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Applications of Artificial Intelligence on Drought Impact Monitoring and Assessment
Abstract
Drought, a prevalent and consequential natural disaster, poses widespread, indirect challenges across environmental and societal dimensions. Despite considerable focus on monitoring meteorological and hydrological drought and studying their characteristics, there is a gap in assessing its multifaceted impacts, especially on societal sectors.The dissertation comprises three research essays utilizing artificial intelligence to quantitatively study multi-dimensional drought impacts. The first essay leveraged deep learning and natural language processing to predict multi-dimensional drought impacts from textual datasets, including social media, news media, and citizen scientist reports. The findings demonstrate superior performance over traditional methods and unveil the spatial and temporal heterogeneity of drought impacts. Case studies in California and Nebraska advocate integrating social media, news media, and volunteer reports as innovative metrics for socio-economic drought assessment. The second essay developed an explainable machine learning pipeline to analyze the relationship between traditional drought indicators and multi-dimensional drought impacts. A case study on a California wildfire underscores the framework’s potential to reveal the intricate connections between drought indicators and actual impacts. For example, the exacerbated effects of long-term dryness on wildfire intensity, compared to short-term drought conditions, were interpreted from the fine-tuned models. The third essay is focused on investigating the relationship between drought and social unrest, a specific but extreme representation of drought impact. This study combines multiple datasets from remote sensing, climate observation, and census surveys. Spatial and temporal analysis is applied to investigate evidence attributing increased protest frequency to drought conditions. This study also employs a causal machine learning model to quantitatively examine the potential relationships between drought and protests at the sub-state level in India.The research presented in this dissertation emphasizes the significant benefits and critical need for applying cutting-edge artificial intelligence techniques to understand and address the complex and multifaceted impacts of drought, contributing valuable insights for more effective climate adaptation and water resource management strategies.
Subject Area
Climate Change|Environmental science|Water Resources Management|Artificial intelligence
Recommended Citation
Zhang, Beichen, "Applications of Artificial Intelligence on Drought Impact Monitoring and Assessment" (2024). ETD collection for University of Nebraska-Lincoln. AAI31301976.
https://digitalcommons.unl.edu/dissertations/AAI31301976