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Zeitschriftenartikel zum Thema „Amalfi Coast (Italy)“

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Autor: Grafiati
Veröffentlicht am 25. Juli 2024

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1

Savo, Valentina, Caneva Giulia, Guarrera Paolo Maria und Reedy David. „Folk phytotherapy of the Amalfi Coast (Campania, Southern Italy)“. Journal of Ethnopharmacology 135, Nr. 2 (Mai 2011): 376–92. http://dx.doi.org/10.1016/j.jep.2011.03.027.

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2

Lignola, Gian Piero, Emidio Nigro und Edoardo Cosenza. „Seismic vulnerability of natural stone pinnacles on the Amalfi Coast in Italy“. Journal of Cultural Heritage 11, Nr. 1 (Januar 2010): 68–80. http://dx.doi.org/10.1016/j.culher.2009.04.002.

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3

Alistarh, Dan, Alkida Balliu, Dimitrios Los und Sean Ovens. „A Brief Summary of PODC 2022“. ACM SIGACT News 54, Nr. 1 (28.02.2023): 106–12. http://dx.doi.org/10.1145/3586165.3586179.

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This year, the 41st ACM SIGACT-SIGOPS Symposium on Principles of Distributed Computing (PODC 2022) was held in Salerno, Italy, between July 25-29, in the wonderful setting of Italy's Amalfi coast. The conference had three keynotes, over 50 accepted papers, if we include brief announcements, several workshops, and more than 100 attendees. Thus, PODC 2022 constituted a great return to in-person meetings for the distributed computing community, after two years of online and hybrid meetings.
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4

Kolozs, Borbála, und Kristiina Aima. „Conference on Legal Remedies in European Tax Law“. Intertax 36, Issue 11 (01.11.2008): 523–32. http://dx.doi.org/10.54648/taxi2008075.

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The following article stems from the recent conference entitled ‘Legal Remedies in European Tax Law’ organized by Vienna University of Economics and Business in co–operation with the II University of Naples and the University of Salerno at the Amalfi Coast in Italy on 12–13 June 2008. At the two–day conference distinguished tax academics and practitioners from 14 European countries discussed various issues dealing with ‘Legal Protection of European Rights: the Procedures before National and European Courts’ and ‘Access to Justice’.
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PAPA, Maria Nicolina, Luca SARNO, Fabio CIERVO, Salvatore BARBA, Fausta FIORILLO und Marco LIMONGIELLO. „Field Surveys and Numerical Modeling of Pumiceous Debris Flows in Amalfi Coast (Italy)“. International Journal of Erosion Control Engineering 9, Nr. 4 (2016): 179–87. http://dx.doi.org/10.13101/ijece.9.179.

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6

Santo, Antonio, Paolo Budetta, Giovanni Forte, Ermanno Marino und Antonio Pignalosa. „Karst collapse susceptibility assessment: A case study on the Amalfi Coast (Southern Italy)“. Geomorphology 285 (Mai 2017): 247–59. http://dx.doi.org/10.1016/j.geomorph.2017.02.012.

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7

Violante, C., G. Braca, E. Esposito und G. Tranfaglia. „The 9 September 2010 torrential rain and flash flood in the Dragone catchment, Atrani, Amalfi Coast (southern Italy)“. Natural Hazards and Earth System Sciences 16, Nr. 2 (04.02.2016): 333–48. http://dx.doi.org/10.5194/nhess-16-333-2016.

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Abstract. In this paper we use a multi-hazard approach to analyse the 9 September 2010 flash flood in the Dragone basin, a 9 km2 catchment located along the Amalfi rocky coastal range, southern Italy. In this area, alluvial fan flooding has been the most frequent and destructive geologic hazard since Roman times. Sudden torrents of water (flash floods) are caused by high-intensity and very localized cloudbursts of short duration, inducing slope erosion and sediment delivery from slope to stream. The elevated bed load transport produces fast-moving hyperconcentrated flows with significant catastrophic implications for communities living at the stream mouth. The 9 September 2010 rainstorm event lasted 1 h with an intensity rainfall peak of nearly 120 mm h−1. High topographic relief of the Amalfi coastal range and positive anomalies of the coastal waters conditioned the character of the convective system. Based on geological data and post-event field evidence and surveys, as well as homemade videos and eyewitness accounts, it is reported that the flash flood mobilized some 25 000 m3 of materials with a total (water and sediment) peak flow of 80 m3 s−1. The estimated peak discharge of only clear water was about 65 m3 s−1. This leads to a sediment bulking factor of 1.2 that corresponds to a flow with velocities similar to those of water during a flood.
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8

Violante, C., G. Braca, E. Esposito und G. Tranfaglia. „The 9 September 2010 torrential rain and flash flood in the Dragone catchment, Atrani, Amalfi Coast (Southern Italy)“. Natural Hazards and Earth System Sciences Discussions 3, Nr. 8 (12.08.2015): 4715–51. http://dx.doi.org/10.5194/nhessd-3-4715-2015.

