Journal articles, conferences, etc.
Green, J., Haigh, I., Quinn, N., Neal, J., Wahl, T., Wood, M., Eilander, D., de Ruiter, M., Ward, P., & Camus, P., (2025). A comprehensive review of compound flooding literature with a focus on coastal and estuarine regions. Natural Hazards and Earth System Sciences, 25(2), 747-816.
Collings, T.P., Quinn, N.D., Haigh, I.D., Green, J., Probyn, I., Wilkinson, H., Muis, S., Sweet, W.V. and Bates, P.D., (2024). Global application of a regional frequency analysis to extreme sea levels. Natural Hazards and Earth System Sciences, 24(7), 2403-2423.
Wu, Y., Haigh, I.D., Gao, C., Jenkins, L.J., Green, J., Jane, R., Xu, Y., Hu, H. and Wu, N., (2024). Compound Flooding Potential from the Joint Occurrence of Precipitation and Storm Surge in the Qiantang Estuary, China. Journal of Hydrometeorology, 25(5), 735-753.
Green, J., Haigh, I., Quinn, N., Neal, J., Wahl, T., Wood, M., Eilander, D., de Ruiter, M., Ward, P., & Camus, P. (2024). A Comprehensive Review of Coastal Compound Flooding Literature (No. EGU24-1669). Copernicus Meetings.
Savage, J., Uhe, P., Wing, O., Sampson, C., Smith, A., Lord, N., ... & Himsworth, S. (2023). A new framework for building global flood models for the present day and future climates (No. EGU23-15051). Copernicus Meetings.
Collings, T., Quinn, N., Haigh, I., Green, J., Probyn, I., & Wilkinson, H. (2023). Application of a global coastal regional frequency analysis (No. EGU23-8604). Copernicus Meetings.
Myrick, E. P., Green, J., Marturano, J. M., Pecsok, K. T., & Schultz, V. O. (2021, December). Expanding the Spatiotemporal Range of Soil Moisture Analysis Utilizing NASA Earth Observations and In Situ Measurements (No. NH45D-0619). AGU Fall Meeting 2021.
Green, J., Maturano, J., Myrick, E., Pecsok, K., & Schultz, V. (2021). Illinois Disasters: Utilizing NASA Earth Observations to Enhance Drought Monitoring in Illinois.
Saylor, P., Dudek, M., Green, J., & Lange, K. (2020). Alaska Transportation & Infrastructure Identifying Permafrost Subsidence Using NASA Earth Observations to Pinpoint Road and Infrastructure Vulnerability in Fairbanks, Alaska.