A European Aerosol Research Lidar Network to Establish an Aerosol ClimatologyAerosols affect life on earth in several ways. They play an important role in the climate system; the effect of aerosols on the global climate system is one of the major uncertainties of present climate predictions. They play a major role in atmospheric chemistry and hence affect the concentrations of other potentially harmful atmospheric constituents, e.g. ozone. They are an important controlling factor for the radiation budget, in particular in the UV-B part of the spectrum. At ground level, they can be harmful, even toxic, to man, animals, and plants. Because of these adverse effects that aerosols can have on human life, it is necessary to achieve an advanced understanding of the processes that generate, redistribute, and remove aerosols in the atmosphere.A quantitative dataset describing the aerosol vertical, horizontal, and temporal distribution, including its variability on a continental scale, is necessary. The dataset is used to validate and improve models that predict the future state of the atmosphere and its dependence on different scenarios describing economic development, including those actions taken to preserve the quality of the environment. The EARLINET data set is the most comprehensive compilation of data available for this purpose.This project description is taken from: http://www.earlinet.org/index.php?id=earlinet_homepageSummary: Aerosols originating from volcanic emissions have an impact on the climate: sulfate and ash particles from volcanic emissions reflect solar radiation, act as cloud condensation and ice nuclei, and modify the radiative properties and lifetime of clouds, and therefore influence the precipitation cycle. These volcanic particles can also have an impact on environmental conditions and could be very dangerous for aircraft in flight. In addition to the routine measurements, further EARLINET observations are devoted to monitor volcano eruptions. The EARLINET volcanic dataset includes extended observations related to two different volcanoes in Europe Mt. Etna (2001 and 2002 eruptions), and the Eyjafjallajokull volcano in Iceland (April - May 2010 eruption). This dataset includes also recent events of volcanic eruptions in the North Pacific region (2008-2010) that emitted sulfuric acid droplets into the upper troposphere - lower stratosphere (UTLS) height region of the northern hemisphere. The EARLINET volcanic observations in the UTLS are complemented by the long-term stratospheric aerosol observations collected in the Stratosphere category.
EARLINET observations related to volcanic eruptions (2000-2010) / Adam, Mariana; Alados Arboledas, Lucas; Althausen, Dietrich; Amiridis, V; Amodeo, Aldo; Ansmann, Albert; Apituley, Arnoud; Arshinov, Yuri; Balis, Dimitris; Belegante, Livio; Bobrovnikov, Sergey; Boselli, Antonella; Bravo Aranda, Juan Antonio; Bosenberg, Jens; Carstea, Emil; Chaikovsky, Anatoly; Comeron, Adolfo; D'Amico, Giuseppe; Daou, David; Dreischuh, Tanja; Engelmann, Ronny; Finger, Fanny; Freudenthaler, Volker; Garcia Vizcaino, David; Garcia, Alfonso Javier Fernandez; Geiss, Alexander; Giannakaki, Elina; Giehl, Helmuth; Giunta, Aldo; De Graaf, Martin; Granados Munoz, Maria Jose; Grein, Matthias; Grigorov, Ivan; Gross, Silke; Gruening, Carsten; Guerrero Rascado, Juan Luis; Haeffelin, Martial; Hayek, Theresa; Iarlori, Marco; Kanitz, Thomas; Kokkalis, Panayotis; Linne, Holger; Madonna, Fabio; Mamouriat, Rodanthi Elisavet; Matthias, Volker; Mattis, Ina; Menendez, Francisco Molero; Mitev, Valentin; Mona, Lucia; Morille, Yohann; Munoz, Constantino; Muller, Anja; Muller, Detlef; Navas Guzman, Francisco; Nemuc, Anca; Nicolae, Doina; Pandolfi, Marco; Papayannis, Alex; Pappalardo, Gelsomina; Pelon, Jacques; Perrone, Maria Rita; Pietruczuk, Aleksander; Pisani, Gianluca; Potma, Charlos; Preissler, Jana; Pujadas, Manuel; Putaud, Jean; Radu, Cristian; Ravetta, Francois; Reigert, Andrew; Rizi, Vincenzo; Rocadenbosch, Francesc; Rodriguez, Alejandro; Sauvage, Laurent; Schmidt, Jorg; Schnell, Franziska; Schwarz, Anja; Seifert, Patric; Serikov, Ilya; Sicard, Michael; Silva, Ana Maria; Simeonov, Valentin; Siomos, Nikos; Sirch, Tobias; Spinelli, Nicola; Stoyanov, Dimitar; Talianu, Camelia; Tesche, Matthias; De Tomasi, Ferdinando; Trickl, Thomas; Vaughan, Geraint; Volten, Hester; Wagner, Frank; Wandinger, Ulla; Wang, Xuan; Wiegner, Matthias; Wilson, Keith M.. - 1:(2014), p. 1. [10.1594/WDCC/EN_VolcanicEruption_2000-2010]
EARLINET observations related to volcanic eruptions (2000-2010)
SPINELLI, NICOLA;
2014
Abstract
A European Aerosol Research Lidar Network to Establish an Aerosol ClimatologyAerosols affect life on earth in several ways. They play an important role in the climate system; the effect of aerosols on the global climate system is one of the major uncertainties of present climate predictions. They play a major role in atmospheric chemistry and hence affect the concentrations of other potentially harmful atmospheric constituents, e.g. ozone. They are an important controlling factor for the radiation budget, in particular in the UV-B part of the spectrum. At ground level, they can be harmful, even toxic, to man, animals, and plants. Because of these adverse effects that aerosols can have on human life, it is necessary to achieve an advanced understanding of the processes that generate, redistribute, and remove aerosols in the atmosphere.A quantitative dataset describing the aerosol vertical, horizontal, and temporal distribution, including its variability on a continental scale, is necessary. The dataset is used to validate and improve models that predict the future state of the atmosphere and its dependence on different scenarios describing economic development, including those actions taken to preserve the quality of the environment. The EARLINET data set is the most comprehensive compilation of data available for this purpose.This project description is taken from: http://www.earlinet.org/index.php?id=earlinet_homepageSummary: Aerosols originating from volcanic emissions have an impact on the climate: sulfate and ash particles from volcanic emissions reflect solar radiation, act as cloud condensation and ice nuclei, and modify the radiative properties and lifetime of clouds, and therefore influence the precipitation cycle. These volcanic particles can also have an impact on environmental conditions and could be very dangerous for aircraft in flight. In addition to the routine measurements, further EARLINET observations are devoted to monitor volcano eruptions. The EARLINET volcanic dataset includes extended observations related to two different volcanoes in Europe Mt. Etna (2001 and 2002 eruptions), and the Eyjafjallajokull volcano in Iceland (April - May 2010 eruption). This dataset includes also recent events of volcanic eruptions in the North Pacific region (2008-2010) that emitted sulfuric acid droplets into the upper troposphere - lower stratosphere (UTLS) height region of the northern hemisphere. The EARLINET volcanic observations in the UTLS are complemented by the long-term stratospheric aerosol observations collected in the Stratosphere category.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
