Your search keyword '"PNRA"' showing total 8 results

1. Os Gigantes dos pés de barro da Reforma Agrária no Brasil: análise crítica dos Planos Nacionais de Reforma Agrária I e II por meio do debate paradigmático.

Author

Sobreiro Filho, José, Alessandro Cardoso, Messias, and de Oliveira Valério, Valmir José

Subjects

*LAND reform, *CRITICAL analysis, *PEASANTS, *COMPARATIVE studies, *FARMERS

Abstract

This article aims to promote a critical analysis of the National Agrarian Reform Plans (PNRA), elaborated between 1985 and 2003, in order to highlight the paradigmatic framework responsible for consolidating the different development perspectives for the Brazilian countryside (PNRA I, II PNRA-MDA and II PNRA-PLÍNIO). Therefore, we analyze the main conceptions about the concepts of peasant and family farmer, in addition to the outlines and defining characteristics of each Plan, which supports the paradigmatic qualification proposed here. Finally, we performed a comparative analysis between the different PNRA's in order to reveal varied perspectives, interests and "views" that referenced the elaboration of each of the Plans analyzed here. [ABSTRACT FROM AUTHOR]

Published

2019

2. New Geodetic and Gravimetric Maps to Infer Geodynamics of Antarctica with Insights on Victoria Land

Author

Antonio Zanutta, Monia Negusini, Luca Vittuari, Leonardo Martelli, Paola Cianfarra, Francesco Salvini, Francesco Mancini, Paolo Sterzai, Marco Dubbini, and Alessandro Capra

Subjects

VLNDEF, gravity anomaly, GNSS time series, neo-tectonics, Antarctica geodynamics, crustal deformations, PNRA, Science

Abstract

In order to make inferences on the geodynamics of Antarctica, geodetic and gravimetric maps derived from past and new observations can be used. This paper provides new insights into the geodynamics of Antarctica by integrating data at regional and continental scales. In particular, signatures of geodynamic activity at a regional extent have been investigated in Victoria Land (VL, Antarctica) by means of Global Navigation Satellite System (GNSS) permanent station observations, data from the VLNDEF (Victoria Land Network for Deformation control) discontinuous network, and gravity station measurements. At the continental scale, episodic GNSS observations on VLNDEF sites collected for 20 years, together with continuous data from the International GNSS Service (IGS) and Polar Earth Observing Network (POLENET) sites, were processed, and the Euler pole position assessed with the angular velocity of the Antarctic plate. Both the Bouguer and the free-air gravity anomaly maps were obtained by integrating the available open-access geophysics dataset, and a compilation of 180 gravity measurements collected in the VL within the Italian National Program for Antarctic Research (PNRA) activities. As a result, new evidence has been detected at regional and continental scale. The main absolute motion of VL is towards SE (Ve 9.9 ± 0.26 mm/yr, Vn −11.9 ± 0.27 mm/yr) with a pattern similar to the transforms of the Tasman and Balleny fracture zones produced as consequence of Southern Ocean spreading. Residual velocities of the GNSS stations located in VL confirm the active role of the two main tectonic lineaments of the region, the Rennick–Aviator and the Lillie–Tucker faults with right-lateral sense of shear. The resulting VL gravity anomalies show a NW region characterized by small sized Bouguer anomaly with high uplift rates associated and a SE region with low values of Bouguer anomaly and general subsidence phenomena. The East and West Antarctica are characterized by a different thickness of the Earth’s crust, and the relative velocities obtained by the observed GNSS data confirm that movements between the two regions are negligible. In East Antarctica, the roots of the main subglacial highlands, Gamburtsev Mts and Dronning Maud Land, are present. The Northern Victoria Land (NVL) is characterized by more scattered anomalies. These confirm the differences between the Glacial Isostatic Adjustment (GIA) modeled and observed uplift rates that could be related to deep-seated, regional scale structures.

Published

2018

3. Antartide: il report della XXXVI Spedizione

Author

Melchiori, V., Marchetti, A., Mecozzi, R., Melchiori, V., Marchetti, A., and Mecozzi, R.

