Gotowe bibliografie tematyczne / Apennine chain

Gotowa bibliografia na temat „Apennine chain”

Autor: Grafiati
Data publikacji: 1 kwietnia 2023

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Spis treści

  1. Artykuły w czasopismach
  2. Części książek
  3. Streszczenia konferencji

Artykuły w czasopismach na temat "Apennine chain":

1

Rapisarda, F. "Landslide analysis in Apennine chain areas". Landslides 4, nr 1 (3.01.2007): 75–83. http://dx.doi.org/10.1007/s10346-006-0066-8.

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Zanchetta, Giovanni, Carlo Giraudi, Roberto Sulpizio, Michel Magny, Russell N. Drysdale i Laura Sadori. "Constraining the onset of the Holocene “Neoglacial” over the central Italy using tephra layers". Quaternary Research 78, nr 2 (8.06.2012): 236–47. http://dx.doi.org/10.1016/j.yqres.2012.05.010.

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AbstractA study of six tephra layers discovered in different deposits between 1600 and 2700 m a.s.l. in the Apennine chain in central Italy allowed precise stratigraphic constraints on environmental and climatic changes between ca. 4.5 and 3.8 cal ka BP. Chemical analyses allowed the correlation of these tephra layers with the eruptions of Agnano Mt Spina (AMST) from Phlegrean Field and Avellino (AVT) from Somma–Vesuvius. Major environmental changes in the high mountains of the Central Apennines occurred just after the deposition of the AMST and predate the deposition of the AVT. At this time, renewed growth of the Calderone Glacier occurred, marking the onset of the Apennine “Neoglacial”. The presence of the AMST and AVT enabled us to make a precise, physical correlation with other archives in central Italy. Synchronization of records between sites showed that the period intervening the deposition of the AMST and AVT layers coincided with environmental changes that were not always exactly in phase. This highlights the fact that stratigraphic correlations using only radiocarbon chronologies (the most common method used for dating archives during the Holocene) could produce erroneous correlation of events, giving rise to oversimplified paleoclimatic reconstructions.
3

Mele, G. "Pn Anisotropy in the Northern Apennine Chain (Italy)". Pure and Applied Geophysics 151, nr 2-4 (1.03.1998): 495–502. http://dx.doi.org/10.1007/s000240050125.

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Gori, Stefano, Emanuela Falcucci, Chiara Ladina, Simone Marzorati i Fabrizio Galadini. "Active faulting, 3-D geological architecture and Plio-Quaternary structural evolution of extensional basins in the central Apennine chain, Italy". Solid Earth 8, nr 2 (23.03.2017): 319–37. http://dx.doi.org/10.5194/se-8-319-2017.

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Abstract. The general basin and range Apennine topographic characteristic is generally attributed to the presently active normal fault systems, whose long-term activity (throughout the Quaternary) is supposed to have been responsible for the creation of morphological/structural highs and lows. By coupling field geological survey and geophysical investigations, we reconstructed the 3-D geological model of an inner tectonic basin of the central Apennines, the Subequana Valley, bounded to the northeast by the southern segment of one of the major active and seismogenic normal faults of the Apennines, known as the Middle Aterno Valley–Subequana Valley fault system. Our analyses revealed that, since the late Pliocene, the basin evolved in a double half-graben configuration through a polyphase tectonic development. An early phase, Late Pliocene–Early Pleistocene in age, was controlled by the ENE–WSW-striking and SSE-dipping Avezzano–Bussi fault, that determined the formation of an early depocentre towards the N–NW. Subsequently, the main fault became the NW–SE-striking faults, which drove the formation during the Quaternary of a new fault-related depocentre towards the NE. By considering the available geological information, a similar structural evolution has likely involved three close tectonic basins aligned along the Avezzano–Bussi fault, namely the Fucino Basin, the Subequana Valley, and the Sulmona Basin, and it has been probably experienced by other tectonic basins of the chain. The present work therefore points out the role of pre-existing transverse tectonic structures, inherited by previous tectonic phases, in accommodating the ongoing tectonic deformation and, consequently, in influencing the structural characteristics of the major active normal faults. This has implications in terms of earthquake fault rupture propagation and segmentation. Lastly, the morpho-tectonic setting of the Apennine chain results from the superposition of deformation events whose geological legacy must be considered in a wider evolutionary perspective. Our results testify that a large-scale basin and range geomorphological feature – often adopted for morpho-tectonic and kinematic evaluations in active extensional contexts, as in the Apennines – just led by range-bounding active normal faults may be actually simplistic, as it could not be applied everywhere, owing to peculiar complexities of the local tectonic histories.
5

