Articles | Volume 22, issue 5
https://doi.org/10.5194/hess-22-2811-2018
https://doi.org/10.5194/hess-22-2811-2018
Research article
 | 
08 May 2018
Research article |  | 08 May 2018

Comparison of precipitation measurements by OTT Parsivel2 and Thies LPM optical disdrometers

Marta Angulo-Martínez, Santiago Beguería, Borja Latorre, and María Fernández-Raga

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Cited articles

Adirosi, E., Baldini, L., Roberto, N., Gatlin, P., and Tokay, A.: Improvement of vertical profiles of raindrop size distribution from micro rain radar using 2D video disdrometer measurements, Atmos. Res., 169, 404–415, 2016. 
Angulo-Martínez, M. and Barros, A. P.: Measurement uncertainty in rainfall kinetic energy and intensity relationships for soil erosion studies: An evaluation using Parsivel disdrometers in the Southern Appalachian Mountains, Geomorphology, 228, 28–40, 2015. 
Angulo-Martínez, M., Beguería, S., Navas, A., and Machín, J.: Splash erosion under natural rainfall on three soil types in NE Spain, Geomorphology, 175–176, 38–44, 2012. 
Angulo-Martínez, M., Beguería, S., and Kyselý, J.: Use of disdrometer data to evaluate the relationship of rainfall kinetic energy and intensity (KE-I), Sci. Total Environ., 568, 83–94, 2016. 
Atlas, D., Ulbrich, C. W., Marks, J., Amitai, E., and Williams, C. R.: Systematic variation of drop size and radar-rainfall relations, J. Geophys. Res.-Atmos., 104, 6155–6169, 1999. 
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Short summary
Two optical disdrometers, OTT Parsivel2 disdrometer and Thies Clima laser precipitation monitor (LPM), are compared. Analysis of 2 years of one-minute replicated data showed significant differences. Thies LPM recorded a larger number of particles than Parsivel2 and a higher proportion of small particles, resulting in higher rain rates and amounts and differences in radar reflectivity and kinetic energy. Possible causes for these differences, and their practical consequences, are discussed.