Search

Your search keyword '"Pivetta, T"' showing total 95 results
Start Over Author "Pivetta, T"
95 results on '"Pivetta, T"'

5. Mass-change And Geosciences International Constellation (MAGIC) expected impact on science and applications.

Author

Daras, I, March, G, Pail, R, Hughes, C W, Braitenberg, C, Güntner, A, Eicker, A, Wouters, B, Heller-Kaikov, B, Pivetta, T, and Pastorutti, A

Abstract

The joint ESA/NASA Mass-change And Geosciences International Constellation (MAGIC) has the objective to extend time-series from previous gravity missions, including an improvement of accuracy and spatio-temporal resolution. The long-term monitoring of Earth's gravity field carries information on mass change induced by water cycle, climate change and mass transport processes between atmosphere, cryosphere, oceans and solid Earth. MAGIC will be composed of two satellite pairs flying in different orbit planes. The NASA/DLR-led first pair (P1) is expected to be in a near-polar orbit around 500 km of altitude; while the second ESA-led pair (P2) is expected to be in an inclined orbit of 65°–70° at approximately 400 km altitude. The ESA-led pair P2 Next Generation Gravity Mission shall be launched after P1 in a staggered manner to form the MAGIC constellation. The addition of an inclined pair shall lead to reduction of temporal aliasing effects and consequently of reliance on de-aliasing models and post-processing. The main novelty of the MAGIC constellation is the delivery of mass-change products at higher spatial resolution, temporal (i.e. subweekly) resolution, shorter latency and higher accuracy than the Gravity Recovery and Climate Experiment (GRACE) and Gravity Recovery and Climate Experiment Follow-On (GRACE-FO). This will pave the way to new science applications and operational services. In this paper, an overview of various fields of science and service applications for hydrology, cryosphere, oceanography, solid Earth, climate change and geodesy is provided. These thematic fields and newly enabled applications and services were analysed in the frame of the initial ESA Science Support activities for MAGIC. The analyses of MAGIC scenarios for different application areas in the field of geosciences confirmed that the double-pair configuration will significantly enlarge the number of observable mass-change phenomena by resolving smaller spatial scales with an uncertainty that satisfies evolved user requirements expressed by international bodies such as IUGG. The required uncertainty levels of dedicated thematic fields met by MAGIC unfiltered Level-2 products will benefit hydrological applications by recovering more than 90 per cent of the major river basins worldwide at 260 km spatial resolution, cryosphere applications by enabling mass change signal separation in the interior of Greenland from those in the coastal zones and by resolving small-scale mass variability in challenging regions such as the Antarctic Peninsula, oceanography applications by monitoring meridional overturning circulation changes on timescales of years and decades, climate applications by detecting amplitude and phase changes of Terrestrial Water Storage after 30 yr in 64 and 56 per cent of the global land areas and solid Earth applications by lowering the Earthquake detection threshold from magnitude 8.8 to magnitude 7.4 with spatial resolution increased to 333 km. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

8. The Zagros Collisional Zone: An example of the interplay between shallow and deep structures

Author

Tesauro, M., Maierova, P., Koptev, A., Pastorutti, A., Pivetta, T., Koulakov, I., and Braitenberg, C.

Abstract

Subduction of the Neotethys Ocean resulted in collisions of continental plates, with formation of Cenozoic orogens. The different shapes and structures of various segments of these young orogens, such the Zagros Collisional Zone, suppose a complex interplay of shallow and deep structures, producing different degrees and styles of deformation. As part of the PRIN 2017 project, we analyze several types of recently acquired data (e.g., seismic tomography models of the crust and upper mantle, Moho depth, seismicity distribution, and surface topography). We find that the NW and central Zagros is characterized by a zone of thickened crust of variable width and overlain by topography that exhibits large height variations over small distances, in the central part of the collisional zone. These variations are accompanied by sharp lateral changes in the number of seismic events and velocities/temperatures at depths of ~100 km. We attribute these observations to relamination processes (i.e., the detachment of Arabian crust from the subducting lithospheric mantle and its underthrusting beneath the crust of the overriding plate), which are controlled by the variable geometry and stiffness of the overriding and subducting plates. This hypothesis is tested by performing a series of numerical experiments, using the numerical code I2VIS [1], that simulates relamination processes, occurring during continental collision. The consistency of the results is also verified through forward models of the static gravity field of the modelled structures, which are compared with the present-day observed gravity.References[1] Gerya, T.V., 2019. Cambridge University Press. ISBN 978-0-521-88754-0., The 28th IUGG General Assembly (IUGG2023) (Berlin 2023)

Published
2023
Full Text
View/download PDF

9. 800P Number needed to treat (NNT) and number needed to harm (NNH) to estimate clinical efficacy and safety of new adjuvant (Adj) therapies for resected stage (St) II-III melanoma

Author

Zara, D., primary, Pastò, B., additional, Garutti, M., additional, Bartoletti, M., additional, Palmero, L., additional, Bertoli, E., additional, Noto, C., additional, Cucciniello, L., additional, Totaro, F., additional, Rizzetto, M., additional, Pivetta, T., additional, Membrino, A., additional, Freschi, A., additional, Bolzonello, S., additional, and Puglisi, F., additional

Published
2022
Full Text
View/download PDF

10. A ground based gravity network for monitoring water mass movements in the Classical Karst region

Author

Pivetta, T., Braitenberg, C., Gabrovšek, F., Meurers, B., Gabriel, G., EGU General Assembly 2019, Pivetta, T., Braitenberg, C., Gabrovšek, F., Meurers, B., and Gabriel, G.

Subjects
gravity field, Karst, hydrogravimetry, timevarying, groundwater monitoring
Abstract

The Classical Karst is a limestone plateau stretching between Italy and Slovenia over an area of about 600km2.The aquifer of Classical Karst contains a complex network of conduits, shafts and large voids that are fed by theautogenic recharge and allogenic input of the Reka River. The Reka River sinks underground in the Škocjan Cavesand continues its underground flow for almost 40km until it reaches the Adriatic Sea at the Timavo Springs. Theriver shows high discharge variations; with minimal discharge below 0.3 m3/s and maximal discharge reachingover 350 m3/s. As the conduit system cannot efficiently drain large discharge, huge water masses are stored inthe epiphreatic voids of the aquifer during flood events. Škocjan Caves present such storage, where a vast amountof water is temporary stored during intense rain. Further evidences of the impressive water movements in thissystem could be found in the geodetic time-series recorded by the Grotta Gigante horizontal pendulums, whichshow deformation transients during Reka flood events. Gravimetry could be a useful tool to obtain local mass balances of such complex system, contributing together withthe other classical hydrologic prospections in depicting the water dynamics in this karstic environment. In additionto this gravimetry represents the ideal completion to the already set up geodetic instrumentation in the ClassicalKarst region. In the last year, we installed two continuous recording gravity stations, near the Škocjan caves and inside the GrottaGigante cave. The Škocjan caves serve as a test site because the cave geometry and the hydraulic system here arewell known. The Grotta Gigante site offers a quiet place and long term geodetic time-series but on the other hand,the hydrodynamics here are less clear. In this contribution, we present the simulations in support to the placement of the instruments and the first analysisconducted on the observed gravity time-series. For the Škocjan caves our simulations estimate that this mass accu-mulation could generate gravity signals up to 30 microGal for extreme events with peak discharge over 250m3/slasting for 1-1.5 days, accumulating over 35 106m3of water. The recorded data in Škocjan supports our simula-tions: a prominent peak up to 5 microGal of amplitude was recorded during a 14 106m3flood event on October2018. We believe that the Classical Karst represents an interesting study case for both the geodetic and hydrologic com-munities; the Škocjan cave offers a natural laboratory to optimally assess the contribution of gravimetry as a toolfor monitoring underground fluid mass movements.

