Jorge Arevalo scite author profile

Jorge Arevalo

3Publications

49Citation Statements Received

21Citation Statements Given

How they've been cited

How they cite others

135

Affiliations

University of Valparaíso, University of Arizona, Integra (United States)

Publications

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2019–2020 Australia Fire and Its Relationship to Hydroclimatological and Vegetation Variabilities

Ehsani

Arevalo

Risanto

et al. 2020

Water

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Wildfire is a major concern worldwide and particularly in Australia. The 2019–2020 wildfires in Australia became historically significant as they were widespread and extremely severe. Linking climate and vegetation settings to wildfires can provide insightful information for wildfire prediction, and help better understand wildfires behavior in the future. The goal of this research was to examine the relationship between the recent wildfires, various hydroclimatological variables, and satellite-retrieved vegetation indices. The analyses performed here show the uniqueness of the 2019–2020 wildfires. The near-surface air temperature from December 2019 to February 2020 was about 1 °C higher than the 20-year mean, which increased the evaporative demand. The lack of precipitation before the wildfires, due to an enhanced high-pressure system over southeast Australia, prevented the soil from having enough moisture to supply the demand, and set the stage for a large amount of dry fuel that highly favored the spread of the fires.

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On the Transport of Urban Pollution in an Andean Mountain Valley

Cordova

Arevalo

Marı́n

et al. 2016

Aerosol Air Qual. Res.

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Urban pollution can often impact surrounding, non-urban regions, through advection and dispersal of pollutants by the prevailing winds. Urban regions located upstream of high mountains, such as the Andes, can potentially impact the cryosphere by deposition of particles onto the surface of the snowpack and glaciers.Santiago, the capital of Chile, has more than 6 million inhabitants and regularly experiences episodes of severe pollution, particularly during the austral winter. Some studies have hypothesized that particle pollution from Santiago can reach the cryosphere downwind of the city, but the scarcity of measurements made high in the mountains prevents the validation of mesoscale models so the proof of actual impact remains elusive. A research project was designed to provide some insight into this question. The Pollution Impact on Snow in the Cordillera -Experiments and Simulations (PISCES) project was carried out in 2014 and includes both observational and modeling components. A five-week field campaign was conducted at the end of winter, at an elevated site in a mountain valley, 65 km to the southeast of the center of Santiago, to characterize some aspects of particulate pollution.During synoptic conditions that result in clear days at the site, the mesoscale mountain-valley circulation is effective in transporting pollutants upwards during the day, leading to diluted particle concentrations beyond the summits of the highest peaks. Cloudy days with reduced up-valley circulation do not show increased concentrations associated with transport. Back trajectories indicate that air masses reaching the site during the field campaign are seldom influenced by pollution from Santiago.

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Synoptic and local circulations associated with events of high particulate pollution in Valparaiso, Chile

Pozo

Marı́n

Raga

et al. 2019

Atmospheric Environment

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Jorge Arevalo

2019–2020 Australia Fire and Its Relationship to Hydroclimatological and Vegetation Variabilities

On the Transport of Urban Pollution in an Andean Mountain Valley

Synoptic and local circulations associated with events of high particulate pollution in Valparaiso, Chile

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