Smoke from 2020 United States wildfires responsible for substantial solar energy forecast errors

Juliano, Timothy W.; Jiménez, Pedro A.; Kosović, Branko; Eidhammer, T.; Thompson, Gregory; Berg, Larry K.; Fast, Jerome D.; Motley, A.J.; Polidori, Andrea

doi:10.1088/1748-9326/ac5143

Cited by 29 publications

(13 citation statements)

References 50 publications

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“…Another influential factor in the studied event is the effect of the terrain on the local wind circulation and fire spread. These aspects of the problem will be considered by running a real case WRF-Fire scenario with activating aerosol-radiation interactions, following the recent WRF-Solar developments that now include the impact of BC as outlined in Juliano et al (2022) in future work. Finally, a comprehensive comparison with field measurements of aerosol concentrations and dynamical and microphysical properties of pyroconvective clouds is necessary to constrain the model parameters better.…”

Section: Discussionmentioning

confidence: 99%

“…Another successful example of incorporating the radiative impact of OC and BC in WRF‐Solar for the record‐breaking 2020 wildfire season was presented by Juliano et al. (2022). WRF‐Solar is an augmentation of WRF for forecasting solar power irradiance that includes radiation, clouds, and aerosol interactions.…”

Section: Introductionmentioning

confidence: 99%

“…Recent numerical experiments with the Weather Research and Forecasting (WRF) model show that adjustment of the aerosol characteristics based on OC and BC data from NASA Goddard Earth Observing System version 5 reanalysis (GEOS-5; Rienecker et al, 2008) in the Thompson-Eidhammer aerosol-aware microphysics (Thompson & Eidhammer, 2014, hereafter TE14) scheme lead to improved simulation of key variables such as cloud cover, air temperature, and incident radiation at the surface when compared with satellite and ground observations (Conrick et al, 2021). Another successful example of incorporating the radiative impact of OC and BC in WRF-Solar for the record-breaking 2020 wildfire season was presented by Juliano et al (2022). WRF-Solar is an augmentation of WRF for forecasting solar power irradiance that includes radiation, clouds, and aerosol interactions.…”

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confidence: 99%

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Characterizing the Role of Moisture and Smoke on the 2021 Santa Coloma de Queralt Pyroconvective Event Using WRF‐Fire

Eghdami

Juliano

Jiménez

et al. 2023

J Adv Model Earth Syst

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Smoke from wildfires or burning biomass directly affects air quality and weather through modulating cloud microphysics and radiation. A simple wildfire emission coupling of black carbon (BC) and organic carbon (OC) with microphysics was implemented using the Weather Research and Forecasting model's fire module. A set of large‐eddy simulations inspired by unique surface and upper atmospheric observations from the 2021 Santa Coloma de Queralt Fire (Spain) were conducted to investigate the influence of background conditions and interactions between atmospheric and fire processes such as fire smoke, ambient moisture, and latent heat release on the formation and evolution of pyroconvective clouds. While the microphysical impact of BC and OC emissions on the dynamics of fire behavior is minimal on short time scales (<6 hr), their presence increased the cloud water content and decreased the rain rates in our case study. In our case study, atmospheric moisture played an important role in the formation and development of pyroconvective clouds, which in turn enhanced the surface winds (8%) and fire spread rate (25%). The influence of fuel moisture on the pyroconvective cloud formation is smaller when compared with the atmospheric moisture content. A better representation of cloud processes can improve the mesoscale forecasts, which is important for better fire behavior modeling.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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Characterizing the Role of Moisture and Smoke on the 2021 Santa Coloma de Queralt Pyroconvective Event Using WRF‐Fire

Eghdami

Juliano

Jiménez

et al. 2023

J Adv Model Earth Syst

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“…In comparison to cloud cover, wildfire smoke has been shown to reduce total solar radiation by 10%–30% over a 4‐day period in California during peak smoke production periods (Juliano et al., 2022). In addition, Hemes et al.…”

Section: Solar Radiationmentioning

confidence: 99%

Corn response to long‐term seasonal weather stressors: A review

Ortez,

Lindsey,

Thomison

et al. 2023

Crop Science

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Long‐term weather patterns (environmental conditions or stresses exceeding 10 days in length) have the potential to influence corn (Zea mays L.) growth, development, and yield. This review summarizes the current knowledge (with emphasis placed on the Midwestern U.S. production environment) on how long‐term weather conditions affect corn growth and yield, including (i) drought and heat stress, (ii) solar radiation, and (iii) distribution of heat unit accumulation during the season. Each section contains summaries of how these environmental factors influence corn growth and yield and provides context into past events experienced. The focus of the review is on dent corn grown for grain production, though relevant issues related to other types (i.e., silage corn) are included. This review also discusses agronomic recommendations or considerations to help alleviate the negative effects of stress conditions and identify areas where future research would be beneficial to continue improving the resiliency of corn cropping systems. Periods of high heat and water deficit as well as limited light availability challenge the ability to maximize yield production in corn. Temperature affects crop growth and development through the season, and accurately describing phenological progression using heat unit accumulation is a challenge. Advances in corn breeding and genetics, hybrid selection, and agronomic management practices will be key to ensuring long‐range productivity and fully leveraging possible benefits from the shifts in long‐range weather patterns.

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“…Wildfire activity in the United States (U.S.) and across the globe has increased markedly over the last several decades (e.g., Balch et al., 2017; Dennison et al., 2014; Iglesias et al., 2022; Westerling et al., 2006). In the U.S., many of the recent wildfire seasons have involved long and intense burning periods, leading to the loss of life and property, as well as poor air quality (e.g., Buchholz et al., 2022) and reductions in solar energy production as a result of smoke generation (e.g., T. W. Juliano, Jiménez, et al., 2022). Global climate models suggest that the recent trend of more large‐scale fire events will continue and even increase in the future (e.g., Abatzoglou & Williams, 2016; Yoon et al., 2015; Yue et al., 2013).…”

Section: Introductionmentioning

confidence: 99%

Toward a Better Understanding of Wildfire Behavior in the Wildland‐Urban Interface: A Case Study of the 2021 Marshall Fire

Juliano

Lareau

Frediani

et al. 2023

Geophysical Research Letters

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Smoke from 2020 United States wildfires responsible for substantial solar energy forecast errors

Cited by 29 publications

References 50 publications

Characterizing the Role of Moisture and Smoke on the 2021 Santa Coloma de Queralt Pyroconvective Event Using WRF‐Fire

Characterizing the Role of Moisture and Smoke on the 2021 Santa Coloma de Queralt Pyroconvective Event Using WRF‐Fire

Corn response to long‐term seasonal weather stressors: A review

Toward a Better Understanding of Wildfire Behavior in the Wildland‐Urban Interface: A Case Study of the 2021 Marshall Fire

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