Energetic Intracloud Lightning in the RELAMPAGO Field Campaign.

A particular strength of lightning remote sensing is the variety of lightning types observed, each with a unique occurrence context and characteristically different emission. Distinct energetic intracloud (EIC) lightning discharges-compact intracloud lightning discharges (CIDs) and energetic intracloud pulses (EIPs)-produce intense RF radiation, suggesting large currents inside the cloud, and they also have different production mechanisms and occurrence contexts. A Low-Frequency (LF) lightning remote sensing instrument array was deployed during the RELAMPAGO field campaign in west central Argentina, designed to investigate convective storms that produce high-impact weather. LF data from the campaign can provide a valuable data set for researching the lightning context of EICs in a variety of subtropical convective storms. This paper describes the production of an LF-CID data set in RELAMPAGO and includes a preliminary analysis of CID prevalence. Geolocated lightning events and their corresponding observed waveforms from the RELAMPAGO LF data set are used in the classification of EICs. Height estimates based on skywave reflections are computed, where prefit residual data editing is used to improve robustness against outliers. Even if EIPs occurred within the network, given the low number of very high-peak current events and receiver saturation, automatic classification of EIPs may not be feasible using this data. The classification of CIDs, on the other hand, is straightforward and their properties, for both positive and negative polarity, are investigated. A few RELAMPAGO case studies are also presented, where high variability of CID prevalence in ordinary storms and high-altitude positive CIDs, possibly in overshooting tops, are observed.

Lightning Geolocation and Flash Rates From LF Radio Observations During the RELAMPAGO Field Campaign.

The lightning data products generated by the low-frequency (LF) radio lightning locating system (LLS) deployed during the Remote sensing of Electrification, Lightning, and Mesoscale/Microscale Processes with Adaptive Ground Observation (RELAMPAGO) field campaign in Argentina provide a valuable data set to research the lightning evolution and characteristics of convective storms that produce high-impact weather. LF LLS data sets offer a practical range for mesoscale studies, allowing for the observation of lightning characteristics of storms such as mesoscale convective systems or large convective lines that travel longer distances which are not necessarily staying in range of regional VHF-based lightning detection systems throughout their lifetime. LF LLSs also provide different information than optical space-borne lightning detectors. Lightning measurements exclusive to LF systems include discharge peak current, lightning polarity, and lightning type classification based on the lightning-emitted radio waveform. Furthermore, these measurements can provide additional information on flash rates (e.g., positive cloud-to-ground flash rate) or narrow bipolar events which may often be associated with dynamically intense convection. In this article, the geolocation and data processing of the LF data set collected during RELAMPAGO is fully described and its performance characterized, with location accuracy better than 10 km. The detection efficiency (DE) of the data set is compared to that of the Geostationary Lightning Mapper, and spatiotemporal DE losses in the LF data set are discussed. Storm case studies on November 10, 2018, highlight the strengths of the data set, which include robust flash clustering and insightful flash rate and peak current measures, while illustrating how its limitations, including DE losses, can be managed.

An Array of Low-Cost, High-Speed, Autonomous Electric Field Mills for Thunderstorm Research.

The atmospheric electric field is an important research parameter in understanding storm electrification and energy exchange between lightning and the atmosphere across the globe. The near-surface electric field can range from a few V/m (order of 10-100 V/m), mainly produced by the currents in the global electric circuit and local charge perturbations, to tens of kV/m in the presence of electrified clouds. The electric field mill (EFM), a variable capacitance electrometer, has been the instrument of choice in the atmospheric electricity community studying phenomena associated with the atmospheric electric field. The EFM is particularly useful in following storm movement and evolution, monitoring the fair-weather electric field at distant locations, and measuring the vertical electric field inside clouds with EFM deployments on balloons. In this paper, we describe a new electric field mill ground-based design, which focuses on lowering the manufacturing and operational costs of doing research with an array of EFM instruments while maintaining the scientific capabilities offered by past designs and commercially available devices. The theory of operation, data processing, and calibration of the instrument are also described. Example data from the first generation of these new field mills, deployed in the RELAMPAGO campaign in Argentina, are presented here. The RELAMPAGO deployment and data set illustrate important strengths of this design, for example, cost, autonomy, longevity, and measurement quality.