Published
2019

11. Seamount growth to be observed in future satellite gravity missions

Author

Braitenberg, C., Barbolla, D. F., Brandolin, F., Pivetta, T., International Union of Geodesy and Geophysics, Braitenberg, C., Barbolla, D. F., Brandolin, F., and Pivetta, T.

Subjects
seamount
Abstract

Growing seamounts bear a hazard to navigation, especially if their summit reaches shallow depths and they reach the ocean surface. A seamount that expands up to the surface and creates an island, is detectable by remote sensing images, but not if the island retracts below the surface. Real time gravity observations detect the mass change independently of the optical detection, the limiting factor being only the noise level of the data acquisition in relation to the signal generated by the mass change. Starting from realistic size-frequency distributions of seamounts, we estimate the expected signals of seamount growth. We develop a method to compare the signal to the spectral noise characteristics of a GRACE-type mission, expandable to a possible mission with improved noise curve. We evaluate the expected gravity changes of seamounts and find that a noise curve of GRACE improved by a factor 10 would be sufficient to detect a realistic sea mount growth with a latency of 1 year. The detection threshold though has a tradeoff with the time resolution, since resolution improves for increased time periods over which the satellite observation can be averaged.

Published
2019

12. Tectonic and climate induced mass changes - competing signals in long term gravity signals

Author

Braitenberg, C., Pivetta, T., EGU General Assembly 2019, Braitenberg, C., and Pivetta, T.

Subjects
Tibet
Abstract

Several mountain ranges as Alps, Himalaya and Tibet are presently subject to uplift, as documented by GNSSvertical movement rates. Uplift occurs in response to climatic mass loss (deglaciation or hydrologic mass loss)or due to the dynamic forces (crustal compression or mantle inflow below uplifting crust). The uplift generates amass change, which produces a time variation of the gravity field. The deglaciation and changes in the subsurfacehydrologic budget, also generate a mass change, which sums to the tectonic change. Satellite remote sensingis useful in determining the shrinking outlines of glaciers, using both multispectral imaging as well as Radarobservations, thus allowing to determine the surface geometry change. The essential value for climate change andestimate of the hydrologic budget is though the total volume budget estimate, which requires also the thicknessvariation. Remote sensing catches the surface height changes, but these must be corrected for the crustal uplift. Thegeodetic measurements of the crustal dynamics of the Alpine and Himalayan mountain ranges in terms of heightand gravity changes, are therefore in close relation to the estimate of the climatic changes inducing glacier andhydrologic budget changes. We estimate the hydrologic and glacier signal for the Alps and Himalaya-Tibet, usingresults from remote sensing and subsurface hydrologic observations, where available (for the methodologicalrationale see Chen et al. 2018). We estimate the contribution of the dynamic uplift by direct observations ofGNSS. We find that the hydrologic and glacier gravity signal calculated at satellite heights of GRACE andGOCE are superposed to the tectonic signal, and discuss to which amount the signals can be resolved by gravitymeasurements. We compare the predicted signals with the satellite observations of GRACE and GOCE, findingthat the tectonic uplift signal is small relative to the expected glacier/hydrologic signals, but that it cannot beneglected. We define the requirements to future gravity satellites in order to make a significante contribution to thedetection of hydro-glacial mass changes and the separation of the tectonic signal.Reference:Chen W., Braitenberg, C., Serpelloni, E. (2018) Interference of tectonic signals in subsurface hydrologic monitor-ing through gravity and GPS due to mountain building, Global and Planetary Change, Volume 167, August 2018,Pages 148-159.

Published
2019

13. Regression parameters between topograpy and gravity as proxies of crustal densities on Earth and other planets

Author

Pivetta T., Braitenberg C., International Union of Geodesy and Geophysics, Pivetta, T., and Braitenberg, C.

Subjects
South Atlantic, Mar, isostasy, global gravity field, Mars, South America
Abstract

The statistical evaluation of the correlation between gravity and topography bears information on the isostatic state and the density inhomogeneities of the lithosphere. In appropriate spectral bands, the relation between gravity and topography is linear, and the coefficients depend on the underlying crust and subcrustal densities. We first explore the mutual linear gravity-topography spectral-dependent relations with synthetic lithosphere models, considering different geodynamic situations involving lateral crustal density variation, superficial density changes in topography, and different types of isostatically compensated models. We demonstrate the sensitivity of the regression parameters to the subsurface structure. A second important application is the residualization of the gravity field, useful in areas in which other geophysical constraints are scarse. On other planets topography and gravity field are globally available, and the regression analysis can be used for subsurface exploration and structural characterisation. We demonstrate the usefulness on the African and South American continent, and across the Atlantic ocean, using the gravity data of GOCE. One focus are the Greenstone belts, which are geologically interesting structures to which often mineralizations are associated.

Published
2019

14. Hydrologic induced deformation : Distinguish surface loading from pressure induced uplift

Author

Braitenberg, C., Pivetta, T., Grillo, B., Nagy, I., Barbolla, D. F., Devoti, R., Gabrovsek, F., Societa’ Italiana di Fisica, Giovanna Bianchi Bazzi, Braitenberg, C., Pivetta, T., Grillo, B., Nagy, I., Barbolla, D. F., Devoti, R., and Gabrovsek, F.

Subjects
uplift
Abstract

The observation of crustal deformation is a means to calculate the strain rates and the stress loading at faults. The strain rate is expected to vary in time during the earthquake cycle, but also due to hydrologic masses and fluxes. Hydrologic mass is an elastic loading of the crust, with a consequent lowering and return to the starting position. The opposite effect occurs in places in which the subsurface waters are constrained to flow in channels with consequent buildup of pressure of the water, which determines a surface uplift and deformation. This latter effect is present in karst areas, and in particular in the classical karst shared between Italy and Slovenia, where crustal deformation is measured with tiltmeters in caves and GPS at the surface.

Published
2019

15. Gravity changes due to mountain-building processes and their detectability with satellite gravity missions

Author

Braitenberg, C., Pivetta, T., International Symposium on Geodesy and Geodynamics (ISGG2018), Braitenberg, C., and Pivetta, T.

Subjects
Next generation gravity mission, tectonic gravity signal
Abstract

The Himalaya and Alps mountain ranges, and Tibetan plateau are presently subject to uplift, as documented by GNSS vertical movement rates. Uplift occurs in response to climatic mass loss (deglaciation or hydrologic mass loss) or due to the dynamic forces (crustal compression or mantle inflow below uplifting crust). The uplift generates a mass change, which produces a time variation of the gravity field. The deglaciation and changes in the subsurface hydrologic budget, also generate a mass change, which sums to the tectonic change. The shrinking outlines of glaciers are revealed by remote sensing, but the total volume budget estimate requires also the thickness variation. Remote sensing catches the surface height changes, but these must be corrected for the crustal uplift. The geodetic measurements of the crustal dynamics of the Alpine range in terms of height and gravity changes, is therefore in close relation to the estimate of the climatic changes inducing glacier and hydrologic budget changes. We show that for the Alps and Himalayas the hydrologic gravity signal is superposed to the tectonic signal, and discuss to which amount the signal can be resolved by gravity measurements (Braitenberg and Shum, 2015; Chen et al., 2018). We consider the satellite observations of GRACE and GOCE and propose what kind of error curve would be necessary for possible future gravity satellites to significantly increase the resolution.

Published
2018

16. Gravity from space by Cold Atom Interferometry: the MOCASS study and preliminary results

Author

Migliaccio, F., Reguzzoni, M., Batsukh, K., Tino, G., Rosi, G., Sorrentino, F., Braitenberg, C., Pivetta, T., Barbolla, DORA FRANCESCA, Zoffoli, S., European Geosciences Union, Migliaccio, F., Reguzzoni, M., Batsukh, K., Tino, G., Rosi, G., Sorrentino, F., Braitenberg, C., Pivetta, T., Barbolla, DORA FRANCESCA, and Zoffoli, S.

