Niloufar Nouri scite author profile

The annual frequency of tornadoes during 1950–2018 across the major tornado-impacted states were examined and modeled using anthropogenic and large-scale climate covariates in a hierarchical Bayesian inference framework. Anthropogenic factors include increases in population density and better detection systems since the mid-1990s. Large-scale climate variables include El Niño Southern Oscillation (ENSO), Southern Oscillation Index (SOI), North Atlantic Oscillation (NAO), Pacific Decadal Oscillation (PDO), Arctic Oscillation (AO), and Atlantic Multi-decadal Oscillation (AMO). The model provides a robust way of estimating the response coefficients by considering pooling of information across groups of states that belong to Tornado Alley, Dixie Alley, and Other States, thereby reducing their uncertainty. The influence of the anthropogenic factors and the large-scale climate variables are modeled in a nested framework to unravel secular trend from cyclical variability. Population density explains the long-term trend in Dixie Alley. The step-increase induced due to the installation of the Doppler Radar systems explains the long-term trend in Tornado Alley. NAO and the interplay between NAO and ENSO explained the interannual to multi-decadal variability in Tornado Alley. PDO and AMO are also contributing to this multi-time scale variability. SOI and AO explain the cyclical variability in Dixie Alley. This improved understanding of the variability and trends in tornadoes should be of immense value to public planners, businesses, and insurance-based risk management agencies.

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Performance of membrane bioreactor in presence of flocculants

Nouri

Mehrnia

Sarrafzadeh

et al. 2014

Desalination and Water Treatment

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Examining the changes in the spatial manifestation and the rate of arrival of large tornado outbreaks

Nouri¹,

Devineni²

2022

Environ. Res. Commun.

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This study presents an assessment of the spatial and temporal characteristics of large tornado outbreak (LTOs) days, in which several counties were impacted by tornadoes rated F2(EF2) or greater on the Fujita (Enhanced Fujita) scale in one day. A statistical evaluation of changes in the LTO clusters for two periods, 1950-1980 and 1989-2019, has been performed. There is a geographical shift of the nucleus (central impact location) towards the southeast United States. This spatial shift is also accompanied by reduced spatial variance, suggesting LTOs have become less dispersed (or more localized) in the recent period. The overall inter-arrival rate of LTOs, and how it changed during successive 31-year climatological blocks between 1950-2019 was investigated using an exponential probability model. The arrival rate has changed from 124 days during 1950-1980 to 164 days during 1977-2007 and remained relatively constant during later periods, indicating that LTOs are becoming less frequent.

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Niloufar Nouri

Explaining the trends and variability in the United States tornado records using climate teleconnections and shifts in observational practices

Performance of membrane bioreactor in presence of flocculants

Examining the changes in the spatial manifestation and the rate of arrival of large tornado outbreaks

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