deep convective clouds (Albrecht et al, 2011). Although the seasonal variability in the average convective available potential energy (CAPE) is small, the tail of the CAPE seasonal distribution (computed as the surface parcel) exhibits relatively higher values during the dry to wet season transition than during the wet season (Williams et al, 2002). During the dry season, the aerosols produced by biomass burning in central South America impact a larger area, reaching the tropical Pacific, subtropical South America, and the South Atlantic Freitas et al, 2005Freitas et al, , 2017Camponogara et al, 2014).…”
Section: The Amazon Forest Climatementioning
confidence: 99%
“…During the wet season, the atmosphere is mostly clean and convective, and the landscape is referred to as the Green Ocean (Roberts et al, 2001;Williams et al, 2002;Andreae et al, 2004) because the convection there resembles storms over blue oceans, where the warm phase in clouds generally produces rain. Large urban areas, however, introduce perturbations into the pristine air .…”
Section: The Amazon Forest Climatementioning
confidence: 99%
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“…During the transition from the dry to the wet season is influenced by complex interactions between smokederived aerosols and deep convective clouds occurs (Albrecht et al, 2011). Although the average Convective Available Potential Energy (CAPE) seasonal variability is small, the tail of the CAPE seasonal distribution exhibit relatively higher 15 values during dry to wet season transition than during the wet season (Williams et al, 2002). During the dry season, the aerosols produced by biomass burning in central South America impact a larger area, reaching the tropical Pacific, subtropical South America and South Atlantic (Andreae et al 2001;Freitas et al, 2005, Camponogara et al, 2014.…”
Section: -The Amazon Forest Climatementioning
confidence: 99%
“…During the wet season, 5 the atmosphere is mostly clean and convective, and the landscape is referred to as the Green Ocean (Roberts et al, 2001, Williams et al, 2002 and Andreae et al, 2004) because convection resembles storms over blue oceans, where the warm phase in clouds generally produces rain. Large urban areas, however, introduce perturbations into the pristine air (Martin et al , 2017).…”
mentioning
confidence: 99%