A perspective on iron (Fe) in the atmosphere: air quality, climate, and the ocean

As scientists engage in research motivated by climate change and the impacts of pollution on air, water, and human health, we increasingly recognize the need for the scientific community to improve communication and knowledge exchange across disciplines to address pressing and outstanding research q...

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Veröffentlicht in:	Environmental science--processes & impacts 2023-02, Vol.25 (2), p.151-164
Hauptverfasser:	Al-Abadleh, Hind A, Kubicki, James D, Meskhidze, Nicholas
Format:	Artikel
Sprache:	eng
Schlagworte:	Aerosols Aerosols - chemistry Air Pollution Air quality Atmosphere - chemistry Atmospheric aerosols Atmospheric models Bioavailability Biogeochemistry Chemical reactions Climate change Environmental impact Humans Iron Iron - chemistry Micronutrients Moisture content Ocean models Oceans and Seas Outdoor air quality Physicochemical properties Reactive oxygen species Reactivity Respiratory organs Water Water content Water pollution
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container_title	Environmental science--processes & impacts
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creator	Al-Abadleh, Hind A Kubicki, James D Meskhidze, Nicholas
description	As scientists engage in research motivated by climate change and the impacts of pollution on air, water, and human health, we increasingly recognize the need for the scientific community to improve communication and knowledge exchange across disciplines to address pressing and outstanding research questions holistically. Our professional paths have crossed because our research activities focus on the chemical reactivity of Fe-containing minerals in air and water, and at the air-sea interface. (Photo)chemical reactions driven by Fe can take place at the surface of the particles/droplets or within the condensed phase. The extent and rates of these reactions are influenced by water content and biogeochemical activity ubiquitous in these systems. One of these reactions is the production of reactive oxygen species (ROS) that cause damage to respiratory organs. Another is that the reactivity of Fe and organics in aerosol particles alter surficial physicochemical properties that impact aerosol-radiation and aerosol-cloud interactions. Also, upon deposition, aerosol particles influence ocean biogeochemical processes because micronutrients such as Fe or toxic elements such as copper become bioavailable. We provide a perspective on these topics and future research directions on the reactivity of Fe in atmospheric aerosol systems, from sources to short- and long-term impacts at the sinks with emphasis on needs to enhance the predictive power of atmospheric and ocean models. We engage in research motivated by climate change and the impacts of pollution on air, water, and human health. The scientific community need to improve communication and knowledge exchange across disciplines to address pressing research questions holistically.
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source	MEDLINE; Royal Society Of Chemistry Journals 2008-
subjects	Aerosols Aerosols - chemistry Air Pollution Air quality Atmosphere - chemistry Atmospheric aerosols Atmospheric models Bioavailability Biogeochemistry Chemical reactions Climate change Environmental impact Humans Iron Iron - chemistry Micronutrients Moisture content Ocean models Oceans and Seas Outdoor air quality Physicochemical properties Reactive oxygen species Reactivity Respiratory organs Water Water content Water pollution
title	A perspective on iron (Fe) in the atmosphere: air quality, climate, and the ocean
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