Io capisco, tú entiendes, ele compreende ...I tots entenen! - Los programas de intercomprensión entre lenguas románicas

Nonostante il multilinguismo faccia parte del patrimonio comune europeo, la diversità linguistica può rappresentare un ostacolo alla comunicazione. Per promuovere l' integrazione e la mobilità all'interno del nostro continente, l'Unione Europea si impegna a finanziare progetti per sviluppare la pratica dell'intercomprensione. Si tratta di programmi che migliorano le capacità ricettive, che consentono la comunicazione tra persone che parlano lingue diverse e che facilitano l'apprendimento linguistico grazie alle somiglianze lessicali e morfosintattiche tra lingue che fanno parte di una stessa famiglia. L'ambito dove più si sono sviluppati questi progetti negli ultimi vent'anni è quello delle lingue romanze. Nella prima parte di questo lavoro, si introdurrà il concetto di intercomprensione e si spiegheranno i suoi obiettivi e i suoi vantaggi. Nella seconda parte, si esamineranno i principali metodi di intercomprensione tra lingue romanze. A causa dello spazio limitato, è stato necessario scegliere solo alcune tipologie di programmi e i loro esempi più rappresentativi: si prenderanno in considerazione solo i progetti che comprendono anche il catalano e si focalizzerà l'attenzione sulle piattaforme digitali, sui programmi per bambini e sui manuali.

Risposta della taxocenosi ad Arpacticoidi lungo un gradiente di acidificazione (Castello Aragonese, Ischia)

Recentemente molti studi in ambiente marino sono stati focalizzati sui possibili impatti dovuti alle variazioni del pH degli oceani, causato dall’aumento delle immissioni di CO2 nell’atmosfera. Tra i possibili effetti nocivi, l’acidificazione oceanica può indurre cambiamenti nelle abbondanze e nelle distribuzioni delle engeneer species, con conseguenti ripercussioni sulla fauna associata. Esempio tipico di engeneer species sono le macroalghe che sono capaci di creare, lungo le coste rocciose, habitat diversi a seconda della specie che riesce ad attecchire. Tra le specie animali che dominano in questi habitat troviamo i copepodi Arpacticoidi, piccoli crostacei che svolgono un ruolo chiave all’interno delle reti trofiche. Per questi motivi lo scopo di questo lavoro è valutare possibili effetti dell’acidificazione sulle taxocenosi a copepodi Arpacticoidi associate alle macroalghe. Lo studio è stato svolto ad Ischia, nella zona nei pressi del Castello Aragonese, dove vi sono dei vents di origine vulcanica che emettono CO2 e formano un gradiente naturale di acidificazione lungo un’area di circa 300m, suddivisibile in 3 stazioni a differenti valori medi di pH. L’analisi delle taxocenosi è stata svolta a livello di generi e famiglie di Arpacticoidi, in termini di abbondanze e di struttura di comunità, su differenti specie algali raccolte lungo il gradiente di acidificazione. Mentre non si notano differenze significative per le famiglie, la struttura di comunità analizzata a livello di generi di copepodi Arpacticoidi mostra una suddivisione in due comunità ben distinte, delle quali una appartenente alla stazione acidificata e un'altra alle stazioni di controllo e moderatamente acidificata. Tale suddivisione si conferma anche prendendo in considerazione la diversa complessità strutturale delle alghe. Per quanto riguarda le abbondanze, sia a livello di famiglie che di generi, queste mostrano generalmente valori più elevati nella stazione moderatamente acidificata e valori più bassi nella stazione più acidificata. C’è però da considerare che se non si tiene conto della complessità algale queste differenze sono significative per le famiglie Ectinosomatidae, Thalestridae e per il genere Dactylopusia, mentre, se si tiene conto della complessità algale, vi sono differenze significative per la famiglia Miraciidae e per i generi Amonardia e Dactylopusia. In definitiva questo studio sembrerebbe evidenziare che le taxocenosi a copepodi Arpacticoidi siano influenzate sia dalla differente complessità algale, che dall’acidificazione oceanica. Inoltre mostra che, in prospettiva di studi futuri, potrebbe essere necessario focalizzarsi su specie algali ben definite e su un'analisi tassonomica dei copepodi Arpacticoidi approfondita fino al livello di specie.

