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  • 2020-2022  (3)
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  • 1
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    Combination of Different Approaches to Infer Local or Regional Contributions to PM2.5 Burdens in Graz, Austria (2020)
    Molecular Diversity Preservation International
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    Publication Date: 2020-06-19
    Description: In early 2017 high particulate matter (PM) levels were observed across mid-Europe, including Austria. Here we characterize PM pollution in the city of Graz during January to March 2017, a period with substantial exceedances (34 days) of the European Union (EU) PM10 short time limit value. This study evaluates whether the observed exceedances can be attributed to the accumulation of pollutants emitted by local sources or to a larger scale pollution episode including transport. The analyses are based on the ratios of PM10 concentrations determined at an urban and background site, and the analyses of chemical composition of PM2.5 samples (i.e., water soluble ions, organic and elemental carbon, anhydro-sugars, humic-like substances, aluminum, and polycyclic aromatic hydrocarbons). Source apportionment was realized using a macro-tracer model. Overall, the combination of different approaches (PM10 ratios, chemical composition, and macro-tracer derived source apportionment) enabled a conclusive identification of time periods characterized by the accumulation of emissions from local sources or regional pollution episodes.
    Electronic ISSN: 2076-3417
    Topics: Natural Sciences in General
    Published by Molecular Diversity Preservation International
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  • 2
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    How will air quality effects on human health, crops and ecosystems change in the future? (2020)
    The Royal Society
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    Publication Date: 2020-09-28
    Description: Future air quality will be driven by changes in air pollutant emissions, but also changes in climate. Here, we review the recent literature on future air quality scenarios and projected changes in effects on human health, crops and ecosystems. While there is overlap in the scenarios and models used for future projections of air quality and climate effects on human health and crops, similar efforts have not been widely conducted for ecosystems. Few studies have conducted joint assessments across more than one sector. Improvements in future air quality effects on human health are seen in emission reduction scenarios that are more ambitious than current legislation. Larger impacts result from changing particulate matter (PM) abundances than ozone burdens. Future global health burdens are dominated by changes in the Asian region. Expected future reductions in ozone outside of Asia will allow for increased crop production. Reductions in PM, although associated with much higher uncertainty, could offset some of this benefit. The responses of ecosystems to air pollution and climate change are long-term, complex, and interactive, and vary widely across biomes and over space and time. Air quality and climate policy should be linked or at least considered holistically, and managed as a multi-media problem. This article is part of a discussion meeting issue ‘Air quality, past present and future’.
    Print ISSN: 1364-503X
    Electronic ISSN: 1471-2962
    Topics: Mathematics , Physics , Technology
    Published by The Royal Society
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  • 3
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    Eine Bestandsaufnahme zur Klimakrise inmitten der COVID-19-Pandemie (2020)
    Springer
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    Publication Date: 2020-10-15
    Description: ZusammenfassungDie atmosphärische Konzentration gutgemischter Treibhausgase ist seit 1850 drastisch angestiegen. Hauptursache hierfür ist menschliches Handeln, vor allem die Verbrennung fossiler Energieträger. Die Auswirkung dieser Veränderung der chemischen Zusammensetzung der Erdatmosphäre ist ein positiver Strahlungsantrieb, welcher sich letztendlich in der beobachteten Erderwärmung manifestiert. Die globale Mitteltemperatur hat seit der vorindustriellen Zeit um ca. 1,0 °C zugenommen und bei fortschreitender Emission von Treibhausgasen auf heutigem Niveau droht eine Temperaturzunahme bis 2100 von 3,7 °C bis 4,8 °C über dem Durchschnitt von 1850–1900. Ein derartiger Temperaturanstieg wäre mit fatalen Folgen für viele Ökosysteme und auch uns Menschen verbunden, wie die Sachstandsberichte des Weltklimarats dies eindrücklich darlegen. Aus diesem Grund wurde auf der Pariser-Klimakonferenz beschlossen, die globale Erwärmung auf unter 2 °C, idealerweise auf 1,5 °C gegenüber dem vorindustriellen Niveau zu begrenzen. Um dieses Ziel zu erreichen, sind rasche und drastische Emissionsreduktionen hin zu Netto-Null-Emission spätestens bis 2050 erforderlich. Ein Blick auf die Entwicklung der globalen Treibhausgasemissionen der letzten Jahre und Jahrzehnte zeigt deutlich, wie weit wir von diesem Ziel entfernt sind, steigen die globalen Emissionen doch immer noch an. Auch die im Rahmen der Pariser Klimaziele zugesagten nationalen Emissionsreduktionen sind auf momentanem Stand nicht ausreichend, um das 1,5-°C-Ziel zu erreichen. Es ist nun höchste Zeit, die Anstrengungen deutlich zu erhöhen. Noch ist die Erreichung des 1,5-°C-Ziels möglich, die Zeit, um die erforderlichen Maßnahmen zur Emissionsminderung zu setzen, läuft aber binnen dieses Jahrzehnts ab.
    Print ISSN: 0932-383X
    Electronic ISSN: 1613-7620
    Topics: Electrical Engineering, Measurement and Control Technology , Computer Science
    Published by Springer
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