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Abstract. In this paper we use a multi-hazard approach to analyse the 9 September 2010 flash-flood occurred in the Dragone basin, a 9 km2 catchment located along the Amalfi rocky coastal range, Southern Italy. In this area, alluvial-fan-flooding is the most frequent and destructive geologic hazards since Roman time. Sudden torrent of waters (flash flood) are caused by high-intensity and very localized cloudbursts of short duration inducing slope erosion and sediment delivery from slope-to-stream. The elevated bed load transport produces fast-moving hyperconcentrated flows with significant catastrophic implications for communities living at stream mouth. The 9 September 2010 rainstorm event lasted 1 h with an intensity rainfall peak nearly to 120 mm h−1. High topographic relief of the Amalfi coastal range and positive anomalies of the coastal waters conditioned the character of the convective system. Based on geological data and post-event field evidence and surveys, as well as homemade-videos, and eyewitness accounts the consequent flash-flood mobilized some 25 000 m3 of materials with a total (water and sediment) peak flow of 80 m3 s−1. The estimated peak discharge of only clear water was about 65 m3 s−1. This leads to a sediment bulking factor of 1.2 that corresponds to a flow with velocities similar to those of water during a flood.
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9

de Mare, Gianluigi, und Antonio Nesticò. „Efficiency Analysis for Sustainable Mobility — The Design of a Mechanical Vector in Amalfi Coast (Italy)“. Advanced Materials Research 931-932 (Mai 2014): 808–12. http://dx.doi.org/10.4028/www.scientific.net/amr.931-932.808.

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Efficient urban infrastructure interventions make it possible to pursue goals of sustainable mobility, that nowadays are extremely important in light of the need to reduce the negative impact produced by human activities on the environment. In addition and to a no lesser extent, the implementation of the investment requires the monetary resources to realise the works. In relation to this aspect, the scarcity of public funds in the current economic contingency makes the involvement of private capital and entrepreneurial skills indispensable in the execution and performance of these works.This work shows how the use of a suitable economic evaluation model is indispensable in order to encourage public-private partnerships aimed at the execution and correct management of an intervention in the field of sustainable mobility. The proposed evaluation model implements the instrument of inter-sectorial matrices, which allow to determine the impacts (output) generated by a change in aggregate demand (input, such as the investment costs in an industry) on the economy of the territory where the matrix is associated.The analysis and calculations are carried out in relation to the project for the construction of a mechanical vector in the town of Vietri sul Mare in the province of Salerno (Italy), which is useful in ensuring the decongestion of road traffic and the consequent reduction in travel times along the Amalfi Coast.
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10

Cancellieri, Laura, Giulia Caneva und Maurizio Cutini. „Phytosociology and ecology of the Mediterranean forests ecosystems in the Amalfi Coast (Monti Lattari, Italy)“. Rendiconti Lincei 28, Nr. 4 (09.09.2017): 651–71. http://dx.doi.org/10.1007/s12210-017-0635-x.

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11

Porfido, S., E. Esposito, F. Alaia, F. Molisso und M. Sacchi. „The use of documentary sources for reconstructing flood chronologies on the Amalfi rocky coast (southern Italy)“. Geological Society, London, Special Publications 322, Nr. 1 (2009): 173–87. http://dx.doi.org/10.1144/sp322.8.

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12

Papa, Maria, Luca Sarno, Francesco Vitiello und Vicente Medina. „Application of the 2D Depth-Averaged Model, FLATModel, to Pumiceous Debris Flows in the Amalfi Coast“. Water 10, Nr. 9 (29.08.2018): 1159. http://dx.doi.org/10.3390/w10091159.

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Few studies about modelling pumice debris flows are available in literature. An integrated approach based on field surveys and numerical modelling is here proposed. A pumiceous debris flow, which occurred in the Amalfi Coast (Italy), is reconstructed by the numerical code, FLATModel, consisting of a two-dimensional shallow-water model written in curvilinear coordinates. The morphological evolution of the gully and of the alluvial fan was monitored by terrestrial laser scanner and photo-modelling aerial surveys, providing, in a cost-effective way, data otherwise unavailable, for the implementation, calibration and validation of the model. The most suitable resistance law is identified to be the Voellmy model, which is found capable of correctly describing the friction-collisional resistance mechanisms of pumiceous debris flows. The initial conditions of the numerical simulations are assumed to be of dam-break type: i.e., they are given by the sudden release of masses of pumice, whose shape and depths are obtained by reconstruction of the pre-event slopes. The predicted depths and shape of deposits are compared with the measured ones, where a good agreement (average error smaller than 10 cm) is observed for several dam-break scenarios. The proposed cost-effective integrated approach can be straightforwardly employed for the description of other debris flows of the same kind and for better designing risk mitigation measures.
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13

Budillon, F., C. Violante, A. Conforti, E. Esposito, D. Insinga, M. Iorio und S. Porfido. „Event beds in the recent prodelta stratigraphic record of the small flood-prone Bonea Stream (Amalfi Coast, Southern Italy)“. Marine Geology 222-223 (November 2005): 419–41. http://dx.doi.org/10.1016/j.margeo.2005.06.013.