Muerte materna incidental en un accidente por relámpago: Reporte de caso / Incidental maternal death due to lightning injury: a case report

Resumen Los relámpagos se presentan con una frecuencia mayor a 50 veces por segundo a nivel mundial; sin embargo, las descargas directas suceden rara vez y son responsables del 5% de los eventos fatales. El mecanismo de lesión inicial es la parálisis de los centros vitales, lo que ocasiona apnea, fibrilación auricular o paro cardíaco. En mujeres embarazadas, el accidente por rayo puede producir complicaciones graves, dependiendo del punto de entrada en el cuerpo y su efecto indirecto sobre el feto, produciendo trastornos de la conducción en el sistema cardíaco y daño a nivel del sistema nervioso central. En la literatura mundial, solo catorce casos de embarazo y traumatismo por relámpago han sido reportados, sobreviviendo en todos la madre, con un único reporte de muerte fetal. Se presenta un caso de accidente por relámpago en una mujer embarazada en la semana 23 de gestación, cuyo tipo de lesión fue por contacto directo en el abdomen, y quien ingresó con compromiso neurológico, taquicardia materna y bradicardia fetal. El deceso materno ocurrió por infarto agudo extenso del miocardio y la formación de un émbolo intracavitario en el ventrículo izquierdo, con la consecuente muerte del binomio. Se describe su frecuencia, el mecanismo de lesión, las manifestaciones clínicas y el manejo actual. MÉD.UIS.2019;32(1):21-6

Abstract Lightning occurs with a frequency rate of more than 50 times per second worldwide. Nevertheless, direct lightning strikes are not common, and they are responsible for about 5% of all lightning injury fatalities. The initial mechanism of injury is the paralysis of the vital centers, which causes apnea, atrial fibrillation and cardiac arrest. In pregnant women, lightning can produce severe complications which depend on the point of entrance and its indirect effect on the fetus, affecting the cardiac conduction system and the central nervous system. We report a case of a lightning accident by direct strike on a 23-week pregnant woman, who's type of injury was by direct contact on the abdomen. She arrives to the emergency room with neurologic symptoms, maternal tachycardia and fetal bradycardia. The mother died due to myocardial infarction and the presence of an intracavitary embolus in the left ventricle, with the consequent maternal-fetal death. The incidence and injury mechanisms, as well as the clinical features and clinical management are described. MÉD.UIS.2019;32(1):21-6.

Lesiones por fulguración aspectos clínicos y médicos legales. Presentación de dos casos simultáneos no mortales / Fulguration injuries: clinical and legal aspects. Presentation of two simultaneous non-fatal cases

Resumen Un relámpago o rayo es definido como una gran descarga de corriente eléctrica atmosférica, momentánea y transitoria cuya longitud de trayectoria se mide en kilómetros. Por otro lado, se denomina fulguración a los efectos biológicos gue se producen por acción de la electricidad atmosférica. Se presentan dos casos de mujeres gue sufrieron simultáneamente los efectos de un rayo y sobrevivieron, y en quienes se apreciaron las figuras de Lichtenberg, gue son patognomónicas en la fulguración. Así mismo, se hace hincapié en las demás lesiones externas por fulguración, las cuales ayudan a la evaluación médico-legal.

Abstract Lightning is defined as an electrical discharge in the atmosphere that is momentary and transitory which length is measured in kilometers. On the other hand, fulguration is related the biological effects produced by the atmospheric electricity. In this report, two simultaneous cases of lightning strikes are presented. The individuals survived and the pathognomonic Lichtenberg's figures were presented. Special emphasis is placed in the external lesions by the struck of lightning in order to help the legal-medical evaluation.