Subjects
GOCE, Atom Interferometry, geodetic satellite
Abstract

MOCASS (Mass Observation with Cold Atom Sensors in Space) is an on-going study project funded by the Italian Space Agency in the framework of preparatory activities for future missions and payloads of Earth Observation. The object of the proposal is an innovative satellite gravity mission based on advanced cold atom interferometry (CAI) accelerometers, with the aim of modelling the static and time-variable gravity field of the Earth with high accuracy and resolution and of monitoring mass variations that occur on and below the Earth surface. The basic idea is a GOCE mission follow-on, launching a unique spacecraft with an on-board instrument capable of measuring some functionals of the Earth gravitational potential. The improvement with respect to the GOCE mission concept can only be achieved by going beyond the technology of electrostatic gradiometers, taking advan- tage of a new generation of sensors, such as cold atom interferometers. In the framework of the MOCASS study, the instrument characteristics are defined in terms of long-term stability, accuracy, and spectral responses. Then simulations on gravity field recovery based on the space-wise approach already used for the GOCE data processing are implemented. Finally an analysis on the geophysical signals that can be detected given the simulated mission performance are performed, with particular attention to hydrologic and tectonic modelling of changing masses. First simulations have already been performed by considering the GOCE orbit parameters but assuming that a CAI gradiometer is on board the spacecraft. This allows direct comparisons between GOCE and MOCASS per- formances. Instrument error spectra have been defined depending on the orbit and CAI configurations, all of them characterized by a flat error spectrum in the low frequencies, differently from the one of the GOCE electrostatic accelerometers. Given the error spectrum and the interferometer integration spectral response, simulated obser- vations have been produced and processed by the space-wise approach, which basically consists in a sequential application of a Wiener filter, a local collocation gridding and a spherical harmonic analysis. From sample statis- tics, the accuracy of the recoverable gravity field model can then be evaluated and compared with the expected gravity signal from selected geophysical phenomena, e.g. orogen geodynamics and glacier melting. Although the study is at this time not complete, these preliminary investigations show promising results.

Published
2018

17. Alps uplift dynamic gravity signal

Author

Braitenberg C., Pivetta T., Serpelloni E., Chen W., European Geosciences Union, Braitenberg, C., Pivetta, T., Serpelloni, E., and Chen, W.

Subjects
Goce, Grace, geodynamic uplift, gravity change, Goce, Grace, geodynamic uplift, gravity change
Abstract

The Alpine and neighboring Dinarides and Appennine orogens are subject to uplift, as documented by the GNSS vertical movement rates. The uplift is caused by crustal compression and thickening and/or mantle inflow below an uplifting crust. The two end-members can be distinguished by the amount of gravity change rate, the thickening having a smaller gravity signal than the crustal uplift, because the mass surplus at the surface is compensated at the level of lower crust. We calculate the expected rates using the observed GNSS determined uplift rates as geometrical surface constraints, and defining the two end-member geodynamic models. We analyze the gravity change rates of GOCE and GRACE and compare them with the expected rates. Hydrology must be considered in this context, as it contributes to a competing gravity change rate signal that is superposed to the tectonic signal. We find that the predicted signal is measurable, and that lateral changes in the sign of the observed gravity rates over the Alpine range have no counterpart in the ongoing uplift. We analyze possible candidates for this latter signal.

Published
2018

18. GOCE mission follow-on by cold atom technology: the MOCASS study

Author

Migliaccio F., Reguzzoni M., Batsukh K., Tino G., Rosi G., Sorrentino F., Braitenberg C., Pivetta T, Barbolla D. B., Zoffoli S., Rene Forsberg, Migliaccio, F., Reguzzoni, M., Batsukh, K., Tino, G., Rosi, G., Sorrentino, F., Braitenberg, C., Pivetta, T, Barbolla, D. B., and Zoffoli, S.

Subjects
Next generation gravity mission, Next generation gravity mission, tectonic gravity signal, tectonic gravity signal
Abstract

MOCASS (Mass Observation with Cold Atom Sensors in Space) is a study project funded by the Italian Space Agency in the framework of preparatory activities for future missions and payloads of Earth Observation. The idea is to propose a GOCE mission follow-on, launching a unique spacecraft with an on-board gradiometer based on advanced cold atom interferometry (CAI) accelerometers and capable of measuring Earth’s gravity gradients along one or two orthogonal directions. The MOCASS project aims at investigating whether this mission concept can improve GOCE results in terms of accuracy and resolution of the estimated gravity field model, and the capability of detecting mass distribution and monitoring mass variations. To this purpose, firstly the instrument characteristics are defined in terms of long-term stability, accuracy, and spectral responses. Then simulations on gravity field recovery based on the space-wise approach already used for the GOCE data processing are implemented. Finally, an analysis on the geophysical signals that can be detected given the simulated mission performance is made. Simulations were assembled by considering real GOCE orbits at different altitudes, but assuming that a CAI gradiometer is on board the spacecraft. This allows a direct comparison between GOCE and MOCASS performances. Instrumental error spectra were defined depending on the orbit and the orientation of the CAI gradiometer arms, considering both a nadir-pointing satellite and an inertial-pointing one. For each configuration, the effect of the satellite angular velocity was computed from the time series of the GOCE orbit coordinates at different altitudes. The resulting instrumental error shows a flat spectrum in the low frequencies, differently from the one of the GOCE electrostatic accelerometers. On the other hand, the interferometer transfer function introduces a strong correlation between close observations. Given the error spectra and the interferometer integration spectral response, observations of gravity gradients were first simulated and then processed by the space-wise approach, which basically consists in a sequential application of a Wiener filter deconvolution, a local collocation gridding and a spherical harmonic analysis. From Monte Carlo sample statistics, the estimation error of the retrieved gravity field model was evaluated for the different mission configurations, showing an improvement in both accuracy and resolution with respect to GOCE. This estimation error was finally compared with the expected gravity signal from selected geophysical phenomena. In particular, the focus was on the India-Tibet region, which involves important and different movements of mass through time and comprises several different crustal structures. The results show that both time-varying gravity signals, like those due to the Tibet-Himalaya glacier melting and crustal uplift, and static gravity signals, like those due to the India seamounts, could be detected by the MOCASS mission.

Published
2018

19. Gravimetry for monitoring water movements : the Classic Karst as a natural laboratory

Author

Pivetta T., Braitenberg C., European Geosciences Union, Pivetta, T., and Braitenberg, C.

Subjects
hydrogeophysic, hydrogeophysics, ground water monitoring, classical Karst, gravimetry
Abstract

The Karst environment is characterized by a peculiar water system circulation, governed by a network of conduits in which the water flows. The name Karst is derived from the Classic Karst region which is located across Italy, Slovenia and Croatia borders. This area gave name to the phenomenon because it was one of the first worldwide to be studied and it is still object of many researches and hosts an important monitoring network. In this area the water is supplied mainly by infiltration during the autumn-spring rainfall events but also from the Reka river that sinks in the Škocjan caves and then flows underground up to the Timavo Springs. The water path is very well known near the Škocjan cave where the water inflow from the Reka river and the rain fall are continuously monitored and also the karst conduits have been mapped directly by speleology inspection. Such data are indispensable in order to construct and constrain 2D hydraulic models that explain very well the water dynamics in the area. However in Skocjan the water circulation is superficial while in other parts of the Karst the water flows deeper underground: in the Grotta Gigante, a natural cave, the water flow is located over 200m below the surface. Its movement could be hardly monitored by direct observation and also modelling is limited due to the lack of a 3D model of the aquifer. Indirect geophysical methods, in particular gravimetry, could be exploited in order to obtain some constraints for the underground conduits and cavities and also to gain information about the water mass movements through time. In this contribution we present some preliminary synthetic models for assessing the gravity signals expected for the underground cavities typical for the karstic area. In addition we evaluate the time gravity field change during strong rainfall events where the water is expected to fill the conduits and cavities. In future we will take advantage of these models to place a continuous gravity meter that cuold be useful to constrain the water fluxes in area where a direct observation of the water is difficult.

