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Remote Sensing Letters Volume 9, 2018 - Issue 5
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Original Articles

Anomalous changes in meteorological parameters along the track of 2017 Hurricane Harvey

Sudipta SarkarNASA Goddard Space Flight Centre, Greenbelt, MD, USA;Terrestrial Informations Systems Lab, Code 619, Science Systems and Applications Inc, Lanham, MD, USACorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-0551-6543
ORCID Icon,
Ramesh P. SinghSchool of Life and Environmental Sciences, Schmid College of Science and Technology, Chapman University, Orange, CA, USA
&
Akshansha ChauhanSchool of Engineering and Technology, Sharda University, Knowledge Park III, Greater Noida, India - 201306
Pages 487-496 | Received 18 Oct 2017, Accepted 10 Feb 2018, Published online: 19 Feb 2018
 
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ABSTRACT

Harvey was one of the worst hurricanes that hit the Gulf coast in recent history, causing severe loss of lives and property through excessive precipitation and flooding. In the present study we have carried out analysis of satellite data and high-resolution models to understand the physical processes that led to the development and intensification of hurricane Harvey as it made landfall and progressed inwards. We have studied horizontal and vertical changes in meteorological parameters, along the track of the hurricane Harvey to understand the intensification and spatial distribution of high precipitation. Maximum intensity of the storm was observed on 26 August; however the most intense precipitation occurred on 27 August that was caused by the slowing down of Harvey. Our detailed analysis shows contrasting storm intensity between the two sides of the storm, one along the direction of storm motion and the other along the trailing side, which has been shown to be the primary driver for the distribution of precipitation and its variation in intensity.

Key Points

  • Intense warming of SST in Gulf of Mexico beginning from 17 August and peaking on 21 August detected.

  • Passage of eye of Harvey detected and slow down of Harvey responsible for excessive precipitation

  • Spatial distribution of precipitation dictated by positioning of the eye wall along the direction of storm propagation; wind speed and vertical wind shear.

  • Total precipitation in excess of 152 cm (60 inches) over certain areas detected.

Acknowledgments

The authors are thankful to the two anonymous Reviewers for their valuable comments and suggestions that helped us enhance this work. We are also thankful to NOAA and NCDC for granting the free use of their datasets that have been used for this study. The first author acknowledges the support of Sadashiva Devadiga and Keith Duffy from Science Systems and Applications Inc., for their support and encouragement.

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