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14

Savo, Valentina, Giulia Caneva, Will McClatchey, David Reedy und Luca Salvati. „Combining Environmental Factors and Agriculturalists’ Observations of Environmental Changes in the Traditional Terrace System of the Amalfi Coast (Southern Italy)“. AMBIO 43, Nr. 3 (12.09.2013): 297–310. http://dx.doi.org/10.1007/s13280-013-0433-3.

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15

Papa, M. N., V. Medina, F. Ciervo und A. Bateman. „Estimation of debris flow critical rainfall thresholds by a physically-based model“. Hydrology and Earth System Sciences Discussions 9, Nr. 11 (12.11.2012): 12797–824. http://dx.doi.org/10.5194/hessd-9-12797-2012.

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Abstract. Real time assessment of debris flow hazard is fundamental for setting up warning systems that can mitigate its risk. A convenient method to assess the possible occurrence of a debris flow is the comparison of measured and forecasted rainfall with rainfall threshold curves (RTC). Empirical derivation of the RTC from the analysis of rainfall characteristics of past events is not possible when the database of observed debris flows is poor or when the environment changes with time. For landslides triggered debris flows, the above limitations may be overcome through the methodology here presented, based on the derivation of RTC from a physically based model. The critical RTC are derived from mathematical and numerical simulations based on the infinite-slope stability model in which land instability is governed by the increase in groundwater pressure due to rainfall. The effect of rainfall infiltration on landside occurrence is modelled trough a reduced form of the Richards equation. The simulations are performed in a virtual basin, representative of the studied basin, taking into account the uncertainties linked with the definition of the characteristics of the soil. A large number of calculations are performed combining different values of the rainfall characteristics (intensity and duration of event rainfall and intensity of antecedent rainfall). For each combination of rainfall characteristics, the percentage of the basin that is unstable is computed. The obtained database is opportunely elaborated to derive RTC curves. The methodology is implemented and tested on a small basin of the Amalfi Coast (South Italy).
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16

Papa, M. N., V. Medina, F. Ciervo und A. Bateman. „Derivation of critical rainfall thresholds for shallow landslides as a tool for debris flow early warning systems“. Hydrology and Earth System Sciences 17, Nr. 10 (23.10.2013): 4095–107. http://dx.doi.org/10.5194/hess-17-4095-2013.

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Abstract. Real-time assessment of debris-flow hazard is fundamental for developing warning systems that can mitigate risk. A convenient method to assess the possible occurrence of a debris flow is to compare measured and forecasted rainfalls to critical rainfall threshold (CRT) curves. Empirical derivation of the CRT from the analysis of past events' rainfall characteristics is not possible when the database of observed debris flows is poor or when the environment changes with time. For debris flows and mud flows triggered by shallow landslides or debris avalanches, the above limitations may be overcome through the methodology presented. In this work the CRT curves are derived from mathematical and numerical simulations, based on the infinite-slope stability model in which slope instability is governed by the increase in groundwater pressure due to rainfall. The effect of rainfall infiltration on landside occurrence is modelled through a reduced form of the Richards equation. The range of rainfall durations for which the method can be correctly employed is investigated and an equation is derived for the lower limit of the range. A large number of calculations are performed combining different values of rainfall characteristics (intensity and duration of event rainfall and intensity of antecedent rainfall). For each combination of rainfall characteristics, the percentage of the basin that is unstable is computed. The obtained database is opportunely elaborated to derive CRT curves. The methodology is implemented and tested in a small basin of the Amalfi Coast (South Italy). The comparison among the obtained CRT curves and the observed rainfall amounts, in a playback period, gives a good agreement. Simulations are performed with different degree of detail in the soil parameters characterization. The comparison shows that the lack of knowledge about the spatial variability of the parameters may greatly affect the results. This problem is partially mitigated by the use of a Monte Carlo approach.
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17

Nelson, Daniel. „Map Of The Amalfi Coast In Italy“. Science Trends, 18.06.2018. http://dx.doi.org/10.31988/scitrends.20075.

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18

Cicinelli, Emanuela, Giulia Caneva und Valentina Savo. „Risk factors and plant management activities for the terraced agricultural systems on the Amalfi coast (Italy): an interdisciplinary approach“. Rendiconti Lincei. Scienze Fisiche e Naturali, 09.09.2021. http://dx.doi.org/10.1007/s12210-021-01018-9.

