Date of Award
2025
Degree Type
Open Access Dissertation
Degree Name
Information Systems and Technology, PhD
Program
Center for Information Systems and Technology
Advisor/Supervisor/Committee Chair
Claudia Caceres
Dissertation or Thesis Committee Member
June Hilton
Dissertation or Thesis Committee Member
Chinazunwa Uwaoma
Terms of Use & License Information
Rights Information
© 2025 Soheil Bouzari
Keywords
Dust storms prediction, Geographic Information Systems, Maximum Entropy, Spatiotemporal data, Land cover and land use
Subject Categories
Geographic Information Sciences
Abstract
This dissertation looks at how well Maximum Entropy (MaxEnt) model can predict duststorms in Arizona, United States. MaxEnt is a machine learning tool that was first developed to predict where different species might live. MaxEnt uses presence-only data which makes it especially useful in environments where reliable absence data is hard to find or unavailable. This study analyzes if the combination of MaxEnt within Geographic Information Systems (ArgGIS Pro) and spatiotemporal data can provide data-driven and reliable predictions of dust storms susceptibility in Arizona. The framework that was used for this study is Design Science Research because of its problem-solving tendency and its emphasis on designing and evaluating artifacts that tackle real-world problems. Ecological Niche Theory (Hutchinsonian Niche Theory) was used as the theoretical basis for this research, as the concept of ‘niche’ as a set of environmental factors under which a species can exist can also apply to dust storms. The analysis utilizes historical dust storms instances from 1996 to 2023 and integrated land cover and land use (LCLU), effective specific humidity, specific humidity, wind speed, maximum wind speed, elevation, and temperature. These variables were selected as, based on the literature review, they represent drivers that directly influence dust storms creation. The resultsshow that temperature, elevation and wind speed are all positively linked with dust storms, while effective specific humidity has a negative relationship with dust storm occurrences. Furthermore, LCLU categories such as developed open space, developed low, medium, and high-intensity areas correspond to a higher susceptibility while shrubland and evergreen forest areas demonstrate a negative association. As part of external evaluation, an independent dust storms data sets from Sistan watershed in Iran was run by MaxEnt, in which MaxEnt achieved an AUC of 73%, to further underscore its utility in dust storm prediction.
ISBN
9798273312241
Recommended Citation
Bouzari, Soheil. (2025). Predictive Analysis of Arizona Dust Storms (1996–2023): GIS, Artificial Intelligence (MaxEnt), and Spatiotemporal Data. CGU Theses & Dissertations, 1041. https://scholarship.claremont.edu/cgu_etd/1041.