Published
2018

21. GOCE and future gravity missions for geothermal energy exploitation

Author

Alberto Pastorutti, Braitenberg, C., Pivetta, T., Mariani, P., L. Ouwehand, Pastorutti, Alberto, Braitenberg, Carla, Pivetta, TOMMASO FERRUCCIO MARIA, and Mariani, P.

Subjects
GOCE, geothermal energy, gravity, GOCE, renewable energy, geothermal energy, renewable energy, gravity
Abstract

Geothermal energy is a valuable renewable energy source the exploitation of which contributes to the worldwide reduction of consumption of fossil fuels oil and gas. The exploitation of geothermal energy is facilitated where the thermal gradient is higher than average leading to increased surface heat flow. Apart from the hydrologic circulation properties which depend on rock fractures and are important due to the heat transportation from the hotter layers to the surface, essential properties that increase the thermal gradient are crustal thinning and radiogenic heat producing rocks. Crustal thickness and rock composition form the link to the exploration with the satellite derived gravity field, because both induce subsurface mass changes that generate observable gravity anomalies. The recognition of gravity as a useful investigation tool for geothermal energy lead to a cooperation with ESA and the International Renewable Energy Agency (IRENA) that included the GOCE derived gravity field in the online geothermal energy investigation tool of the IRENA database. The relation between the gravity field products as the free air gravity anomaly, the Bouguer and isostatic anomalies and the heat flow values is though not straightforward and has not a unique relationship. It is complicated by the fact that it depends on the geodynamical context, on the geologic context and the age of the crustal rocks. Globally the geological context and geodynamical history of an area is known close to everywhere, so that a specific known relationship between gravity and geothermal potential can be applied. In this study we show the results of a systematic analysis of the problem, including some simulations of the key factors. The study relies on the data of GOCE and the resolution and accuracy of this satellite. We also give conclusions on the improved exploration power of a gravity mission with higher spatial resolution and reduced data error, as could be achieved in principle by flying an atom interferometer sensor on board a satellite.

Published
2016

23. GOCE observations in exploration geophysics

Author

Braitenberg, Carla, Mariani, Patrizia, Pivetta, T., ESA, Braitenberg, Carla, Mariani, Patrizia, and Pivetta, T.

Subjects
GOCE, geologic structures, EGM08, quality data, terrestrial data
Abstract

The satellite GOCE has produced an extraordinary global gravity field with a spatial resolution of 80 km at a precision of 1-2 mGal. When considering geologic structures, the wavelengths of interest for exploration purposes are smaller. We show that the GOCE data produce a new quality assessment tool for fields of higher resolution, which all necessarily rely on terrestrial data. The space-borne control of terrestrial data is necessary in order to obtain 100% reliability of existing data or to assess the quality of newly acquired data. We propose a scheme for controlling and testing the quality of higher resolution data, for example airborne campaigns or the EGM08 global gravity field. EGM08 has the higher resolution of 10 km, but with varying quality, depending on the terrestrial data availability. We show how the quality assessment can be made using the GOCE data, giving confidence in the successive modelling results. Specifically we consider the African continent. Africa is an example where terrestrial data area scarce and where the reliability of EGM08 is very variable, jeopardizing the usefulness of the field if the quality assessment with the GOCE da is not fulfilled.

Published
2011

31. Essential oil composition and variability of Laurus nobilis L. growing in Tunisia, comparison and chemometric investigation of different plant organs.

Author

Marzouki, H., Piras, A., Salah, K. Bel Haj, Medini, H., Pivetta, T., Bouzid, S., Marongiu, B., and Falconieri, D.

Abstract

Stems, leaves, buds and flowers of Laurus nobilis L. growing wild in Tunisia were analysed for their essential oil composition. The essential oil of Laurus nobilis L. gathered from different stations were isolated by hydrodistillation and analysed by GC/MS. The oil yields on a dry weight basis ranged between 0.4% and 1.1%. The major component identified was 1,8-cineole, other predominant components were α-terpinyl acetate, methyl eugenol, eugenol and linalool. Although the same compounds were present in all plant organs, the leaves differed from the stems in the concentration of 1,8-cineole and methyl eugenol, buds and flowers in the concentration of 1,8-cineole and the stem's oil composition differs from the others in content of methyl eugenol. The results obtained from GC/MS analysis of the volatile oils from individual plant organs were submitted to principal component analysis. Chemometric investigations led to differentiation of stems, leaves and buds-flowers with the respect to the content of 1,8-cineole, metyhyl eugenol and α-terpynil acetate; flowers and buds were non-differentiated. Finally, the antibacterial activity of the leaves' essential oils has been assayed. [ABSTRACT FROM AUTHOR]

Published
2009
Full Text
View/download PDF

35. Geophysical Challenges for Future Satellite Gravity Missions: Assessing the Impact of MOCASS Mission

Author

Carla Braitenberg, Tommaso Pivetta, D. F. Barbolla, Pivetta, T., Braitenberg, C., and Barbolla, D. F.

Subjects
geography, Water mass, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, GOCE-FO geodetic satellite, Cold atom interferometric gradiometry, Geodetic datum, Glacier, 010502 geochemistry & geophysics, Geodesy, seamounts gravity signal, 01 natural sciences, Tectonics, Geophysics, Geochemistry and Petrology, Deglaciation, Cryosphere, glaciers gravity signal, Satellite, Geology, tectonic movement gravity signal, 0105 earth and related environmental sciences, Hydrosphere
Abstract

The GRACE/GRACE-FO satellites have observed large scale mass changes, contributing to the mass budget calculation of the hydro-and cryosphere. The scale of the observable mass changes must be in the order of 300 km or bigger to be resolved. Smaller scale glaciers and hydrologic basins significantly contribute to the closure of the water mass balance, but are not detected with the present spatial resolution of the satellite. The challenge of future satellite gravity missions is to fill this gap, providing higher temporal and spatial resolution. We assess the impact of a geodetic satellite mission carrying on board a cold atom interferometric gradiometer (MOCASS: Mass Observation with Cold Atom Sensors in Space) on the resolution of simulated geophysical phenomena, considering mass changes in the hydrosphere and cryosphere. Moreover, we consider mass redistributions due to seamounts and tectonic movements, belonging to the solid earth processes. The MOCASS type satellite is able to recover 50% smaller deglaciation rates over a mountain range as the High Mountains of Asia compared to GRACE, and to detect the mass of 60% of the cumulative number of glaciers, an improvement respect to GRACE which detects less than 20% in the same area. For seamounts a significantly smaller mass eruption could be detected with respect to GRACE, reaching a level of mass detection of a submarine basalt eruption of 1.6 109 m3. This mass corresponds to the eruption of Mount Saint Helens. The simulations demonstrate that a MOCASS type mission would significantly improve the resolution of mass changes respect to existing geodetic satellite missions.

Published
2021

36. MOCASS: A Satellite Mission Concept Using Cold Atom Interferometry for Measuring the Earth Gravity Field

Author

G. Rosi, Khulan Batsukh, Carla Braitenberg, Fiodor Sorrentino, Simona Zoffoli, Dora Francesca Barbolla, Mirko Reguzzoni, Tommaso Pivetta, Federica Migliaccio, Guglielmo M. Tino, Migliaccio, F., Reguzzoni, M., Batsukh, K., Tino, G. M., Rosi, G., Sorrentino, F., Braitenberg, C., Pivetta, T., Barbolla, D. F., and Zoffoli, S.

