A Century of Drought in Hawaiʻi: Geospatial Analysis and Synthesis across Hydrological, Ecological, and Socioeconomic Scales

Authors

Abby G. Frazier, Clark UniversityFollow
Christian P. Giardina, USDA Forest Service Pacific Southwest Research Station
Thomas W. Giambelluca, University of Hawaiʻi at Mānoa
Laura Brewington, Arizona State University
Yi Leng Chen, University of Hawaiʻi at Mānoa
Pao Shin Chu, University of Hawaiʻi at Mānoa
Lucas Berio Fortini, United States Geological Survey
Danielle Hall, Clark University
David A. Helweg, United States Geological Survey
Victoria W. Keener, Arizona State University
Ryan J. Longman, East West Centre
Matthew P. Lucas, University of Hawaiʻi at Mānoa
Alan Mair, United States Geological Survey
Delwyn S. Oki, United States Geological Survey
Julian J. Reyes, United States Department of Agriculture
Stephanie G. Yelenik, USDA ARS Rocky Mountain Research Station
Clay Trauernicht, University of Hawaiʻi at Mānoa

Document Type

Article

Abstract

Drought is a prominent feature of Hawaiʻi’s climate. However, it has been over 30 years since the last comprehensive meteorological drought analysis, and recent drying trends have emphasized the need to better understand drought dynamics and multi-sector effects in Hawaiʻi. Here, we provide a comprehensive synthesis of past drought effects in Hawaiʻi that we integrate with geospatial analysis of drought characteristics using a newly developed 100-year (1920–2019) gridded Standardized Precipitation Index (SPI) dataset. The synthesis examines past droughts classified into five categories: Meteorological, agricultural, hydrological, ecological, and socioeconomic drought. Results show that drought duration and magnitude have increased significantly, consistent with trends found in other Pacific Islands. We found that most droughts were associated with El Niño events, and the two worst droughts of the past century were multi-year events occurring in 1998–2002 and 2007–2014. The former event was most severe on the islands of O’ahu and Kaua’i while the latter event was most severe on Hawaiʻi Island. Within islands, we found different spatial patterns depending on leeward versus windward contrasts. Droughts have resulted in over $80 million in agricultural relief since 1996 and have increased wildfire risk, especially during El Niño years. In addition to providing the historical context needed to better understand future drought projections and to develop effective policies and management strategies to protect natural, cultural, hydrological, and agricultural resources, this work provides a framework for conducting drought analyses in other tropical island systems, especially those with a complex topography and strong climatic gradients.

Publication Title

Sustainability (Switzerland)

Publication Date

10-1-2022

Volume

14

Issue

19

ISSN

2071-1050

DOI

https://doi.org/10.3390/su141912023

Keywords

agricultural drought, drought, El Niño-Southern Oscillation (ENSO), Pacific Islands, Standardized Precipitation Index (SPI), tropical ecosystems, wildfire

Repository Citation

Frazier, Abby G.; Giardina, Christian P.; Giambelluca, Thomas W.; Brewington, Laura; Chen, Yi Leng; Chu, Pao Shin; Berio Fortini, Lucas; Hall, Danielle; Helweg, David A.; Keener, Victoria W.; Longman, Ryan J.; Lucas, Matthew P.; Mair, Alan; Oki, Delwyn S.; Reyes, Julian J.; Yelenik, Stephanie G.; and Trauernicht, Clay, "A Century of Drought in Hawaiʻi: Geospatial Analysis and Synthesis across Hydrological, Ecological, and Socioeconomic Scales" (2022). Geography. 3.
https://commons.clarku.edu/faculty_geography/3

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.