Bartolini, C. "When did the Northern Apennine become a mountain chain?" Quaternary International 101-102 (styczeń 2003): 75–80. http://dx.doi.org/10.1016/s1040-6182(02)00090-3.

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Turco, Eugenio, Chiara Macchiavelli, Giulia Penza, Antonio Schettino i Pietro Paolo Pierantoni. "Kinematics of Deformable Blocks: Application to the Opening of the Tyrrhenian Basin and the Formation of the Apennine Chain". Geosciences 11, nr 4 (14.04.2021): 177. http://dx.doi.org/10.3390/geosciences11040177.

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We describe the opening of back-arc basins and the associated formation of accretionary wedges through the application of techniques of deformable plate kinematics. These methods have proven to be suitable to describe complex tectonic processes, such as those that are observed along the Africa–Europe collision belt. In the central Mediterranean area, these processes result from the passive subduction of the lithosphere belonging to the Alpine Tethys and Ionian Ocean. In particular, we focus on the opening of the Tyrrhenian basin and the contemporary formation of the Apennine chain. We divide the area of the Apennine Chain and the Tyrrhenian basin into deformable polygons that are identified on the basis of sets of extensional structures that are coherent with unique Euler pole grids. The boundaries between these polygons coincide with large tectonic lineaments that characterize the Tyrrhenian–Apennine area. The tectonic style along these structures reflects the variability of relative velocity vectors between two adjacent blocks. The deformation of tectonic elements is accomplished, allowing different rotation velocities of lines that compose these blocks about the same stable stage poles. The angular velocities of extension are determined on the basis of the stratigraphic records of syn-rift sequences, while the rotation angles are obtained by crustal balancing.
7

Schiattarella, Marcello, Salvatore Ivo Giano i Dario Gioia. "Long-term geomorphological evolution of the axial zone of the Campania-Lucania Apennine, southern Italy: a review". Geologica Carpathica 68, nr 1 (1.02.2017): 57–67. http://dx.doi.org/10.1515/geoca-2017-0005.

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Abstract Uplift and erosion rates have been calculated for a large sector of the Campania-Lucania Apennine and Calabrian arc, Italy, using both geomorphological observations (elevations, ages and arrangement of depositional and erosional land surfaces and other morphotectonic markers) and stratigraphical and structural data (sea-level related facies, base levels, fault kinematics, and fault offset estimations). The values of the Quaternary uplift rates of the southern Apennines vary from 0.2 mm/yr to about 1.2–1.3 mm/yr. The erosion rates from key-areas of the southern Apennines, obtained from both quantitative geomorphic analysis and missing volumes calculations, has been estimated at 0.2 mm/yr since the Middle Pleistocene. Since the Late Pleistocene erosion and uplift rates match well, the axial-zone landscape could have reached a flux steady state during that time, although it is more probable that the entire study area may be a transient landscape. Tectonic denudation phenomena — leading to the exhumation of the Mesozoic core of the chain — followed by an impressive regional planation started in the Late Pliocene have to be taken into account for a coherent explanation of the morphological evolution of southern Italy.
8

Mongelli, F., G. Zito, N. Ciaranfi i P. Pieri. "Interpretation of heat flow density of the Apennine chain, Italy". Tectonophysics 164, nr 2-4 (sierpień 1989): 267–80. http://dx.doi.org/10.1016/0040-1951(89)90020-6.

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Lapenna, V., M. Macchiato, S. Piscitelli i L. Telesca. "Scale-invariance Properties in Seismicity of Southern Apennine Chain (Italy)". Pure and Applied Geophysics 157, nr 4 (kwiecień 2000): 589–601. http://dx.doi.org/10.1007/pl00001109.