Subjects
Mass distribution, Gravity (chemistry), 010504 meteorology & atmospheric sciences, Satellite gradiometry, 010502 geochemistry & geophysics, 01 natural sciences, Gravitational field, Earth gravity field, Cold atom interferometry, Geophysical phenomena, Spherical harmonics, Geochemistry and Petrology, Aerospace engineering, 0105 earth and related environmental sciences, business.industry, Earth gravity field, Cold atom interferometry, Satellite gradiometry, Geophysical phenomena, Mass distribution, Spherical harmonics, Earth mass, Gradiometer, Geophysics, Gravity of Earth, Orbit (dynamics), Satellite, business, Geology
Abstract

Both GRACE and GOCE have proven to be very successful missions, providing a wealth of data which are exploited for geophysical studies such as climate changes, hydrology, sea level changes, solid Earth phenomena, with benefits for society and the whole world population. It is indispensable to continue monitoring gravity and its changes from space, so much so that a GRACE follow-on mission has been launched in 2018. In this paper, a new satellite mission concept named MOCASS is presented, which can be considered as a GOCE follow-on, based on an innovative gradiometer exploiting ultra-cold atom technology and aimed at monitoring Earth mass distribution and its variations in time. The technical aspects regarding the payload will be described, illustrating the measurement principle and the technological characteristics of a cold atom interferometer that can measure gravity gradients. The results of numerical simulations will be presented for a one-arm and a two-arm gradiometer and for different orbit configurations, showing that an improvement with respect to GOCE could be obtained in the estimate of the static gravity field over all the harmonic spectrum (with an expected error of the order of 1 mGal at degree 300 for a 5-year mission) and that estimates are promising also for the time-variable gravity field (although GRACE is still performing better at very low degrees). Finally, the progress achievable by exploiting MOCASS observations for the detection and monitoring of geophysical phenomena will be discussed: the results of simulations of key geophysical themes (such as mass changes due to hydrology, glaciers and tectonic effects) with expected gravity change-rates, time constants and corresponding wavelengths, show that an improvement is attainable and that signals invisible to past satellites could be detected by exploiting the cold atom technology.

Published
2019

37. Gravimetry and petrophysics for defining the intracratonic and rift basins of the Western-Central Africa zone

Author

Carla Braitenberg, Tommaso Pivetta, Francesca Maddaloni, Maddaloni, F., Pivetta, T., and Braitenberg, C.

Subjects
Rift, Chad, Ocean current, Petrophysics, Central africa, gravimetry, Paleontology, Geophysics, Gravitational field, Geochemistry and Petrology, Satellite, Gravimetry, Geology
Abstract

The global gravity field obtained from the observations of the satellite Gravity Field and Steady-State Ocean Circulation Explorer (GOCE) satellite offers new opportunities in defining density variations of earth’s crust and mantle, allowing new insights into the structure of specific geologic features. The Central African Rift is a key feature in understanding the dismemberment of Gondwana, and we contribute to defining the crustal density structure underlying the rift. The presence of a narrow and up to 12 km deep basin implies crustal stretching allowed the sediment to accumulate, but a key question is whether the stretching processes also affected the deeper layers of the crust or was limited to the upper crust. The study area includes a subbasin of the greater Chad sag basin, which extends over 1500 × 1500 km and occupies the center of North-Central Africa, shared between the countries of Chad, Sudan, Nigeria, Niger, Algeria, Libya, and Cameroon. We find that the rifting affected the lower crust of the West African Rift, and we evaluate evidence for a 1500 km long and several km thick magmatic crustal intrusion presumably associated with underplating and crustal thinning. We estimate that the stretching factor must be at least 1.5 and had affected the entire crust. To our knowledge, the identification of a continuous body of magmatic intrusions is new and has been only possible through the recent global gravity field. The magmatism has altered the thermal conditions from the time of emplacement on, and it is relevant for the maturation of hydrocarbons present in the sediments. The timing of the magmatism is presumably tied to two pulses of volcanism documented in the rift, associated with the first postrift phase from 96 to 88 Ma and the second postrift phase from 23 Ma up to the Quaternary.

Published
2021

38. Gravity as a tool to improve the hydrologic mass budget in karstic areas

Author

Carla Braitenberg, Gerald Gabriel, Bruno Meurers, Tommaso Pivetta, Franci Gabrovšek, Pivetta, T., Braitenberg, C., Gabrovsek, F., Gabriel, G., and Meurers, B.

Subjects
Water mass, Technology, subsurface hydrologic monitoring, subsurface mass changes, Environmental technology. Sanitary engineering, oceanic tidal variations, Drainage system (geomorphology), non-tidal oceanic variations, gravity field, oceanic tidal variation, Geography. Anthropology. Recreation, GE1-350, Gravimetry, TD1-1066, General Environmental Science, Hydrology, geography, geography.geographical_feature_category, Water Movements, Gravimeter, Water storage, General Engineering, Groundwater recharge, Karst, Environmental sciences, non-tidal oceanic variation, Environmental science, General Earth and Planetary Sciences
Abstract

Monitoring the water movements in karstic areas is a fundamental but challenging task due to the complexity of the drainage system and the difficulty in deploying a network of observations. Gravimetry offers a valid complement to classical hydrologic measurements in order to characterize such systems in which the recharge process causes temporarily accumulation of large water volumes in the voids of the epi-phreatic system. We show an innovative integration of gravimetric and hydrologic observations that constrains a hydrodynamic model of the Škocjan cave system (Slovenia). We demonstrate how the inclusion of gravity observations improves water mass budget estimates for the Škocjan area based on hydrological observations only. Finally, the detectability of water storage variations in other karstic contexts is discussed with respect to the noise performances of spring and super-conducting gravimeters.

Published
2021

39. Sensitivity of gravity and topography regressions to earth and planetary structures

Author

Carla Braitenberg, Tommaso Pivetta, Pivetta, T., and Braitenberg, C.

Subjects
Gravity (chemistry), Topography, Isostasy, 010504 meteorology & atmospheric sciences, Planets, Mars, 010502 geochemistry & geophysics, 01 natural sciences, Physics::Geophysics, Oceanic crust, Lithosphere, Bathymetry, Physics::Atmospheric and Oceanic Physics, 0105 earth and related environmental sciences, Earth-Surface Processes, geography, geography.geographical_feature_category, Continental crust, Crustal units, Crust, Geophysics, Ridge, Global gravity field, Geology, Global gravity field, Topography, Isostasy, Crustal units, Planets, Mars
Abstract

The availability of global gravity fields and topography through calculation services like the International Centre for Global Earth Models, allows easy access to gravity data, greatly enlarging the spectrum of users. The applications extend much farther than the classic modeling through the gravity-specialist. We investigate the sensitivity of the joint analysis of topography and gravity data based on linear regression analysis and clustering of the response to particular characteristics of the lithosphere structure. The parameters of the regression analysis are predicted to have characteristic values, which allow to distinguish continental crust from oceanic crust, and signalize the presence of crustal inhomogeneity. Predictions are made through theoretical considerations and on synthetic models. We use the South Atlantic Ocean and the confining South American and African continents for illustration, where the regression parameters distinguish oceanic crust from the ridge up to the bathymetric inflection point, from the transitional crust and the continental crust, allowing to map these units. The general properties of the parameters are statistically relevant, since the errors on the parameters are less than 10% the amplitude of the parameters. We compare the regression parameters with those produced by a global crustal model (CRUST1.0), and find good correspondence between the observed and predicted fields. The analysis can be applied with machine learning algorithms, without the need of specific forward or inverse gravity modeling skills. It is therefore particularly useful in view of the enhanced access to the data through the calculation service, and could be implanted as an add-on tool, since it allows to efficiently distinguish isostatic contribution to the gravity field from crustal sources. Given the experience on the gravity field of the Earth, the analysis can be analogously extended to other planets. For illustration, we show that for Mars a coherent class of Martian crust can be identified.