Subjects

PNRA, Fare scienza in Antartide, La XXXVI Spedizione estate australe 2020-2021, Le infrastrutture italiane in Antartide

Published

2021

4. Victoria Land, Antarctica: An Improved Geodynamic Interpretation Based on the Strain Rate Field of the Current Crustal Motion and Moho Depth Model

Author

Antonio Zanutta, NEGUSINI, MONIA, Luca Vittuari, Leonardo Martelli, Paola Cianfarra, Francesco Salvini, Francesco Mancini, Paolo Sterzai, Nicola Creati, Marco Dubbini, Alessandro Capra, Zanutta, Antonio, Negusini, Monia, Vittuari, Luca, Martelli, Leonardo, Cianfarra, Paola, Salvini, Francesco, Mancini, Francesco, Sterzai, Paolo, Creati, Nicola, Dubbini, Marco, Capra, Alessandro, Zanutta, A., Negusini, M., Vittuari, L., Martelli, L., Cianfarra, P., Salvini, F., Mancini, F., Sterzai, P., Creati, N., Dubbini, M., Capra, A., and ITA

Subjects

PNRA, strain rate, Moho, Science, crustal deformation, GNSS time serie, Crustal deformations, Antarctica geodynam-ics, GNSS time series, Gravity anomaly, Strain rate, VLNDEF, Antarctica geodynamics, gravity anomaly, Antarctica geodynamic

Abstract

In Antarctica, the severe climatic conditions and the thick ice sheet that covers the largest and most internal part of the continent make it particularly difficult to systematically carry out geophysical and geodetic observations on a continental scale. It prevents the comprehensive understanding of both the onshore and offshore geology as well as the relationship between the inner part of East Antarctica (EA) and the coastal sector of Victoria Land (VL). With the aim to reduce this gap, in this paper multiple geophysical dataset collected since the 1980s in Antarctica by Programma Nazionale di Ricerche in Antartide (PNRA) were integrated with geodetic observations. In particu-lar, the analyzed data includes: (i) Geodetic time series from Trans Antarctic Mountains DEFormation (TAMDEF), and Victoria Land Network for DEFormation control (VLNDEF) GNSS stations installed in Victoria Land; (ii) the integration of on-shore (ground points data and airborne) gravity measurements in Victoria Land and marine gravity surveys performed in the Ross Sea and the nar-row strip of Southern Ocean facing the coasts of northern Victoria Land. Gravity data modelling has improved the knowledge of the Moho depth of VL and surrounding the offshore areas. By the integration of geodetic and gravitational (or gravity) potential results it was possible to better con-strain/identify four geodynamic blocks characterized by homogeneous geophysical signature: the Southern Ocean to the N, the Ross Sea to the E, the Wilkes Basin to the W, and VL in between. The last block is characterized by a small but significant clockwise rotation relative to East Antarctica. The presence of a N-S to NNW-SSE 1-km step in the Moho in correspondence of the Rennick Geo-dynamic Belt confirms the existence of this crustal scale discontinuity, possibly representing the tectonic boundary between East Antarctica and the northern part of VL block, as previously pro-posed by some geological studies.

Published

2021

5. Victoria Land, Antarctica: An Improved Geodynamic Interpretation Based on the Strain Rate Field of the Current Crustal Motion and Moho Depth Model

Author

Capra, Antonio Zanutta, Monia Negusini, Luca Vittuari, Leonardo Martelli, Paola Cianfarra, Francesco Salvini, Francesco Mancini, Paolo Sterzai, Nicola Creati, Marco Dubbini, and Alessandro

Subjects

VLNDEF, GNSS time series, strain rate, gravity anomaly, Moho, Antarctica geodynamics, crustal deformations, PNRA