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AbstractCultivated terraces are outstanding modifications of mountains and hills to obtain arable land. These terraced agricultural systems are widespread traditional landscapes within the Mediterranean area. The cultivated terraces of the Amalfi Coast (Southern Italy) are outstanding examples of cultural landscapes, and they represent one of the key descriptors of the UNESCO Site. Terraces have characterized the landscape of the Amalfi Coast for a long time as their construction started during the Middle Age. However, their conservation is now threatened by abandonment, which has dramatically risen in the last 60 years, and by the ongoing climatic changes with the increased incidence of heavy rainfall events. We combined interviews with local farmers and vegetation surveys to understand which management activities are carried out to improve the conservation of cultivated terraces on the Amalfi Coast. To this end, we analyzed the linkages between these management practices and their influence on the vegetation growing on the terrace risers. Our informants identified the maintenance of waterways and walls as crucial factors influencing terrace and slope stability. The preservation of the integrity of terraces depends on periodic vegetation control and the maintenance of water drainage systems, which are carried out thanks to the active presence of farmers. According to our informants, the vegetation growing on the walls has a relevant role in the stability of terraces, and we found a prevalence of Hemicryptophytes that increase with the number of interventions over the year. Thus, active and vital agriculture becomes pivotal for the preservation of this cultural heritage.
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19

Savo, V., R. Joy, G. Caneva und W. C. McClatchey. „Plant selection for ethnobotanical uses on the Amalfi Coast (Southern Italy)“. Journal of Ethnobiology and Ethnomedicine 11, Nr. 1 (15.07.2015). http://dx.doi.org/10.1186/s13002-015-0038-y.

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20

Clark, Ailhlin Jane. „Changing Consumption, Changing Consumers: An Analysis of Changing Food Consumption in Southern Italy in the Mid-twentieth Century“. PORTAL Journal of Multidisciplinary International Studies 5, Nr. 2 (27.11.2008). http://dx.doi.org/10.5130/portal.v5i2.780.

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Italy’s “Economic Miracle” is often perceived as a time of change in living conditions as accelerating economic development led to more affluent lifestyles. Such changes are thought to have been reflected in what people ate and how they thought about food. While the post-World War Period has been identified as a time of radical improvements in living conditions and expectations, we can question the assumption that this was a one-way, sudden process whereby new consumer ideals simply superseded previously held values and behaviours. This paper identifies the impact of these changes on food consumption in the Amalfi Coast in the period 1945-1960. These changes may have influenced the homes in which people lived, what they did during leisure time, and what they ate, on an everyday level. It is clear, however, that pre-existing socio-economic conditions, and geographical and cultural factors, shaped both the extent to which new patterns of consumerism were adopted and the ways in which new behaviours and attitudes were worked into daily life in the area. Using information drawn from interviews conducted with inhabitants of the Amalfi Coast, this paper explores changing patterns of food consumption by assessing how food habits and traditions were directly influenced by the physical landscape, and this framed the reception of new ideas, as well as the ways by which new products were introduced into peoples’ lives and changed them in the process. The paper argues that the purchase and integration of consumable and durable items were not influenced solely by the physical possibility of buying something, but also by an element of local acceptance of the product and an understanding of how it might be integrated into daily life - factors that were constantly being negotiated with pre-existing socio-economic habits and wider cultural influences.
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21

Bianco, Luigi, Mauro La Manna, Valentina Russo und Maurizio Fedi. „Magnetic and GPR Data Modelling via Multiscale Methods in San Pietro in Crapolla Abbey, Massa Lubrense (Naples)“. Archaeological Prospection, 14.04.2024. http://dx.doi.org/10.1002/arp.1936.

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ABSTRACTWe performed magnetic and GPR measurements to image the buried ruins of the Middle Age abbey San Pietro in Crapolla, on the Sorrento‐Amalfi Coast (Massa Lubrense, Southern Italy). The site represents an important religious location, which is nowadays partially buried along the cliff. An integrated study was necessary to map the buried structures and address the archaeological excavation. For this reason, we carried out the surveys on two main grids in order to reconstruct the structures of the abbey and of its related church. The magnetic data were filtered through the discrete wavelet transform (DWT) and then transformed to total gradient maps. The obtained maps were interpreted with depth from extreme points (DEXP) imaging method to assess the horizontal and depth positions of the top. The GPR data were processed and time‐depth converted. Results from the integrated interpretation of these data suggest the possible presence of different vaulted rooms and an elongated structure at 0.3‐m depth from ground surface. This latter is interpretable in terms of perimetral and internal walls of the abbey and its church. These outcomes were crucial to successfully address archaeological excavations, which targeted one of the modelled areas and unearthed a wall at the predicted depths.
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