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Recent advances in environmental magnetism offer the opportunity to link the magnetic signature of marine and continental rocks to the paleoenvironmental and paleoclimatic settings that controlled their formation or deposition, as well as to post-depositional events, such as diagenesis, that can alter their primary signature. This Research Topic assembles studies that used state of the art rock magnetic techniques to unravel the causes and effects of catastrophic geological events, including tsunami, meteorite impacts, Archean oxygenation event, geomagnetic reversals, and global climate changes linked to large volcanic eruptions.
rock magnetism --- Geology --- paleomagnetism --- Geophysics --- extreme events
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Recent advances in environmental magnetism offer the opportunity to link the magnetic signature of marine and continental rocks to the paleoenvironmental and paleoclimatic settings that controlled their formation or deposition, as well as to post-depositional events, such as diagenesis, that can alter their primary signature. This Research Topic assembles studies that used state of the art rock magnetic techniques to unravel the causes and effects of catastrophic geological events, including tsunami, meteorite impacts, Archean oxygenation event, geomagnetic reversals, and global climate changes linked to large volcanic eruptions.
rock magnetism --- Geology --- paleomagnetism --- Geophysics --- extreme events
Choose an application
Recent advances in environmental magnetism offer the opportunity to link the magnetic signature of marine and continental rocks to the paleoenvironmental and paleoclimatic settings that controlled their formation or deposition, as well as to post-depositional events, such as diagenesis, that can alter their primary signature. This Research Topic assembles studies that used state of the art rock magnetic techniques to unravel the causes and effects of catastrophic geological events, including tsunami, meteorite impacts, Archean oxygenation event, geomagnetic reversals, and global climate changes linked to large volcanic eruptions.
rock magnetism --- Geology --- paleomagnetism --- Geophysics --- extreme events --- rock magnetism --- Geology --- paleomagnetism --- Geophysics --- extreme events
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This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact
marine heatwaves --- extreme events --- ocean and atmosphere interactions --- marine ecosystems --- marine resources --- climate change --- climate variability --- climate prediction
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Classifications of circulation weather systems have a long history in meteorology and climatology. Starting with manual classifications over specific regions of the globe, these tools (generally called “catalogs of synoptic types”) were restricted mainly to weather forecasting and historical climate variability studies. In the last decades, the advance of computing resources and the availability of datasets have fostered the development of fast and objective methods that process large amount of data. In recent years numerous methods of circulation type classification have been designed, showing their usefulness on a wide range of applications in scientific domains related to weather, climate, and environment. This Research Topic highlights methodological advances in circulation weather types and also their applications to different research areas. The articles included in this research topic show that circulation weather types can be used not only in Europe, where they have been always more frequent, but also applied to other regions of the world.
Meteorology --- Climatology --- Environmental sciences. --- Research. --- Methodology. --- Saudi Arabia --- Synoptic climatology --- Central America --- Lagrangian air trajectories --- circulation weather types --- Surface climate --- extreme events --- climate variability --- Maritime Continent --- Australia
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This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact
Science: general issues --- Oceanography (seas) --- marine heatwaves --- extreme events --- ocean and atmosphere interactions --- marine ecosystems --- marine resources --- climate change --- climate variability --- climate prediction
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Classifications of circulation weather systems have a long history in meteorology and climatology. Starting with manual classifications over specific regions of the globe, these tools (generally called “catalogs of synoptic types”) were restricted mainly to weather forecasting and historical climate variability studies. In the last decades, the advance of computing resources and the availability of datasets have fostered the development of fast and objective methods that process large amount of data. In recent years numerous methods of circulation type classification have been designed, showing their usefulness on a wide range of applications in scientific domains related to weather, climate, and environment. This Research Topic highlights methodological advances in circulation weather types and also their applications to different research areas. The articles included in this research topic show that circulation weather types can be used not only in Europe, where they have been always more frequent, but also applied to other regions of the world.
Meteorology --- Climatology --- Environmental sciences. --- Research. --- Methodology. --- Saudi Arabia --- Synoptic climatology --- Central America --- Lagrangian air trajectories --- circulation weather types --- Surface climate --- extreme events --- climate variability --- Maritime Continent --- Australia
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Classifications of circulation weather systems have a long history in meteorology and climatology. Starting with manual classifications over specific regions of the globe, these tools (generally called “catalogs of synoptic types”) were restricted mainly to weather forecasting and historical climate variability studies. In the last decades, the advance of computing resources and the availability of datasets have fostered the development of fast and objective methods that process large amount of data. In recent years numerous methods of circulation type classification have been designed, showing their usefulness on a wide range of applications in scientific domains related to weather, climate, and environment. This Research Topic highlights methodological advances in circulation weather types and also their applications to different research areas. The articles included in this research topic show that circulation weather types can be used not only in Europe, where they have been always more frequent, but also applied to other regions of the world.
Meteorology --- Climatology --- Environmental sciences. --- Saudi Arabia --- Synoptic climatology --- Central America --- Lagrangian air trajectories --- circulation weather types --- Surface climate --- extreme events --- climate variability --- Maritime Continent --- Australia --- Research. --- Methodology. --- Saudi Arabia --- Synoptic climatology --- Central America --- Lagrangian air trajectories --- circulation weather types --- Surface climate --- extreme events --- climate variability --- Maritime Continent --- Australia
Choose an application
This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact
Science: general issues --- Oceanography (seas) --- marine heatwaves --- extreme events --- ocean and atmosphere interactions --- marine ecosystems --- marine resources --- climate change --- climate variability --- climate prediction --- marine heatwaves --- extreme events --- ocean and atmosphere interactions --- marine ecosystems --- marine resources --- climate change --- climate variability --- climate prediction
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National governments are key actors in managing the impacts of extreme weather events, yet many highly exposed developing countries - faced with exhausted tax bases, high levels of indebtedness, and limited donor assistance - have been unable to raise sufficient and timely capital to replace or repair damaged infrastructure and restore livelihoods after major disasters. Such financial vulnerability hampers development and exacerbates poverty. Based on the record of the past 30 years, this paper finds many developing countries, in particular small island states, to be highly financially vulnerable, and experiencing a resource gap (net disaster losses exceed all available financing sources) for events that occur with a probability of 2 percent or higher. This has three main implications. First, efforts to reduce risk need to be ramped-up to lessen the serious human and financial burdens. Second, contrary to the well-known Arrow-Lind theorem, there is a case for country risk aversion implying that disaster risks faced by some governments cannot be absorbed without major difficulty. Risk aversion entails the ex ante financing of losses and relief expenditure through calamity funds, regional insurance pools, or contingent credit arrangements. Third, financially vulnerable (and generally poor) countries are unlikely to be able to implement pre-disaster risk financing instruments themselves, and thus require technical and financial assistance from the donor community. The cost estimates of financial vulnerability - based on today's climate - inform the design of "climate insurance funds" to absorb high levels of sovereign risk and are found to be in the lower billions of dollars annually, which represents a baseline for the incremental costs arising from future climate change.
Banks & Banking Reform --- Climate change --- Climate Change Economics --- Damages --- Debt Markets --- Disaster --- Disaster aid --- Disaster risk --- Disaster risks --- Disasters --- Drought --- Extreme event --- Extreme events --- Extreme weather --- Extreme weather events --- Famine --- Farmers --- Finance and Financial Sector Development --- Flooding --- Hazard Risk Management --- Insurance --- Insurance & Risk Mitigation --- Insurance contract --- Macroeconomics and Economic Growth --- Natural disaster --- Natural hazards --- Relief --- Urban Development
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