Abstract

In Antarctica, the severe climatic conditions and the thick ice sheet that covers the largest and most internal part of the continent make it particularly difficult to systematically carry out geophysical and geodetic observations on a continental scale. It prevents the comprehensive understanding of both the onshore and offshore geology as well as the relationship between the inner part of East Antarctica (EA) and the coastal sector of Victoria Land (VL). With the aim to reduce this gap, in this paper multiple geophysical dataset collected since the 1980s in Antarctica by Programma Nazionale di Ricerche in Antartide (PNRA) were integrated with geodetic observations. In particular, the analyzed data includes: (i) Geodetic time series from Trans Antarctic Mountains DEFormation (TAMDEF), and Victoria Land Network for DEFormation control (VLNDEF) GNSS stations installed in Victoria Land; (ii) the integration of on-shore (ground points data and airborne) gravity measurements in Victoria Land and marine gravity surveys performed in the Ross Sea and the narrow strip of Southern Ocean facing the coasts of northern Victoria Land. Gravity data modelling has improved the knowledge of the Moho depth of VL and surrounding the offshore areas. By the integration of geodetic and gravitational (or gravity) potential results it was possible to better constrain/identify four geodynamic blocks characterized by homogeneous geophysical signature: the Southern Ocean to the N, the Ross Sea to the E, the Wilkes Basin to the W, and VL in between. The last block is characterized by a small but significant clockwise rotation relative to East Antarctica. The presence of a N-S to NNW-SSE 1-km step in the Moho in correspondence of the Rennick Geodynamic Belt confirms the existence of this crustal scale discontinuity, possibly representing the tectonic boundary between East Antarctica and the northern part of VL block, as previously proposed by some geological studies.

Published

2020

6. Da Trieste ai Poli. I viaggi che hanno portato la ricerca triestina agli estremi del pianeta (Trieste, Trieste città della conoscenza, 31.10.2018)

Author

Ester Colizza and Colizza, Ester

Subjects

MNA-TS, PNRA, Oceanographic Cruise, Spedizione Oceanografica, Antartide, Antarctica, Trieste

Abstract

Sull'evento/conferenza dal titolo “Da Trieste ai Poli: i viaggi che hanno portato la ricerca triestina agli estremi del pianeta”, che si è svolta il 31 ottobre scorso nell’ambito di Trieste e la Scienza - mostra interattiva e multimediale, allestita presso la stazione ferroviaria di Trieste nello spazio gestito dallo SISSA MediaLab dedicato a “Trieste città della conoscenza”

Published

2018

7. New geodetic and gravimetric maps to infer geodynamics of antarctica with insights on Victoria land

Author

Leonardo Martelli, Francesco Salvini, P. Sterzai, Alessandro Capra, Luca Vittuari, Monia Negusini, Marco Dubbini, Francesco Mancini, Antonio Zanutta, Paola Cianfarra, ITA, Zanutta, A., Negusini, M., Vittuari, L., Martelli, L., Cianfarra, P., Salvini, F., Mancini, F., Sterzai, P., Dubbini, M., Capra, A., Zanutta, Antonio, Negusini, Monia, Vittuari, Luca, Martelli, Leonardo, Cianfarra, Paola, Salvini, Francesco, Mancini, FRANCESCO MARIA, Sterzai, Paolo, Dubbini, Marco, and Capra, Alessandro

Subjects

Gravity anomaly, PNRA, 010504 meteorology & atmospheric sciences, Lineament, Science, Crustal deformation, 010502 geochemistry & geophysics, GNSS time serie, Neo-tectonics, 01 natural sciences, neo-tectonics, Crustal deformations, VLNDEF, gravity anomaly, GNSS time series, Antarctica geodynamics, crustal deformations, 0105 earth and related environmental sciences, Antarctica geodynamic, Neo-tectonic, Subsidence, Crust, Post-glacial rebound, Antarctica geodynamics, Crustal deformations, GNSS time series, Gravity anomaly, Neo-tectonics, PNRA, VLNDEF, Earth and Planetary Sciences (all), Geodynamics, Geodesy, Tectonics, General Earth and Planetary Sciences, Earth and Planetary Sciences (all), Bouguer anomaly, Geology