Meiofauna associata a macroalghe bentoniche lungo un gradiente di acidificazione (Castello Aragonese, Ischia)

Tra i vari impatti causati dall’aumento costante di CO2 nell’atmosfera troviamo l’acidificazione oceanica. Le conseguenze di questo processo non sono interamente conosciute. Per questo è importante conoscere la risposta all’acidificazione degli organismi marini e degli ecosistemi. Lo scopo di questo lavoro è valutare le conseguenze dell’acidificazione su comunità meiofaunali epifite. Sono stati quindi condotti campionamenti in situ, in una zona acidificata in conseguenza della presenza di vents idrotermali presenti nell’isola di Ischia (Italia). La zona di studio indagata è stata suddivisa in due siti, differenti per esposizione al moto ondoso. All’interno di ciascuna esposizione sono stati individuate tre stazioni, differenti per il grado di acidificazione. Sono stati prelevati campioni di alghe lungo il gradiente di acidificazione con associata la meiofauna e sono stati considerati come substrato secondario. Le alghe sono state analizzate attraverso descrittori della loro complessità mentre gli organismi sono stati contati e classificati a livello di grandi taxa. I descrittori sintetici di ricchezza tassonomica e di abbondanza non presentano valori di correlazione alti con i descrittori di complessità algale. Invece, i risultati ottenuti considerando l’intera comunità mostrano una relazione significativa fra la struttura delle comunità meiofaunali e l’acidificazione e anche con la diversa esposizione al moto ondoso. Infine dalle analisi condotte mediante regressione multipla fra tutti i descrittori algali e la struttura di comunità si nota come i primi non giustificano da soli le variazioni dei popolamenti meiobentonici. In definitiva questi risultati sembrerebbero dimostrare che la struttura delle comunità meiofaunali venga influenzata sia dalla acidificazione che dall’esposizione al moto ondoso oltre che dalla struttura dell’habitat. È tuttavia difficile definire se le variazioni nella struttura di comunità sono dovute ad una azione parallela e sinergica dei fattori considerati (esposizione e gradiente) o se si tratta di un effetto a cascata dove l’acidità influenza le comunità algali che a loro volta strutturano le comunità bentoniche associate. In prospettiva di studi futuri sarebbe quindi interessante condurre uno studio simile prendendo in considerazione le possibili relazioni specie-specifiche intercorrenti tra la struttura delle comunità meiofaunali e le differenti specie algali.

Un'analisi dell'impatto dell'informatica sul mercato del lavoro

In questa analisi si cercherà di comprendere cosa caratterizza questa l'ondata di progresso tecnologico che sta cambiando il mercato del lavoro. Il principale aspetto negativo di questo progresso si chiama "Technological Unemployment". Benché gli esperti si trovino in disaccordo su quali siano le cause della persistente alta disoccupazione, Brynjolfsson e McAfee puntano il dito contro l'automazione che ha soppiantato i lavori ripetitivi delle aziende. Tuttavia, è anche vero che il progresso ha sempre portato aumenti di produttività, e soprattutto nuovi tipi di occupazioni che hanno compensato la perdita di posti di lavoro, nel medio-lungo termine. Keynes evidenzia che la disoccupazione dovuta alla scoperta di strumenti economizzatori di manodopera procede con ritmo più rapido di quello con cui riusciamo a trovare nuovi impieghi per la manodopera stessa. Da ciò si crea ansia per il futuro, più o meno motivata. Gli stessi esperti sono spaccati a metà tra chi ha fiducia nei possibili risvolti positivi del progresso e chi invece teme possa comportare scenari catastrofici. Le macchine ci rubano lavoro o ci liberano da esso? Con questa ricerca ci si pone l'obiettivo di analizzare le effettive prospettive dei prossimi decenni. Nel capitolo 2 che è il corpo della tesi prenderemo soprattutto in conto il lavoro accademico di Frey ed Osborne dell'Oxford Martin School, intitolato "The future of employment: how susceptible are jobs to computerisation?" (2013). Essi sono stati tra i primi a studiare e quantificare cosa comporteranno le nuove tecnologie in termini di impiego. Il loro obiettivo era individuare le occupazioni a rischio, da qui a vent'anni, nel mercato del lavoro degli Stati Uniti e la relazione che intercorre tra la loro probabilità di essere computerizzati e i loro salari e livello d'istruzione medi, il tutto valutato attraverso l'ausilio di una nuova metodologia che si vedrà nel dettaglio. A conclusioni simili alle loro, per certi aspetti, è successivamente giunto anche Autor; tra l'altro viene spesso citato per altre sue opere dagli stessi Frey e Osborne, che usano le sue categorizzazioni per impostare la struttura del loro calcolo dell'automatizzabilità dei lavori utilizzando i recenti miglioramenti nelle scienze ingegneristiche quali ML (Machine Learning ad esempio Data mining, Machine vision, Computational statistics o più in generale AI) e MR (Mobile robotics) come strumenti di valutazione. Oltre alle sue ricerche, si presenteranno brevemente i risultati di un recente sondaggio tenuto dal Pew Research Center in cui importanti figure dell'informatica e dell'economia esprimono il loro giudizio sul futuro panorama del mondo del lavoro, considerando l'imminente ondata di innovazioni tecnologiche. La tesi si conclude con un'elaborazione personale. In questo modo si prenderà coscienza dei problemi concreti che il progresso tecnologico potrebbe procurare, ma anche dei suoi aspetti positivi.

