Grogan, Danielle

Grogan, Danielle
RESEARCH SCIENTIST II, Earth Systems Research Center

Member, Institute of Earth, Oceans and Space (EOS) , University of New Hampshire
Member, Earth Systems Research Center (UZESRC) , Institute of Earth, Oceans and Space (EOS)

Research Areas

Agriculture
Climate Change
Climate Change - Impacts
Human Dimensions of Climate Change
Hydrology
Sustainability
Sustainable Agriculture

Overview

Dr. Danielle Grogan is a member of the Water Systems Analysis Group lab within ESRC, which studies the role of water in human and natural Earth systems. Dr. Grogan’s work includes examining how different sources of water – glaciers, snow, rain, and groundwater – contribute to food production, electricity generation, and ecosystems, with a theme of evaluating water’s role in achieving the United Nations’ Sustainable Development Goals. Her work also aims to understand how climate change will alter water sources and water demands, and uses a combination of models and sensor data analysis.

The Water Systems Analysis Group develops and maintains the global hydrologic model WBM, which can be found at https://github.com/wsag/WBM.

Selected Publications

Academic Article

Year	Title
2024	Harmonized Database of Western U.S. Water Rights (HarDWR) v.1.. Scientific data. 11:598. 2024
2023	Local, regional, and global adaptations to a compound pandemic-weather stress event. Environmental Research Letters. 18:035005-035005. 2023
2022	WBM: A scalable gridded global hydrologic model with water tracking functionality 2022
2022	Global gridded crop harvested area, production, yield, and monthly physical area data circa 2015.. Scientific data. 9:15. 2022
2021	Coordination and control - limits in standard representations of multi-reservoir operations in hydrological modeling. Hydrology and Earth System Sciences. 25:1365-1388. 2021
2021	Quantifying the impacts of compound extremes on agriculture. Hydrology and Earth System Sciences. 25:551-564. 2021
2021	How Well Do US Western Water Markets Convey Economic Information?. Land Economics: a quarterly journal devoted to the study of economic and social institutions. 97:1-16. 2021
2020	Interplay of changing irrigation technologies and water reuse: example from the upper Snake River basin, Idaho, USA. Hydrology and Earth System Sciences. 24:5231-5249. 2020
2020	Snowmelt control on spring hydrology declines as the vernal window lengthens. Environmental Research Letters. 15:114040-114040. 2020
2020	Quantifying the Impacts of Compound Extremes on Agriculture and Irrigation Water Demand 2020
2020	Interplay of changing irrigation technologies and water reuse: Example from the Upper Snake River Basin, Idaho, USA 2020
2020	Supplementary material to "Interplay of changing irrigation technologies and water reuse: Example from the Upper Snake River Basin, Idaho, USA" 2020
2020	Differential Impact of Climate Change on the Hydropower Economics of Two River Basins in High Mountain Asia. Frontiers in Environmental Science. 8:26. 2020
2019	Coordination and Control: Limits in Standard Representations of Multi-Reservoir Operations in Hydrological Modeling 2019
2017	The use and re-use of unsustainable groundwater for irrigation: a global budget. Environmental Research Letters. 12:034017-034017. 2017
2016	Invisible water, visible impact: groundwater use and Indian agriculture under climate change. Environmental Research Letters. 11:084005-084005. 2016
2015	Modeling impacts of management on farmland soil carbon dynamics along a climate gradient in Northwest China during 1981-2000. Ecological Modelling. 312:1-10. 2015
2015	Quantifying the link between crop production and mined groundwater irrigation in China.. Science of the Total Environment. 511:161-175. 2015
2011	Climatically driven biogeographic provinces of Late Triassic tropical Pangea.. Proceedings of the National Academy of Sciences of USA. 108:8972-8977. 2011
	Water balance model (WBM) v.1.0.0: a scalable gridded global hydrologic model with water-tracking functionality. Geoscientific Model Development. 15:7287-7323.

Article

Year	Title
2017	Achieving sustainable irrigation water withdrawals: global impacts on food security and land use. Environmental Research Letters. 104009-104009. 2017