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10

Di Toro, Francesco, Gianmarco Minuti, Luca Coppari, Matteo De Albentiis, Paolo Laghi, Dino Scaravelli, Valerio Ricciardi i Giacomo Bruni. "Rana temporaria on Monti della Laga (Central Italy): isolated population or wide distribution? First record in Abruzzo and Marche". Acta Herpetologica 16, nr 1 (5.05.2021): 45–51. http://dx.doi.org/10.36253/a_h-9824.

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In Central Italy Rana temporaria is only known to occur as a glacial relict on the eastern side of Monti della Laga (Lazio). In this study we report the presence of the species in other areas of the mountain chain, with documented sightings in five distinct localities in Marche and Abruzzo. We use these new records, together with other occurrence data from the Apennine chain, to generate a species distribution model and perform an analysis of the geological preference of the species in Central Italy. Although the model indicates a wide area of Marche and Abruzzo as suitable for R. temporaria, the actual distribution of the species in northern and central Apennine appears strongly associated with sandstones. Therefore, we argue that the presence of this geological substrate on Monti della Laga, but not in surrounding karst uplands, could be among the factors explaining its isolation. Our study aims at paving the way for future surveys and measures to protect these isolated populations from the threat posed by climate change.
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Artykuły w czasopismach

Części książek na temat "Apennine chain":

1

Mele, Giuliana. "Pn Anisotropy in the Northern Apennine Chain (Italy)". W Geodynamics of Lithosphere & Earth’s Mantle, 495–502. Basel: Birkhäuser Basel, 1998. http://dx.doi.org/10.1007/978-3-0348-8777-9_14.

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Lapenna, V., M. Macchiato, S. Piscitelli i L. Telesca. "Scale-invariance Properties in Seismicity of Southern Apennine Chain (Italy)". W Fractals and Dynamic Systems in Geoscience, 589–601. Basel: Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8430-3_7.

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3

Minzoni, Nello. "Characteristics of the circum-Tyrrhenian Hercynian massifs and their role in the Alpine-Apennine chains". W Proceedings of the International Conferences on Basement Tectonics, 579–82. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-1614-5_38.

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Woodhouse, Barbara Bennett. "A Tale of Two Villages". W The Ecology of Childhood, 41–73. NYU Press, 2020. http://dx.doi.org/10.18574/nyu/9780814794845.003.0003.

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Chapter three opens with detailed the two villages that are compared in this book, Scanno Italy and Cedar Key Florida. The portraits cover demography, history, political structure, geography, natural surroundings, social customs and traditions, with a particular focus on the lives of children. Both communities serve populations hovering around 1,700; both are majority Caucasian; both have strong community identities and traditions; and both are located in remote natural environments, with Scanno tucked in a valley of the Apennine Mountains in the Abruzzo region of Central Italy and Cedar Key occupying a chain of islands on the sparsely settled Gulf Coast of Florida in the South of the United States. The village portraits are followed by explicit comparisons of similarities and differences that are most relevant to the ecology of childhood, including early childhood and education systems, access to free play spaces, living on the edge of natural disaster, children’s sense of history and place, economic trauma and resilience, and presence or absence of racial and ethnic tension. The chapter closes with an exercise in triangulation, using multiple sources and uncomfortable conversations to explore attitudes towards racial and ethnic diversity.
5

Enrico, Miccadei, i Piacentini Tommaso. "Two Tectonic Geomorphology Studies on the Landscape and Drainage Network of Chain and Piedmont Areas of the Abruzzi Region (Central Apennines, Italy)". W New Frontiers in Tectonic Research - At the Midst of Plate Convergence. InTech, 2011. http://dx.doi.org/10.5772/18969.

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Streszczenia konferencji na temat "Apennine chain":

1

Esestime, P., W. Paltrinieri i F. Calamita. "The Apulian Chain, Buried Below the Southern Apennines Allochthonous Units (Italy)". W 72nd EAGE Conference and Exhibition incorporating SPE EUROPEC 2010. European Association of Geoscientists & Engineers, 2010. http://dx.doi.org/10.3997/2214-4609.201401075.

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