Published
2020

40. Terrain uplift due to natural hydrologic overpressure in karstic conduits

Author

Carla Braitenberg, Dora Francesca Barbolla, Franci Gabrovšek, Roberto Devoti, Tommaso Pivetta, Ildikò Nagy, Braitenberg, C., Pivetta, T., Barbolla, D. F., Gabrovšek, F., Devoti, R., and Nagy, I.

Subjects
0301 basic medicine, GPS, overpressure, lcsh:Medicine, Karst, hydrology, Deformation (meteorology), Induced seismicity, tilt, Article, Natural (archaeology), 03 medical and health sciences, 0302 clinical medicine, Hydrology (agriculture), Precipitation, lcsh:Science, Geomorphology, geography, Multidisciplinary, geography.geographical_feature_category, GNSS, Flood myth, lcsh:R, Overpressure, 030104 developmental biology, lcsh:Q, 030217 neurology & neurosurgery, Geology
Abstract

Water supply from karst sources is a worldwide natural resource and the exploitation is tied to the knowledge of the positions of the hydrologic channels. We show that surface deformation induced by flood events in karst conduits is observable, and consists in uplift and outward movement from the hydraulic channel. Precipitation events produce the natural occurrence of subsurface hydraulic overpressure up to 1 MPa. Numerical modeling shows that the stresses are so strong to uplift and dislocate the surface by several mm and induce tilts in the order of microradians. The naturally induced deformation is compatible with a transient internal pressure loading of a channel. The results can be used to find new channels with dense GNSS networks. Sea water incursion and channels accessed for tourism could be monitored. Seismicity has been shown to have a seasonal variation in some areas, which could be explained by the subsurface stresses induced by the natural subsurface overpressure. The pressure induced deformation is expected to be observed in all karstic systems worldwide.

Published
2019

41. Water mass movements in Classical Karst depicted by continuous gravity measurements

Author

Pivetta, TOMMASO FERRUCCIO MARIA, Braitenberg, Carla, Franci, Gabrovšek, Bruno, Meurers, Gerald, Gabriel, Pivetta, T., Braitenberg, C. F., Gabrovšek, F., Meurers, B., Gabriel, G., Pivetta, TOMMASO FERRUCCIO MARIA, Braitenberg, Carla, Gabrovšek, Franci, Meurers, Bruno, and Gabriel, Gerald

Subjects
Monitoring and Modeling Environmental Processes, Applied Terrestrial Gravimetry, Hydrology, Applied Terrestrial Gravimetry, Monitoring and Modeling Environmental Processes, Hydrology
Abstract

Depicting the water dynamics in a Karst environment frequently represents a challenge due to the more complex drainage system compared to porous media and to logistic difficulties in deploying an efficient monitoring network. The observations of key physical parameters such as discharge are usually carried out sparsely and only if a direct access to the drainage channels is possible. For this reason, indirect geophysical methods, such as gravimetry, could be a valid complement to hydrological prospections to study the hydrodynamics of such systems. A typical karst environment is the “Carso/Kars” region, which is a 600km2 limestone aquifer, shared between Italy and Slovenia. The aquifer is constituted by an extended network of caves, shafts, and conduits fed by autogenic water and the allogenic contribution of the Reka river. The Reka river sinks in the Škocjan caves and continues its underground flow for over 30 km, finally outflowing in the Adriatic sea at the Timavo Springs. The river shows high discharge variability between dry and wet periods (0.3- 350 m3/s) and as the karst conduit system cannot efficiently drain large discharge, huge water masses are temporarily stored in the epiphreatic voids during flood events. In July 2018 we installed a gravimeter near the Škocjan caves with the aim to monitor continuously the water variations. In this contribution, we present the gravity data and the processing in order to remove tidal and other non-hydrologic components and, thus, to decipher the gravity variations linked to the Karst water circulation. Some challenges in the processing arise since the study area is close to the Adriatic sea, where marine tidal and non-tidal contributions are unneglectable. Our gravity measurements revealed many effects that are linked to the local hydrology: one important event flooded the caves in February 2019 causing a gravity change of 40 microGal. The event is compatible with the gravity estimate derived from a hydraulic model of the cave which reported an accumulation of about 10 106 m3 of water in the whole cave system in 1.5 days. The case discussed in this contribution represents a first promising application of gravimetry for tracking the water paths in the Classical Karst, easily applicable to other sectors of the Karst for which only little information about the hydrological system exist.

Published
2019

42. Tumour infiltrating lymphocytes and PD-L1 expression as potential predictors of outcome in patients with malignant pleural mesothelioma

Author

Daniele Generali, Navid Sobhani, Fabrizio Zanconati, Fabiola Giudici, Marco Confalonieri, Silvia Paola Corona, Deborah Bonazza, Giandomenico Roviello, M. Cortale, M. Milione, A. Guglielmi, Cristina Bottin, Anna Ianza, T. Pivetta, Clara Rizzardi, Sobhani, N, Roviello, G, Pivetta, T, Ianza, A, Bonazza, D, Zanconati, F, Giudici, F, Bottin, C, Corona, Sp, Guglielmi, A, Rizzardi, C, Milione, M, Cortale, M, Confalonieri, M, and Generali, D.

Subjects
0301 basic medicine, Oncology, Male, Mesothelioma, Immunotherapy, Malignant pleural mesothelioma, Programmed cell death-ligand 1, Tumour-infiltrating lymphocytes, Lung Neoplasms, Survival, medicine.medical_treatment, Kaplan-Meier Estimate, Clinical-Trial, B7-H1 Antigen, 0302 clinical medicine, Cancer, Phase-III, Aged, 80 and over, General Medicine, Middle Aged, Prognosis, Immunohistochemistry, Treatment Outcome, 030220 oncology & carcinogenesis, Pd l1 expression, Female, Adult, medicine.medical_specialty, Pleural Neoplasms, T-Cells, chemical and pharmacologic phenomena, Neoadjuvant chemotherapy, Programmed cell death ligand 1, 03 medical and health sciences, Lymphocytes, Tumor-Infiltrating, Stroma, Internal medicine, Statistical significance, Genetics, medicine, Biomarkers, Tumor, Humans, In patient, Molecular Biology, Aged, Retrospective Studies, Pleural mesothelioma, business.industry, Tumour-infiltrating lymphocyte, Mesothelioma, Malignant, medicine.disease, T-Cell, 030104 developmental biology, business, Transcriptome
Abstract

Malignant pleural mesothelioma (MPM) is a rare and aggressive form of tumour. Some mesotheliomas have been proven to be highly immunogenic. Here, we investigated the correlation between tumour infiltrating lymphocytes (TILs) or programmed cell death ligand 1 (PD-L1) expression with overall survival (OS) in patients with MPM. 62 Paraffin-embedded formalin fixed (PEFF) samples were analysed for TILs and PD-L1 expression. Patients were divided in 4 groups according to a cut-off of the percentage of TILs found per sample as measured by immunohistichemistry: “0” or absent (between 0 and 5%), “1” or low (between 6 and 25%), “2” or moderate (between 26 and 50%) and “3” or high (between 51 and 75%). OS was then correlated with different TILs’ expression patterns. Moreover, PD-L1 expression was assessed within the tumour as well as in the adjacent stroma on the same samples. Higher expression of peritumoral TILs (Group 2 + 3) versus Group 0 and 1 correlated with improved OS (p-value = 0.02). On the contrary PD-L1 expression seemed to be inversely correlated with clinical outcomes, even in the absence of statistical significance (HR 1.76; p = 0.083 95% IC 0.92–3.36 in areas within the tumour; HR 1.60; p = 0.176 95%; IC 0.80–3.19 in areas within the stroma). No relationship between TILs and PD-L1 expression was identified. Our research supports the use of TILs and PD-L1 expression as potential outcome predictors in patients with MPM. The use of TILs and PD-L1 as biomarkers for checkpoint inhibitors’ efficacy warrants future investigation.

Published
2018

43. Metabolism of primary high-grade serous ovarian carcinoma (HGSOC) cells under limited glutamine or glucose availability.

