TY - JOUR
T1 - Economic Impacts of the 2019 Drought Contingency Plan in the Lower Colorado River Basin
T2 - Water, Energy, and Recreation
AU - Huizar, Luis
AU - Díaz, Sarai
AU - Lansey, Kevin
AU - Arnold, Robert
N1 - Publisher Copyright:
© 2024 American Society of Civil Engineers.
PY - 2024/4/1
Y1 - 2024/4/1
N2 - Climate change will reduce the availability of Colorado River Water (CRW) in the Lower Colorado River Basin (LCRB) and hydroelectric power generation at Lakes Powell and Mead. Efforts to stabilize reservoir levels in the presence of interdecadal drought are based primarily on shortages in water deliveries to LCRB states and Mexico per the 2007 Interim Guidelines (2007-IG) and later the LCRB Drought Contingency Plan (2019-DCP). When climate effects are considered, the expected energy generation (lakes Mead and Powell combined) is projected to decrease from 6500 GWH in 2024 to 5400 GWH in 2060, despite a 400-600 GWH annual increase consequent to 2019-DCP measures. 2019-DCP shortages decrease cumulative water deliveries to the LCRB states and Mexico during 2022-2060, increasing evaporative losses from lakes Mead and Powell. The cumulative present value of LCRB water deliveries during 2022-2060 dwarfs that of hydroelectric energy benefits. However, the differences in benefits under the two sets of measures reveal that the economic impact of water and energy are of the same order of magnitude. Under the 2019-DCP rules, energy production and recreation benefits are positive in all but one scenario, while overall water deliveries are reduced in two-thirds of all scenarios. The median difference in present value benefits under 2019-DCP compared with the 2007-IG is about +$100 M, but the full range of outcomes for all climate-related scenarios investigated is approximately ±$1 B.
AB - Climate change will reduce the availability of Colorado River Water (CRW) in the Lower Colorado River Basin (LCRB) and hydroelectric power generation at Lakes Powell and Mead. Efforts to stabilize reservoir levels in the presence of interdecadal drought are based primarily on shortages in water deliveries to LCRB states and Mexico per the 2007 Interim Guidelines (2007-IG) and later the LCRB Drought Contingency Plan (2019-DCP). When climate effects are considered, the expected energy generation (lakes Mead and Powell combined) is projected to decrease from 6500 GWH in 2024 to 5400 GWH in 2060, despite a 400-600 GWH annual increase consequent to 2019-DCP measures. 2019-DCP shortages decrease cumulative water deliveries to the LCRB states and Mexico during 2022-2060, increasing evaporative losses from lakes Mead and Powell. The cumulative present value of LCRB water deliveries during 2022-2060 dwarfs that of hydroelectric energy benefits. However, the differences in benefits under the two sets of measures reveal that the economic impact of water and energy are of the same order of magnitude. Under the 2019-DCP rules, energy production and recreation benefits are positive in all but one scenario, while overall water deliveries are reduced in two-thirds of all scenarios. The median difference in present value benefits under 2019-DCP compared with the 2007-IG is about +$100 M, but the full range of outcomes for all climate-related scenarios investigated is approximately ±$1 B.
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U2 - 10.1061/JOEEDU.EEENG-7505
DO - 10.1061/JOEEDU.EEENG-7505
M3 - Article
AN - SCOPUS:85183921599
SN - 0733-9372
VL - 150
JO - Journal of Environmental Engineering (United States)
JF - Journal of Environmental Engineering (United States)
IS - 4
M1 - 04024004
ER -