Novel materials for direct X-ray detectors based on semiconducting organic polymers

Conventional inorganic materials for x-ray radiation sensors suffer from several drawbacks, including their inability to cover large curved areas, me- chanical sti ffness, lack of tissue-equivalence and toxicity. Semiconducting organic polymers represent an alternative and have been employed as di- rect photoconversion material in organic diodes. In contrast to inorganic detector materials, polymers allow low-cost and large area fabrication by sol- vent based methods. In addition their processing is compliant with fexible low-temperature substrates. Flexible and large-area detectors are needed for dosimetry in medical radiotherapy and security applications. The objective of my thesis is to achieve optimized organic polymer diodes for fexible, di- rect x-ray detectors. To this end polymer diodes based on two different semi- conducting polymers, polyvinylcarbazole (PVK) and poly(9,9-dioctyluorene) (PFO) have been fabricated. The diodes show state-of-the-art rectifying be- haviour and hole transport mobilities comparable to reference materials. In order to improve the X-ray stopping power, high-Z nanoparticle Bi2O3 or WO3 where added to realize a polymer-nanoparticle composite with opti- mized properities. X-ray detector characterization resulted in sensitivties of up to 14 uC/Gy/cm2 for PVK when diodes were operated in reverse. Addition of nanoparticles could further improve the performance and a maximum sensitivy of 19 uC/Gy/cm2 was obtained for the PFO diodes. Compared to the pure PFO diode this corresponds to a five-fold increase and thus highlights the potentiality of nanoparticles for polymer detector design. In- terestingly the pure polymer diodes showed an order of magnitude increase in sensitivity when operated in forward regime. The increase was attributed to a different detection mechanism based on the modulation of the diodes conductivity.

Prokaryotic community structure in ultra-slow spreading Southwest Indian Ridge.

The Southwest Indian Ridge segment that extends between 10° and 16° E has the slowest spreading rate of any other oceanic ridge (about 8.4 mm/year). In 2013 during the expedition ANTXXIX/8 seismology, geology, microbiology, heat flow analyses were carried out. Here, no hydrothermal plumes or black smoker systems were found but the results of the survey allowed to identify areas with peculiar characteristics: Area 1 with higher heat flux bsf; Area 2 where in 2002 the presence of hydrothermal emissions was hypothesized (Bach et al., 2002); Area 3 with anomalies of methane, ammonium, sulphide and dissolved inorganic carbon in pore water sediment profiles, and recovery of fauna vents. All these aspects suggest the presence of a hydrothermal circulation. Using Illumina 16S gene tag, statistical tools and phylogenetic trees, I provided a biological proof of the presence of hydrothermal circulation in this ridge segment. At Area 3, alpha and beta diversity indexes showed similarities with those described for venting microbial communities and about 40-70% of the dominant microbial community was found phylogenetically related to clones isolated hydrothermal-driven environments. Although the majority of chemosynthetic environment related taxa were not classified like autotrophic prokaryotes, some of them are key taxa in support of the presence of hydrothermal circulation, since they are partners of consortia or mediate specific reaction typically described for hydrothermal and seep environments, or are specialized organisms in exploiting labile organic substrates. Concluding, these results are remarkable because support the importance of ultra slow spreading ridge systems in contributing to global geochemical cycles and larval dispersion of vent fauna.