Author

Šimčíková D, Gardáš D, Pelikán T, Moráň L, Hruda M, Hložková K, Pivetta T, Hendrych M, Starková J, Rob L, Vaňhara P, and Heneberg P

Abstract

Background: High-grade serous ovarian carcinoma (HGSOC) is the most common and aggressive subtype of epithelial ovarian carcinoma. It is primarily diagnosed at stage III or IV when the 5-year survival rate ranges between 20% and 40%. Here, we aimed to validate the hypothesis, based on HGSOC cell lines, that proposed the existence of two distinct groups of HGSOC cells with high and low oxidative phosphorylation (OXPHOS) metabolism, respectively, which are associated with their responses to glucose and glutamine withdrawal., Methods: We isolated and cultivated primary cancer cell cultures from HGSOC and nontransformed ovarian fibroblasts from the surrounding ovarium of 45 HGSOC patients. We tested the metabolic flexibility of the primary cells, particularly in response to glucose and glutamine depletion, analyzed and modulated endoplasmic reticulum stress, and searched for indices of the existence of previously reported groups of HGSOC cells with high and low OXPHOS metabolism., Results: The primary HGSOC cells did not form two groups with high and low OXPHOS that responded differently to glucose and glutamine availabilities in the cell culture medium. Instead, they exhibited a continuum of OXPHOS phenotypes. In most tumor cell isolates, the responses to glucose or glutamine withdrawal were mild and surprisingly correlated with those of nontransformed ovarian fibroblasts from the same patients. The growth of tumor-derived cells in the absence of glucose was positively correlated with the lipid trafficking regulator FABP4 and was negatively correlated with the expression levels of HK2 and HK1. The correlations between the expression of electron transport chain (ETC) proteins and the oxygen consumption rates or extracellular acidification rates were weak. ER stress markers were strongly expressed in all the analyzed tumors. ER stress was further potentiated by tunicamycin but not by the recently proposed ER stress inducers based on copper(II)-phenanthroline complexes. ER stress modulation increased autophagy in tumor cell isolates but not in nontransformed ovarian fibroblasts., Conclusions: Analysis of the metabolism of primary HGSOC cells rejects the previously proposed hypothesis that there are distinct groups of HGSOC cells with high and low OXPHOS metabolism that respond differently to glutamine or glucose withdrawal and are characterized by ETC protein levels., (© 2024. The Author(s).)

Published
2024
Full Text
View/download PDF

44. Intact cell mass spectrometry coupled with machine learning reveals minute changes induced by single gene silencing.

Author

Pečinka L, Moráň L, Kovačovicová P, Meloni F, Havel J, Pivetta T, and Vaňhara P

Abstract

Intact (whole) cell MALDI TOF mass spectrometry is a commonly used tool in clinical microbiology for several decades. Recently it was introduced to analysis of eukaryotic cells, including cancer and stem cells. Besides targeted metabolomic and proteomic applications, the intact cell MALDI TOF mass spectrometry provides a sufficient sensitivity and specificity to discriminate cell types, isogenous cell lines or even the metabolic states. This makes the intact cell MALDI TOF mass spectrometry a promising tool for quality control in advanced cell cultures with a potential to reveal batch-to-batch variation, aberrant clones, or unwanted shifts in cell phenotype. However, cellular alterations induced by change in expression of a single gene has not been addressed by intact cell mass spectrometry yet. In this work we used a well-characterized human ovarian cancer cell line SKOV3 with silenced expression of a tumor suppressor candidate 3 gene (TUSC3). TUSC3 is involved in co-translational N-glycosylation of proteins with well-known global impact on cell phenotype. Altogether, this experimental design represents a highly suitable model for optimization of intact cell mass spectrometry and analysis of spectral data. Here we investigated five machine learning algorithms (k-nearest neighbors, decision tree, random forest, partial least squares discrimination, and artificial neural network) and optimized their performance either in pure populations or in two-component mixtures composed of cells with normal or silenced expression of TUSC3. All five algorithms reached accuracy over 90 % and were able to reveal even subtle changes in mass spectra corresponding to alterations of TUSC3 expression. In summary, we demonstrate that spectral fingerprints generated by intact cell MALDI-TOF mass spectrometry coupled to a machine learning classifier can reveal minute changes induced by alteration of a single gene, and therefore contribute to the portfolio of quality control applications in routine cell and tissue cultures., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Author(s).)

Published
2024
Full Text
View/download PDF

45. A novel heteroleptic Cu(II)-phenanthroline-UDCA complex as lipoxygenase inhibitor and ER-stress inducer in cancer cell lines.

Author

Masuri S, Moráň L, Vesselá T, Cadoni E, Cabiddu MG, Pečinka L, Gabrielová V, Meloni F, Havel J, Vaňhara P, and Pivetta T

Subjects
Ursodeoxycholic Acid pharmacology, Phenanthrolines chemistry, Copper pharmacology, Copper chemistry, Molecular Docking Simulation, Endoplasmic Reticulum Stress, Cell Line, Enzyme Inhibitors pharmacology, Apoptosis, Pancreatic Neoplasms, Lipoxygenase Inhibitors pharmacology, Neoplasms
Abstract

A new heteroleptic copper(II) compound named C0-UDCA was prepared by reaction of [Cu(phen) 2 (OH 2 )](ClO 4 ) 2 (C0) with the bile ursodeoxycholic acid (UDCA). The resulting compound is able to inhibit the lipoxygenase enzyme showing more efficacy than the precursors C0 and UDCA. Molecular docking simulations clarified the interactions with the enzyme as due to allosteric modulation. The new complex shows antitumoral effect on ovarian (SKOV-3) and pancreatic (PANC-1) cancer cells at the Endoplasmic Reticulum (ER) level by activating the Unfolded Protein Response. In particular, the chaperone BiP, the pro-apoptotic protein CHOP and the transcription factor ATF6 are upregulated in the presence of C0-UDCA. The combination of Intact Cell MALDI-MS and statistical analysis have allowed us to discriminate between untreated and treated cells based on their mass spectrometry fingerprints., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published
2023
Full Text
View/download PDF

46. Cyclin-Dependent Kinase 4/6 Inhibitors Beyond Progression in Metastatic Breast Cancer: A Retrospective Real-World Biomarker Analysis.

Author

Gerratana L, Davis AA, Velimirovic M, Reduzzi C, Clifton K, Bucheit L, Hensing WL, Shah AN, Pivetta T, Dai CS, D'Amico P, Wehbe F, Medford A, Wander SA, Gradishar WJ, Behdad A, Ma CX, Puglisi F, Bardia A, and Cristofanilli M

Subjects
Humans, Female, Cyclin-Dependent Kinase 4, Retrospective Studies, Genomics, Breast Neoplasms drug therapy, Breast Neoplasms genetics, Circulating Tumor DNA
Abstract

Purpose: As the continuation beyond progression (BP) of cyclin-dependent kinase 4/6 inhibitors (CDK4/6i) is becoming increasingly attractive for the treatment of patients with hormone receptor (HR)-positive, human epidermal growth factor receptor 2 (HER2)-negative metastatic breast cancer (MBC), the definition of resistance factors is crucial. The aim of the study was to investigate the impact of CDK 4/6i BP and to explore potential genomic stratification factors., Materials and Methods: We retrospectively analyzed a multi-institutional cohort of patients with HR-positive HER2-negative MBC characterized for circulating tumor DNA through next-generation sequencing before treatment start. Differences across subgroups were analyzed by chi-square test, and survival was tested by univariable and multivariable Cox regression. Further correction was applied by propensity score matching., Results: Among the 214 patients previously exposed to CDK4/6i, 172 were treated with non-CDK4/6i-based treatment (non-CDK) and 42 with CDK4/6i BP. Multivariable analysis showed a significant impact of CDK4/6i BP, TP53 single-nucleotide variants, liver involvement, and treatment line on both progression-free survival (PFS) and overall survival (OS). Propensity score matching confirmed the prognostic role of CDK4/6i BP both for PFS and OS. The favorable impact of CDK4/6i BP was consistent across all subgroups, and a differential benefit was suggested for ESR1 -mutated patients. ESR1 and RB1 mutations were more represented in the CDK4/6i BP subgroup with respect to CDK4/6i upfront., Conclusion: The study highlighted a significant prognostic impact of the CDK4/6i BP strategy with a potential added benefit in patients with ESR1 mutations suggesting the need for an extensive biomarker characterization.

