A study of enhanced fair‐weather electric fields occurring soon after sunrise

Marshall, T. C.; Rust, W. David; Stolzenburg, Maribeth; Roeder, William P.; Krehbiel, P. R.

doi:10.1029/1999jd900418

Cited by 55 publications

(31 citation statements)

References 18 publications

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“…Franke (1949) mathematically proved that the diurnal variation of the E would generally be a curve with double oscillations following vertical atmospheric mass exchange over land. Muhleisen (1956) has experimentally dealt with the effect of presence of water in different forms and condensation nuclei on atmospheric potential to a great extent. The 'Sunrise Effect' observations of E by Law (1963) showed that space charge and E appears to be more closely related to each other than to any other variable.…”

Section: Introductionmentioning

confidence: 99%

“…The 'Sunrise Effect' observations of E by Law (1963) showed that space charge and E appears to be more closely related to each other than to any other variable. Marshall et al (1999) studied the 'Enhanced Sunrise Effect' to show that it does not contain to the layers close to ground and nearness to water bodies significantly elevates the values reached. Of recent a school of thought (Delgado et al, 2003) is evolving that it is not the E that is controlled by pollution dependent conductivity but the pollutants rearrange themselves as per the prevalent E depending on their dipole moment.…”

Section: Introductionmentioning

confidence: 99%

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Diurnal variation of surface electric field at a tropical station in different seasons: a study of plausible influences

Latha

2014

Earth Planet Sp

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Based on the fair weather days of 1993 surface electric field at Pune (18 32 N, 73 51 E, 550 m ASL) is studied for its diurnal and seasonal variations. The analysis attempts to look into factors like atmospheric pollution and space charge formation in presence of the meteorological factors prevalent in the three seasons that modify the global effects that govern fair weather electric field at the site of measurement. Summer (FMAM), monsoon (JJAS) and winter (ONDJ) are the seasons considered. By and large diurnal variation is with double oscillation. The results show high persistent value of electric field during monsoon. Evening peak is the highest during winter with high atmospheric stability conditions and summer afternoons have the lowest value. Space charge formation depending on the wetness or dryness of the ground is proposed in connection with the high and low values of electric field close to ground. It appears that space charge is equally or more important in contributing to electric field variations as conductivity as for local effects. The generation of positive space charge occurrence in connection with evaporation and negative space charge occurrence with very dry ground bypassing the local component to global one due to large area coverage elsewhere as well, under similar weather conditions are suggested. Possibility of monsoon field showing a glimpse of global activities being a cleaner tropical environment during this period is also discussed. Observational verification of space charge formation and the role it could be playing, on abundantly available, by the then active physical processes plays on thunderstorm electrification based on convective theory is mooted.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Diurnal variation of surface electric field at a tropical station in different seasons: a study of plausible influences

Latha

2014

Earth Planet Sp

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“…The sunrise effect was extensively described by Marshall et al (1999), who focused particularly on PG response to positive space charge transpositions. Other authors (Law 1963;Chalmers 1967;Kamra 1982) also mentioned the sunrise effect, among which Kamra (1982) and Law (1963) observed a sign reversal of space charge from negative to positive at the moment of sunrise, coinciding with PG increase.…”

Section: Diurnal and Seasonal Pg Variationmentioning

confidence: 99%

“…Other authors (Law 1963;Chalmers 1967;Kamra 1982) also mentioned the sunrise effect, among which Kamra (1982) and Law (1963) observed a sign reversal of space charge from negative to positive at the moment of sunrise, coinciding with PG increase. According to Marshall et al (1999), the start of the morning convection caused by solar heating leads to the destruction of a shallow positively charged layer (electrode layer) that was built up during the night and overlies the very first decimeters of the ground (Crozier 1963). The dilution of the electrode layer just after sunrise owing to increasing turbulence transports gradually more and more positive charges over the EFM enhancing eventually PG (Marshall et al 1999).…”

Section: Diurnal and Seasonal Pg Variationmentioning

confidence: 99%

“…According to Marshall et al (1999), the start of the morning convection caused by solar heating leads to the destruction of a shallow positively charged layer (electrode layer) that was built up during the night and overlies the very first decimeters of the ground (Crozier 1963). The dilution of the electrode layer just after sunrise owing to increasing turbulence transports gradually more and more positive charges over the EFM enhancing eventually PG (Marshall et al 1999). The mechanism weakens as time passes and the boundary layer becomes well mixed (Moore et al 1962).…”

Section: Diurnal and Seasonal Pg Variationmentioning

confidence: 99%

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Characteristics of the atmospheric electric field and correlation with CO2 at a rural site in southern Balkans

Kastelis

Kourtidis

2016

Earth Planet Sp

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In the current work, 4 years of atmospheric electric field observations at a rural site near Xanthi, Greece, are presented for 2011-2014. The site is situated in an area with very high radon fluxes and high thunderstorm activity. The annual variation is consistent with that at other Northern Hemisphere continental stations, with maxima (minima) occurring during the cold (warm) months. The diurnal variation of the atmospheric electric field both for fair weather (FW) and all weather is found to exhibit a double-peak structure corresponding to local effects and global thunderstorm activity. Comparison with the Carnegie curve shows that nighttime hours and winter months are preferable for observing the Global Electric Circuit at the Xanthi site. Finally, it is shown that atmospheric CO 2 measurements can be effectively utilized as a stratification proxy, indicating conditions of potential radon trapping, whereas CO 2 was found to anticorrelate with the atmospheric electric field during such conditions.

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Statistical analysis of spatial and temporal variations in atmospheric electric fields from a regional array of field mills

2017

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Electric fields and currents of the global electric circuit have been measured at different locations and time periods around the globe, but a long‐term analysis from a regional array of electric field mills has never been performed. Kennedy Space Center (KSC) in Florida has an array of over 30 electric field mills that have been continuously operating and archiving data for over 18 years. KSC is also instrumented with many meteorological towers. With this initial statistical analysis of a long‐term data set four unique observations are reported that encompass global as well as local effects. To quantitatively describe the effects, a model to determine near‐surface electric fields, incorporating space charge, and conductivity perturbations is developed. Statistical autonomous grouping of the mills using the spatial array demonstrates a greater than 50 V/m spatial variation from coastal to inland mills caused by wind‐advected space charge generated near the coast. A temporal analysis identified a strong, globally generated, diurnal signature, but only a weak annual signal is found. A realistic limit on conductivity reductions within clouds is estimated by analyzing overhead cloud cover in relation to near‐surface electric field strengths. The estimated in‐cloud conductivity reduction of approximately 1/3 is similar to observations but appreciably less than values estimated from microphysical cloud estimates. Finally, an enhancement in the electric field at sunrise is statistically well correlated with low wind speeds and high relative humidities. This paper provides a statistical description of local environmental effects on near‐surface electric fields by which to base future studies.

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A study of enhanced fair‐weather electric fields occurring soon after sunrise

Cited by 55 publications

References 18 publications

Diurnal variation of surface electric field at a tropical station in different seasons: a study of plausible influences

Diurnal variation of surface electric field at a tropical station in different seasons: a study of plausible influences

Characteristics of the atmospheric electric field and correlation with CO2 at a rural site in southern Balkans

Statistical analysis of spatial and temporal variations in atmospheric electric fields from a regional array of field mills

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