Radon mapping, automatic measurements and extremely high 222Rn emissions during the 2002–2007 eruptive scenarios at Stromboli volcano
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Abstract Erebus volcano, Antarctica, is the southernmost active volcano on the globe. Despite its remoteness and harsh conditions, Erebus volcano provides an unprecedented and unique opportunity to study the petrogenesis and evolution, as well as the passive and explosive degassing, of an alkaline magmatic system with a persistently open and magma-filled conduit. In this chapter, we review nearly five decades of scientific research related to Erebus volcano, including geological, geophysical, geochemical and microbiological observations and interpretations. Mount Erebus is truly one of the world's most significant natural volcano laboratories where the lofty scientific goal of studying a volcanic system from mantle to microbe is being realized.
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Volcanic gas emissions can often be interpreted as signals from deep within the Earth. The study of volcanic gases increases our understanding of how magmatic systems behave, and in some cases it can be used as a predictive tool for eruptive activity and associated hazards. Not only are we concerned with the dangers of large eruptions, but if large volumes of gas are released, the gases themselves can pose a hazard to communities surrounding a volcano.The environmental impacts of volcanic gas emissions are observed on local scales, and the significant global contribution to the atmosphere is also an area of current interest, since it relates to global climate change. As we still have much to understand about volcanic eruptions and the environmental impacts of volcanic gas emissions, scientists benefit from working together to improve instrumentation and monitoring techniques.
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In any one year, approximately 60 volcanoes erupt on the Earth. Even though about 80% of these eruptions occur under the oceans, the terrestrial volcanic events are common enough to have major impacts on nearby vegetation, often over large areas (e.g., Bilderback, 1987). Volcanic activity both destroys or modifies existing vegetation and creates new geological substrates upon which vegetation can re-establish. The types of plants surviving and recovering after volcanic activity largely depend upon the type of activity that takes place, the nutrient content of material ejected or moved by the volcano, the distance from the volcanic activity, and the types of vegetation propagules that survive in place or are transported from adjacent areas. The resulting changes in the vegetation abundance and patterning can have dramatic effects on the social and economic conditions of the humans in the areas surrounding volcanoes.
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Polygenetic volcanoes and calderas produce eruptions of a wide variety of magnitudes, chemistries, and recurrence times. Understanding the interplay between long- and short-term and deep and shallow processes associated with accumulation and transfer of eruptible magma is essential for assessing the potential for future eruptions to occur and estimating their magnitude, which remains one of the foremost challenges in the Earth sciences. We review literature and use existing data for emblematic volcanic systems to identify the essential data sets required to define the state of activity of volcanoes and their plumbing systems. We explore global eruptive records in combination with heat flux and other geological and geophysical data to determine the evolutionary stage of plumbing systems. We define a Volcanic Activity Index applicable to any volcano that provides an estimate of the potential of a system to erupt in the future, which is especially important for long-quiescent volcanoes. ▪ Magmatic plumbing systems that feed volcanic activity extend across Earth's crust and are long-lived at depth and ephemeral in their shallowest portions. ▪ We revise and update the definitions of active, quiescent, and extinct volcanoes based on physical proxies for the architecture, longevity, amount, and distribution of eruptible magma in the crust. ▪ We propose a Volcanic Activity Index, which provides a relative measure of the state of activity of a volcano with respect to all other volcanoes in the world. ▪ New imaging and monitoring strategies are required to improve our ability to detect lower and middle crust magmatic processes and forecast eruptions and their potential size.
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In this paper,the mechanisms of volcanic eruptions impacting climate in different time scales are summarized,the research history of the volcanic records in ice cores from different locations is reviewed,the modeling results of volcanic influences with different models are expounded,and finally the uncertainties in the interrelated researches are pointed out.The main results include the following aspects : volcanic activities can cause the climatic fluctuation through the volcanic matter(aerosols).The activity is significant in the timescale of year to decade.However,it is controversial for centurial and millennial time scale.Volcanic records in the ice cores can provide important information for understanding the climatic effects resulted from the volcanic activities in history.Using the volcanic records from ice cores,the climatic effects from the volcanic activities in different regional scale can be calculated from many models,giving important theoretical support for analyzing the principles of climatic effects from volcanic activities,and providing useful materials for studying the volcanic effects in the future.However,many problems and uncertainties still exist in the modeling results and correlative researches.Further attention is needed to pay in the future.
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Volcanoes sometimes host a lake at the Earth's surface. These lakes are the surface expressions of a reservoir, often termed a hydrothermal system, in highly fractured, permeable and porous media where fluids circulate. They can become monitoring targets since they integrate the heat flux discharged by an underlying magma body and condense some volcanic gases. Since they trap volcanic heat and gases, they are excellent tools to provide additional information about the status of a volcano and volcanic lake-related hazards. This Special Publication comes at an exciting time for the volcanic lake community. It brings together scientific papers, which include studies of their structure, hydrogeological modelling, long-term multi-disciplinary monitoring efforts, as well as a number of innovative methods of sampling, data acquisition and in situ and laboratory experiments. Several papers challenge long-established paradigms and introduce new concepts and terminologies. This collection of papers will be a useful reference for researchers dealing with volcanic lakes and more generally with hydrothermal systems, phreatic/hydrothermal eruptions and wet volcanoes.
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Volcanoes sometimes host a lake at the Earth’s surface. These lakes are the surface expressions of a reservoir, often termed a hydrothermal system, in highly fractured, permeable and porous media where fluids circulate. They can become monitoring targets since they integrate the heat flux discharged by an underlying magma body and condense some volcanic gases. Since they trap volcanic heat and gases, they are excellent tools to provide additional information about the status of a volcano and volcanic lake-related hazards.
This Special Publication comes at an exciting time for the volcanic lake community. It brings together scientific papers, which include studies of their structure, hydrogeological modelling, long-term multi-disciplinary monitoring efforts, as well as a number of innovative methods of sampling, data acquisition and in situ and laboratory experiments. Several papers challenge long-established paradigms and introduce new concepts and terminologies. This collection of papers will be a useful reference for researchers dealing with volcanic lakes and more generally with hydrothermal systems, phreatic/hydrothermal eruptions and wet volcanoes.
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