Abstract

In order to make inferences on the geodynamics of Antarctica, geodetic and gravimetric maps derived from past and new observations can be used. This paper provides new insights into the geodynamics of Antarctica by integrating data at regional and continental scales. In particular, signatures of geodynamic activity at a regional extent have been investigated in Victoria Land (VL, Antarctica) by means of Global Navigation Satellite System (GNSS) permanent station observations, data from the VLNDEF (Victoria Land Network for Deformation control) discontinuous network, and gravity station measurements. At the continental scale, episodic GNSS observations on VLNDEF sites collected for 20 years, together with continuous data from the International GNSS Service (IGS) and Polar Earth Observing Network (POLENET) sites, were processed, and the Euler pole position assessed with the angular velocity of the Antarctic plate. Both the Bouguer and the free-air gravity anomaly maps were obtained by integrating the available open-access geophysics dataset, and a compilation of 180 gravity measurements collected in the VL within the Italian National Program for Antarctic Research (PNRA) activities. As a result, new evidence has been detected at regional and continental scale. The main absolute motion of VL is towards SE (Ve 9.9 &plusmn, 0.26 mm/yr, Vn &minus, 11.9 &plusmn, 0.27 mm/yr) with a pattern similar to the transforms of the Tasman and Balleny fracture zones produced as consequence of Southern Ocean spreading. Residual velocities of the GNSS stations located in VL confirm the active role of the two main tectonic lineaments of the region, the Rennick&ndash, Aviator and the Lillie&ndash, Tucker faults with right-lateral sense of shear. The resulting VL gravity anomalies show a NW region characterized by small sized Bouguer anomaly with high uplift rates associated and a SE region with low values of Bouguer anomaly and general subsidence phenomena. The East and West Antarctica are characterized by a different thickness of the Earth&rsquo, s crust, and the relative velocities obtained by the observed GNSS data confirm that movements between the two regions are negligible. In East Antarctica, the roots of the main subglacial highlands, Gamburtsev Mts and Dronning Maud Land, are present. The Northern Victoria Land (NVL) is characterized by more scattered anomalies. These confirm the differences between the Glacial Isostatic Adjustment (GIA) modeled and observed uplift rates that could be related to deep-seated, regional scale structures.

Published

2018

8. Victoria Land, Antarctica: An Improved Geodynamic Interpretation Based on the Strain Rate Field of the Current Crustal Motion and Moho Depth Model.

Author

Zanutta, Antonio, Negusini, Monia, Vittuari, Luca, Martelli, Leonardo, Cianfarra, Paola, Salvini, Francesco, Mancini, Francesco, Sterzai, Paolo, Creati, Nicola, Dubbini, Marco, and Capra, Alessandro

Subjects

STRAIN rate, MOHOROVICIC discontinuity, GEODETIC observations, GRAVIMETRY, GEOPHYSICAL observations

Abstract

In Antarctica, the severe climatic conditions and the thick ice sheet that covers the largest and most internal part of the continent make it particularly difficult to systematically carry out geophysical and geodetic observations on a continental scale. It prevents the comprehensive understanding of both the onshore and offshore geology as well as the relationship between the inner part of East Antarctica (EA) and the coastal sector of Victoria Land (VL). With the aim to reduce this gap, in this paper multiple geophysical dataset collected since the 1980s in Antarctica by Programma Nazionale di Ricerche in Antartide (PNRA) were integrated with geodetic observations. In particular, the analyzed data includes: (i) Geodetic time series from Trans Antarctic Mountains DEFormation (TAMDEF), and Victoria Land Network for DEFormation control (VLNDEF) GNSS stations installed in Victoria Land; (ii) the integration of on-shore (ground points data and airborne) gravity measurements in Victoria Land and marine gravity surveys performed in the Ross Sea and the narrow strip of Southern Ocean facing the coasts of northern Victoria Land. Gravity data modelling has improved the knowledge of the Moho depth of VL and surrounding the offshore areas. By the integration of geodetic and gravitational (or gravity) potential results it was possible to better constrain/identify four geodynamic blocks characterized by homogeneous geophysical signature: the Southern Ocean to the N, the Ross Sea to the E, the Wilkes Basin to the W, and VL in between. The last block is characterized by a small but significant clockwise rotation relative to East Antarctica. The presence of a N-S to NNW-SSE 1-km step in the Moho in correspondence of the Rennick Geodynamic Belt confirms the existence of this crustal scale discontinuity, possibly representing the tectonic boundary between East Antarctica and the northern part of VL block, as previously proposed by some geological studies. [ABSTRACT FROM AUTHOR]

Published

2021