P
Pinhas Alpert
Researcher at Tel Aviv University
Publications - 313
Citations - 12692
Pinhas Alpert is an academic researcher from Tel Aviv University. The author has contributed to research in topics: Precipitation & Mineral dust. The author has an hindex of 57, co-authored 304 publications receiving 11410 citations. Previous affiliations of Pinhas Alpert include Harvard University & Hebrew University of Jerusalem.
Papers
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The Potential of Microwave Communication Networks to Detect Dew—Experimental Study
TL;DR: It is shown that moist antenna episodes can be detected, information which provides the potential to identify dew, an important hydro-ecological parameter.
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An observational study of the summer Mediterranean Sea breeze front penetration into the complex topography of the Jordan Rift Valley
TL;DR: The Mediterranean summer sea breeze front (SBF) climatic features of penetration into the complex topography of the Jordan Rift Valley (JRV) were investigated in this article, where it was shown that the SBF penetration in the JRV occurs in a well-defined chronological order from north to south.
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Increase in Weather Patterns Generating Extreme Desiccation Events: Implications for Mediterranean Rocky Shore Ecosystems
TL;DR: In this article, an extremely stressful, transient phenomenon on southeastern Mediterranean (Israel) rocky shores: prolonged desiccation events (PDE) was characterized and its potential ecological impacts on the unique intertidal Mediterranean Sea ecosystem.
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An example of aerosol pattern variability over bright surface using high resolution MODIS MAIAC: The eastern and western areas of the Dead Sea and environs.
Lee Sever,Pinhas Alpert,Alexei Lyapustin,Yujie Wang,Alexandra Chudnovsky,Alexandra Chudnovsky +5 more
TL;DR: In this article, the authors analyzed the aerosol properties over the western and eastern parts of the Dead Sea during the year 2013, using MAIAC (Multi-Angle Implementation of Atmospheric Correction) for MODIS, which retrieves aerosol optical depth (AOD) data at a resolution of 1.km.
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The Relative Roles of Lateral Boundaries, Initial Conditions, and Topography in Mesoscale Simulations of Lee Cyclogenesis
TL;DR: In this paper, the contributions of boundary factors, which may be considered to be independent of the physics or the dynamics of the mesoscale model, are explored in a consistent approach for a widely investigated Alpine Experiment (AL-PEX) lee cyclogenesis case.