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A short history of the series with daily observations of barometric pressure in Padova (since 1725) is made, with special reference to the types of barometers used, their locations, the types of corrections (which were only partial in the early period), the calibrations and the comparison with primary instruments. The paper also describes the homogenisation of the series and the procedures used to fill the small gaps. The Padova series was compared with previously well investigated series from the ADVICE and IMPROVE projects and especially with the nearby Milan series in order to check its reliability. Trend analysis shows an increase in pressure (some 1 hPa) during the last a hundred year. This trend is a common feature for Northern Italy. An effect of the increased air pressure is a local lowering of the Northern Mediterranean Sea level by 1 cm. The part of the year mostly affected by this increase is from late spring to August and corresponds to an extension of the hot season, characterised by an earlier start, and longer duration of the Azores Anticyclone. This reduces the penetration of the Atlantic disturbances in the Northern Mediterranean and the precipitation associated with the passage of fronts. This change is associated with an increase in thermoconvective activity with thunderstorms and heavy precipitation. This explains why, in the last decades, the annual total amount of precipitation is slightly decreased and at the same time the frequency of intense rainfall is increased. Moreover, a comparison of the day-to-day pressure variability with the Western Mediterranean Oscillation (WeMO) indicates a significant positive correlation during the late autumn-early winter period. An increase of the WeMO index means a strengthening of the baric dipole from Azores to Northern Italy, that could be explained by a deepening of the cyclonic circulation over northern Italy from November to January. 相似文献
13.
Dario Croce 《Geoforum》1975,6(3-4)
14.
Ferraro G Bernardini A David M Meyer-Roux S Muellenhoff O Perkovic M Tarchi D Topouzelis K 《Marine pollution bulletin》2007,54(4):403-422
Studies of operational pollution carried out by European commission - Joint Research Centre in the Mediterranean Sea for the years 1999-2004 are briefly introduced. The specific analysis of the Adriatic Sea for the same period demonstrates that this area has been characterized by a relevant number of illegal discharges from ships. After setting the historical background of the project AESOP (aerial and satellite surveillance of operational pollution in the Adriatic Sea), the content, partners and aim of the project are presented. Finally, the results of the first phase of the AESOP project are presented. The results seem very encouraging. For the first time in the Adriatic, real time detection of oil spills in satellite images and an immediate verification by the Coast Guard has been undertaken. An exploratory activity has also been carried out in collaboration with the University of Ljubljana to use automatic information system (AIS) to identify the ships detected in the satellite images. 相似文献
15.
Xavier Bolós Stéphanie Barde-Cabusson Dario Pedrazzi Joan Martí Albert Casas Raúl Lovera Daniel Nadal-Sala 《International Journal of Earth Sciences》2014,103(8):2255-2269
We applied self-potential (SP) and electrical resistivity tomography (ERT) to the exploration of the uppermost part of the substrate geology and shallow structure of La Garrotxa monogenetic volcanic field, part of the European Neogene–Quaternary volcanic province. The aim of the study was to improve knowledge of the shallowest part of the feeding system of these monogenetic volcanoes and of its relationship with the subsurface geology. This study complements previous geophysical studies carried out at a less detailed scale and aimed at identifying deeper structures, and together will constitute the basis to establish volcanic susceptibility in La Garrotxa. SP study complemented previous smaller-scale studies and targeted key areas where ERT could be conducted. The main new results include the generation of resistivity models identifying dykes and faults associated with several monogenetic cones. The combined results confirm that shallow tectonics controlling the distribution of the foci of eruptive activity in this volcanic zone mainly correspond to NNW–SSE and accessorily by NNE–SSW Neogene extensional fissures and faults and concretely show the associated magmatic intrusions. These structures coincide with the deeper ones identified in previous studies, and show that previous Alpine tectonic structures played no apparent role in controlling the loci of this volcanism. Moreover, the results obtained show that the changes in eruption dynamics occurring at different vents located at relatively short distances in this volcanic area are controlled by shallow stratigraphical, structural and hydrogeological differences underneath these monogenetic volcanoes. 相似文献
16.
Mathematical Geosciences - Geological facies modeling is a key component in exploration and characterization of subsurface reservoirs. While traditional geostatistical approaches are still commonly... 相似文献
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This paper presents the earliest temperature observations, scheduled every 3–4 h in the 1654–1670 period, which have been
recovered and analysed for the first time. The observations belong to the Medici Network, the first international network
of meteorological observations, based on eleven stations, the two main ones being Florence and Vallombrosa, Italy. All observations
were made with identical thermometers and operational methodology, including outdoor exposure in the shade and in the sunshine
to evaluate solar heating, state of the sky, wind direction and precipitation frequency. This paper will consider only the
regular temperature series taken in the shade. The observations were made with the newly invented spirit-in-glass thermometer,
also known as Little Florentine Thermometer (LFT). The readings have been transformed into modern units of temperature (°C)
and time (TMEC). The LFT has been analysed in detail: how it was made, its linearity, calibration and performances. Since
the middle of the LIA, the climate in Florence has shown less than 0.18°C warming. However, although the yearly average showed
little change, the seasonal departures are greater, i.e. warmer summers, colder winters and unstable mid seasons. The temperature
in the Vallombrosa mountain station, 1,000 m a.m.s.l, apparently rose more, i.e. 1.41°C. A discussion is made on the interpretation
of this finding: how much it is affected by climate change or bias. A continuous swinging of the temperature was observed
in the Mediterranean area, as documented by the long instrumental observations over the 1654–2009 period. However, changes
in vegetation, or exposure bias might have contributed to reduce the homogeneity of the series over the centuries. 相似文献
20.
Dario Camuffo C. Bertolin N. Diodato M. Barriendos F. Dominguez-Castro C. Cocheo A. della Valle E. Garnier M. -J. Alcoforado 《Climatic change》2010,100(1):137-142
The paper discusses the newly produced temperature and precipitation series from instrumental observations in the Western
Mediterranean (WM) area, dating back to 1654. The two series had a continuous swing and unstable coupling passing from correlation
to anti-correlation. Only after 1950 are they permanently anti-correlated with increasing temperature and decreasing precipitation.
It is not clear how long this coupling will persist. The analysis of the correlation between the Northern Hemisphere (NH)
and the WM temperature anomalies and their trends shows a certain variability from 1850 to 1950; later a strong coupling between
NH and WM. Results suggest that the WM climate is approaching a turning point that might locally oppose the adverse effects
of Global Warming. 相似文献