Published
2023
Full Text
View/download PDF

47. Hydroxylated Coumarin-Based Thiosemicarbazones as Dual Antityrosinase and Antioxidant Agents.

Author

Masuri S, Era B, Pintus F, Cadoni E, Cabiddu MG, Fais A, and Pivetta T

Subjects
Monophenol Monooxygenase, Melanocytes, Coumarins, Melanins, Enzyme Inhibitors pharmacology, Antioxidants pharmacology, Thiosemicarbazones pharmacology
Abstract

The design of novel antityrosinase agents appears extremely important in medical and industrial sectors because an irregular production of melanin is related to the insurgence of several skin-related disorders (e.g., melanoma) and the browning process of fruits and vegetables. Because melanogenesis also involves a nonenzymatic oxidative process, developing dual antioxidant and antityrosinase agents is advantageous. In this work, we evaluated the antioxidant and tyrosinase inhibition ability of two new bishydroxylated and two new monohydroxylated derivatives of (1 E )-2-(1-(2-oxo-2 H -chromen-3-yl)ethylidene)hydrazine-1-carbothioamide ( T1 ) using different experimental and computational approaches. The study was also carried out on another monohydroxylated derivative of T1 for comparison. Interestingly, these molecules have more potent tyrosinase-inhibitory properties than the reference compound, kojic acid. Moreover, the antioxidant activity appears to be influenced according to the number and substitution pattern of the hydroxyl groups. The safety of the compounds without ( T1 ), with one ( T3 ), and with two ( T6 ) hydroxyl groups, has also been assessed by studying their cytotoxicity on melanocytes. These results indicate that (1 E )-2-(1-(2-oxo-2H-chromen-3-yl)ethylidene)hydrazine-1-carbothioamide and its hydroxylated derivatives are promising molecules for further drug development studies.

Published
2023
Full Text
View/download PDF

48. Role of the Solvent in the Reactivity of Bis-4-imidazoline-2-selone Derivatives toward I 2 : An Experimental and Theoretical Approach.

Author

Aragoni MC, Arca M, Caltagirone C, Castellano C, Demartin F, Jones PG, Pivetta T, Podda E, Lippolis V, Murgia S, and Picci G

Abstract

The reactivity of 1,1'-bis(3-methyl-4-imidazolin-2-selone)methane ( L1 ) and 1,2-bis(3-methyl-4-imidazolin-2-selone)ethane ( L2 ) toward I 2 has been explored in MeCN under different experimental conditions and compared with that in CH 2 Cl 2 . The compounds [ L1' ](I) 2 ( I ), [ L1 I] n (I) n ( II ), [ L1 (μ-Se)](I) 2 ·1/2H 2 O ( III ), [ L1 I](I 3 )·2I 2 ( IV ), and [ L2 ](I) 2 ·MeCN ( V ) were obtained and characterized. X-ray diffraction analyses point out an ionic nature for these compounds, which is presumably favored by the polarity of the solvent used. In particular, [ L1 I] n (I) n ( II ) represents the first example of an iodonium complex of imidazoline-2-selone derivatives, while [ L1 (μ-Se)](I) 2 ·1/2H 2 O ( III ) represents a unique example of a dicationic [RSeSeSeR] triselane. Density functional theory calculations have allowed us to better understand the nature of the obtained compounds and to justify their formations in polarizing reaction conditions rather than in low polar solvents.

Published
2022
Full Text
View/download PDF

49. BSA fragmentation specifically induced by added electrolytes: An electrospray ionization mass spectrometry investigation.

Author

Lusci G, Pivetta T, Carucci C, Parsons DF, Salis A, and Monduzzi M

Subjects
Bromides, Chlorides, Electrolytes chemistry, Iodides, Peptides, Potassium, Salts, Sodium, Sodium Chloride, Thiocyanates, Serum Albumin, Bovine chemistry, Spectrometry, Mass, Electrospray Ionization methods
Abstract

Biointerfaces are significantly affected by electrolytes according to the Hofmeister series. This work reports a systematic investigation on the effect of different metal chlorides, sodium and potassium bromides, iodides and thiocyanates, on the ESI/MS spectra of bovine serum albumin (BSA) in aqueous solution at pH = 2.7. The concentration of each salt was varied to maximize the quality of the ESI/MS spectrum, in terms of peak intensity and bell-shaped profile. The ESI/MS spectra of BSA in the absence and in the presence of salts showed a main protein pattern characterized by the expected mass of 66.5 kDa, except the case of BSA/RbCl (mass 65.3 kDa). In all systems we observed an additional pattern, characterized by at least three peaks with low intensity, whose deconvolution led to suggest the formation of a BSA fragment with a mass of 19.2 kDa. Only NaCl increased the intensity of the peaks of the main BSA pattern, while minimizing that of the fragment. NaCl addition seems to play a crucial role in stabilizing the BSA ionized interface against hydrolysis of peptide bonds, through different synergistic mechanisms. To quantify the observed specific electrolyte effects, two "Hofmeister" parameters (H s and P s ) are proposed. They are obtained using the ratio of (BSA-Salt)/BSA peak intensities for both the BSA main pattern and for its fragment. SYNOPSIS: NaCl stabilizes BSA ion and almost prevents fragmentation due to denaturing pH., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published
2022
Full Text
View/download PDF

50. Specific electrolyte effects on hemoglobin in denaturing medium investigated through electro spray ionization mass spectrometry.

Author

Pivetta T, Lusci G, Carucci C, Parsons DF, Salis A, and Monduzzi M

Subjects
Cations, Chlorides, Hemoglobins, Metals, Myoglobin chemistry, Sodium chemistry, Sodium Chloride, Electrolytes, Spectrometry, Mass, Electrospray Ionization methods
Abstract

We examine Hofmeister specific ion effects of electrolytes added to protein solution under conditions minimizing electrostatic attraction between cations and positively charged protein. Hemoglobin (Hb) in aqueous solution at the denaturing pH = 2.7 is investigated in the presence of several metal chlorides, along with sodium and potassium bromides, iodides and thiocyanates, using electrospray ionization mass spectrometry (ESI-MS). Salt concentration was varied to maximize peak intensity and bell-shaped profile in the ESI-MS spectrum. The α-chain of myoglobin is identified as the main pattern of the ESI-MS spectra in all Hb-salt systems. Both peak intensity and quality of the bell-shaped profile of the protein spectrum decrease in the cation order: K + > > Mg 2+  > Li + > > Na +  > Ca 2+  ≈ Cs +  > Rb + for Hb-Metal Chloride systems, and decrease in the anion order: Cl -  > Br -  > I -  > SCN - for systems of both Hb-NaX and Hb-KX salts. To quantify salt addition effects two Hofmeister specific electrolyte parameters H S , and P S are proposed. H S is the mean (Hb-salt)/Hb peak intensity ratio, measured for the nine peaks used for ESI-MS spectra deconvolution, taken at the same m/z values of the Hb profile. P S is the ratio between H S standard deviation and H S , and provides a specific perturbation parameter measuring the loss of protein structure. These two Hofmeister parameters give clear evidence of the effects induced either by KCl, MgCl 2 and LiCl that enhance protein peak intensity, or by NaBr, NaI, NaSCN and KSCN that induce the protein fragmentation, due to electrolyte-mediated dissociation., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results