Temporal dynamics of benthic assemblages along a gradient of ocean acidification at a CO2 vent’s system of the Ischia Island

Global warming and ocean acidification, due to rising atmospheric levels of CO2, represent an actual threat to terrestrial and marine environments. Since Industrial Revolution, in less of 250 years, pH of surface seawater decreased on average of 0.1 unit, and is expected to further decreases of approximately 0.3-0.4 units by the end of this century. Naturally acidified marine areas, such as CO2 vent systems at the Ischia Island, allow to study acclimatation and adaptation of individual species as well as the structure of communities, and ecosystems to OA. The main aim of this thesis was to study how hard bottom sublittoral benthic assemblages changed trough time along a pH gradient. For this purpose, the temporal dynamics of mature assemblages established on artificial substrates (volcanic tiles) over a 3 year- period were analysed. Our results revealed how composition and dynamics of the community were altered and highly simplified at different level of seawater acidification. In fact, extreme low values of pH (approximately 6.9), affected strongly the assemblages, reducing diversity both in terms of taxa and functional groups, respect to lower acidification levels (mean pH 7.8) and ambient conditions (8.1 unit). Temporal variation was observed in terms of species composition but not in functional groups. Variability was related to species belonging to the same functional group, suggesting the occurrence of functional redundancy. Therefore, the analysis of functional groups kept information on the structure, but lost information on species diversity and dynamics. Decreasing in ocean pH is only one of many future global changes that will occur at the end of this century (increase of ocean temperature, sea level rise, eutrophication etc.). The interaction between these factors and OA could exacerbate the community and ecosystem effects showed by this thesis.

Miocene basin development and volcanism along a strike-slip to flat-slab subduction transition: Stratigraphy, geochemistry, and geochronology of the central Wrangell volcanic belt, Yakutat-North America collision zone

New geochronologic, geochemical, sedimentologic, and compositional data from the central Wrangell volcanic belt (WVB) document basin development and volcanism linked to subduction of overthickened oceanic crust to the northern Pacific plate margin. The Frederika Formation and overlying Wrangell Lavas comprise >3 km of sedimentary and volcanic strata exposed in the Wrangell Mountains of south-central Alaska (United States). Measured stratigraphic sections and lithofacies analyses document lithofacies associations that reflect deposition in alluvial-fluvial-lacustrine environments routinely influenced by volcanic eruptions. Expansion of intrabasinal volcanic centers prompted progradation of vent-proximal volcanic aprons across basinal environments. Coal deposits, lacustrine strata, and vertical juxtaposition of basinal to proximal lithofacies indicate active basin subsidence that is attributable to heat flow associated with intrabasinal volcanic centers and extension along intrabasinal normal faults. The orientation of intrabasinal normal faults is consistent with transtensional deformation along the Totschunda-Fairweather fault system. Paleocurrents, compositional provenance, and detrital geochronologic ages link sediment accumulation to erosion of active intrabasinal volcanoes and to a lesser extent Mesozoic igneous sources. Geochemical compositions of interbedded lavas are dominantly calc-alkaline, range from basaltic andesite to rhyolite in composition, and share geochemical characteristics with Pliocene-Quaternary phases of the western WVB linked to subduction-related magmatism. The U/Pb ages of tuffs and Ar-40/Ar-39 ages of lavas indicate that basin development and volcanism commenced by 12.5-11.0 Ma and persisted until at least ca. 5.3 Ma. Eastern sections yield older ages (12.5-9.3 Ma) than western sections (9.6-8.3 Ma). Samples from two western sections yield even younger ages of 5.3 Ma. Integration of new and published stratigraphic, geochronologic, and geochemical data from the entire WVB permits a comprehensive interpretation of basin development and volcanism within a regional tectonic context. We propose a model in which diachronous volcanism and transtensional basin development reflect progressive insertion of a thickened oceanic crustal slab of the Yakutat microplate into the arcuate continental margin of southern Alaska coeval with reported changes in plate motions. Oblique northwestward subduction of a thickened oceanic crustal slab during Oligocene to Middle Miocene time produced transtensional basins and volcanism along the eastern edge of the slab along the Duke River fault in Canada and subduction-related volcanism along the northern edge of the slab near the Yukon-Alaska border. Volcanism and basin development migrated progressively northwestward into eastern Alaska during Middle Miocene through Holocene time, concomitant with a northwestward shift in plate convergence direction and subduction collision of progressively thicker crust against the syntaxial plate margin.

Spa-drain entrapment complicated by suspicions of nonaccidental trauma and epilepsy onset

We present here the case of an adolescent female near-drowning victim who was reportedly discovered submerged and unconscious by family members in a whirlpool spa. Physical examination revealed extensive posterior soft tissue bruising, which raised the suspicion of nonaccidental trauma. Detailed forensic evaluation of the injuries and the scene proved that the soft tissue findings represented an unusual manifestation of whirlpool-spa suction-vent injury. Medical evaluation indicated that epilepsy onset might have contributed to the near-drowning, although forensic evaluation of this possibility was less convincing. In this article we review these rare but important injuries, which have the potential to be confused with child abuse, and detail the atypical presentation and clinically presumed etiologic event in our case.

Influence of end-expiratory level and tidal volume on gravitational ventilation distribution during tidal breathing in healthy adults

Our understanding of regional filling of the lung and regional ventilation distribution is based on studies using stepwise inhalation of radiolabelled tracer gases, magnetic resonance imaging and positron emission tomography. We aimed to investigate whether these differences in ventilation distribution at different end-expiratory levels (EELs) and tidal volumes (V (T)s) held also true during tidal breathing. Electrical impedance tomography (EIT) measurements were performed in ten healthy adults in the right lateral position. Five different EELs with four different V (T)s at each EEL were tested in random order, resulting in 19 combinations. There were no measurements for the combination of the highest EEL/highest V (T). EEL and V (T) were controlled by visual feedback based on airflow. The fraction of ventilation directed to different slices of the lung (VENT(RL1)-VENT(RL8)) and the rate of the regional filling of each slice versus the total lung were analysed. With increasing EEL but normal tidal volume, ventilation was preferentially distributed to the dependent lung and the filling of the right and left lung was more homogeneous. With increasing V (T) and maintained normal EEL (FRC), ventilation was preferentially distributed to the dependent lung and regional filling became more inhomogeneous (p < 0.05). We could demonstrate that regional and temporal ventilation distribution during tidal breathing was highly influenced by EEL and V (T).

Dynamics and kinematics of eruptive activity at Fuego volcano, Guatemala 2005-2009

Volcanoes are the surficial expressions of complex pathways that vent magma and gasses generated deep in the Earth. Geophysical data record at least the partial history of magma and gas movement in the conduit and venting to the atmosphere. This work focuses on developing a more comprehensive understanding of explosive degassing at Fuego volcano, Guatemala through observations and analysis of geophysical data collected in 2005 – 2009. A pattern of eruptive activity was observed during 2005 – 2007 and quantified with seismic and infrasound, satellite thermal and gas measurements, and lava flow lengths. Eruptive styles are related to variable magma flux and accumulation of gas. Explosive degassing was recorded on broadband seismic and infrasound sensors in 2008 and 2009. Explosion energy partitioning between the ground and the atmosphere shows an increase in acoustic energy from 2008 to 2009, indicating a shift toward increased gas pressure in the conduit. Very-long-period (VLP) seismic signals are associated with the strongest explosions recorded in 2009 and waveform modeling in the 10 – 30 s band produces a best-fit source location 300 m west and 300 m below the summit crater. The calculated moment tensor indicates a volumetric source, which is modeled as a dike feeding a SW-dipping (35°) sill. The sill is the dominant component and its projection to the surface nearly intersects the summit crater. The deformation history of the sill is interpreted as: 1) an initial inflation due to pressurization, followed by 2) a rapid deflation as overpressure is explosively release, and finally 3) a reinflation as fresh magma flows into the sill and degasses. Tilt signals are derived from the horizontal components of the seismometer and show repetitive inflation deflation cycles with a 20 minute period coincident with strong explosions. These cycles represent the pressurization of the shallow conduit and explosive venting of overpressure that develops beneath a partially crystallized plug of magma. The energy released during the strong explosions has allowed for imaging of Fuego’s shallow conduit, which appears to have migrated west of the summit crater. In summary, Fuego is becoming more gas charged and its summit centered vent is shifting to the west - serious hazard consequences are likely.

Performance evaluation of VIP latrines in the Upper West Region of Ghana

The prevalence of Ventilated Improved Pit (VIP) latrines in Ghana suggests that the design must have a high user acceptance. The two key factors attributed to user acceptance of a VIP latrine over an alternative latrine design, such as the basic pit latrine, are its ability to remove foul odors and maintain low fly populations; both of which are a direct result of an adequate ventilation flow rate. Adequate ventilation for odorless conditions in a VIP latrine has been defined by the United Nations Development Program (UNDP) and the World Bank, as an air flow rate equivalent to 6 air changes per hour (6 ACH) of the superstructure’s air volume. Additionally, the UNDP determined that the three primary factors that affect ventilation are: 1) wind passing over the mouth of the vent pipe, 2) wind passing into the superstructure, and 3) solar radiation on to the vent pipe. Previous studies also indicate that vent pipes with larger diameters increase flow rates, and the application of carbonaceous materials to the pit sludge reduces odor and insect prevalence. Furthermore, proper design and construction is critical for the correct functioning of VIP latrines. Under-designing could cause problems with odor and insect control; over-designing would increase costs unnecessarily, thereby making it potentially unaffordable for benefactors to independently construct, repair or replace a VIP latrine. The present study evaluated the design of VIP latrines used by rural communities in the Upper West Region of Ghana with the focus of assessing adequate ventilation for odor removal and insect control. Thirty VIP latrines from six communities in the Upper West Region of Ghana were sampled. Each VIP latrine’s ventilation flow rate and micro-environment was measured using a hot-wire anemometer probe and portable weather station for a minimum of four hours. To capture any temporal or seasonal variations in ventilation, ten of the latrines were sampled monthly over the course of three months for a minimum of 12 hours. A latrine usage survey and a cost analysis were also conducted to further assess the VIP latrine as an appropriated technology for sustainable development in the Upper West Region. It was found that the average air flow rate over the entire sample set was 11.3 m3/hr. The minimum and maximum air flow rates were 0.0 m3/hr and 48.0 m3/hr respectively. Only 1 of the 30 VIP latrines (3%) was found to have an air flow rate greater than the UNDP-defined odorless condition of 6 ACH. Furthermore, 19 VIP latrines (63%) were found to have an average air flow rate of less than half the flow rate required to achieve 6 ACH. The dominant factors affecting ventilation flow rate were wind passing over the mouth of the vent pipe and air buoyancy forces, which were the effect of differences in temperature between the substructure and the ambient environment. Of 76 usable VIP latrines found in one community, 68.4% were in actual use. The cost of a VIP latrine was found to be equivalent to approximately 12% of the mean annual household income for Upper West Region inhabitants.

Recurrent voluminous sector collapses at Volcán Barú, Panama

Two volcanic debris avalanche deposits (VDADs), both attributed to sector collapse at Volcán Barú, Panama, have been identified after an investigation of deposits that covered more than a thousand square kilometers. The younger Barriles Deposit is constrained by two radiocarbon ages that are ~9 ka; the older Caisán Deposit is at or beyond the radiocarbon range, >43,500 ybp. The total runout length of the Caisán Deposit was ~50 km and it covers 1190 km2. The Barriles Deposit extended to about 45 km and covered an area of 966 km2, overlapping most of the Caisán. The VDADs are blanketed by pyroclastic deposits and contain a predominance of andesitic material likely representing volcanic dome rock which accumulated above the active vent at Barú before collapsing. Despite heavy vegetation in the field area, over 4000 individual hummocks were digitized from aerial photography. Statistical analysis of hummock locations and geometries depict flow patterns of highly- fragmented material reflecting the effects of underlying topography and also help to define the limit of Barriles’ shorter termination. Barriles and Caisán are primarily unconfined, subaerial volcanic deposits that are among the world’s most voluminous. Calculated through two different geospatial processes, thickness values from field measurements and inferences yield volumes >30 km23 for both deposits. VDADs of comparable scale come from Mount Shasta, USA; Socompa, Chile/Argentina; and Shiveluch, Russia. Currently, the modern edifice is 200-400m lower than the pre-collapse Barriles and Caisán summits and only 16-25% of the former edifice has been replaced since the last failure.

Ultraviolet digital imaging of volcanic plumes : implementation and application to magmatic processes at basaltic volcanoes

Magmatic volatiles play a crucial role in volcanism, from magma production at depth to generation of seismic phenomena to control of eruption style. Accordingly, many models of volcano dynamics rely heavily on behavior of such volatiles. Yet measurements of emission rates of volcanic gases have historically been limited, which has restricted model verification to processes on the order of days or longer. UV cameras are a recent advancement in the field of remote sensing of volcanic SO2 emissions. They offer enhanced temporal and spatial resolution over previous measurement techniques, but need development before they can be widely adopted and achieve the promise of integration with other geophysical datasets. Large datasets require a means by which to quickly and efficiently use imagery to calculate emission rates. We present a suite of programs designed to semi-automatically determine emission rates of SO2 from series of UV images. Extraction of high temporal resolution SO2 emission rates via this software facilitates comparison of gas data to geophysical data for the purposes of evaluating models of volcanic activity and has already proven useful at several volcanoes. Integrated UV camera and seismic measurements recorded in January 2009 at Fuego volcano, Guatemala, provide new insight into the system’s shallow conduit processes. High temporal resolution SO2 data reveal patterns of SO2 emission rate relative to explosions and seismic tremor that indicate tremor and degassing share a common source process. Progressive decreases in emission rate appear to represent inhibition of gas loss from magma as a result of rheological stiffening in the upper conduit. Measurements of emission rate from two closely-spaced vents, made possible by the high spatial resolution of the camera, help constrain this model. UV camera measurements at Kilauea volcano, Hawaii, in May of 2010 captured two occurrences of lava filling and draining within the summit vent. Accompanying high lava stands were diminished SO2 emission rates, decreased seismic and infrasonic tremor, minor deflation, and slowed lava lake surface velocity. Incorporation of UV camera data into the multi-parameter dataset gives credence to the likelihood of shallow gas accumulation as the cause of such events.

DIFFERENTIATING PATH AND SOURCE PROCESSES IN COMPLEX GEOLOGIC STRUCTURE THROUGH PASSIVE SEISMIC STUDIES: BERING GLACIER, ALASKA AND VILLARRICA VOLCANO, CHILE

Measuring shallow seismic sources provides a way to reveal processes that cannot be directly observed, but the correct interpretation and value of these signals depend on the ability to distinguish source from propagation effects. Furthermore, seismic signals produced by a resonating source can look almost identical to those produced by impulsive sources, but modified along the path. Distinguishing these two phenomena can be accomplished by examining the wavefield with small aperture arrays or by recording seismicity near to the source when possible. We examine source and path effects in two different environments: Bering Glacier, Alaska and Villarrica Volcano, Chile. Using three 3-element seismic arrays near the terminus of the Bering Glacier, we have identified and located both terminus calving and iceberg breakup events. We show that automated array analysis provided a robust way to locate icequake events using P waves. This analysis also showed that arrivals within the long-period codas were incoherent within the small aperture arrays, demonstrating that these codas previously attributed to crack resonance were in fact a result of a complicated path rather than a source effect. At Villarrica Volcano, seismometers deployed from near the vent to ~10 km revealed that a several cycle long-period source signal recorded at the vent appeared elongated in the far-field. We used data collected from the stations nearest to the vent to invert for the repetitive seismic source, and found it corresponded to a shallow force within the lava lake oriented N75°E and dipping 7° from horizontal. We also used this repetitive signal to search the data for additional seismic and infrasonic properties which included calculating seismic-acoustic delay times, volcano acoustic-seismic ratios and energies, event frequency, and real-time seismic amplitude measurements. These calculations revealed lava lake level and activity fluctuations consistent with lava lake level changes inferred from the persistent infrasonic tremor.