The natural areas of Rome Province detected by airborne remotely sensed data
Author(s)
Date Issued
February 2006
Issue/vol(year)
1/49 (2006)
Language
English
Abstract
Rome Province with its 4 million inhabitants is one of the Italians areas with the largest urban expansion, mainly
concentrated around the capital city. The uncontrolled urbanization of the past has heavily marked the landscape,
especially Rome countryside and coastline. However many zones have exceeded the anthropic pressurewithout
serious consequence since the sensitivity towards environmental protection has grown in recent years.
Rome Province Administration has devoted special attention to the improvement and protection of its naturalistic
heritage by means of a series of administrative actions, cultural initiatives and projects for environmental education.
In this perspective a three-year agreement was concluded with CNR LARA focused on the study of natural
vegetation by means of MIVIS (Multispectral Infrared Visible Imaging Spectrometer) remotely sensed data. This
study distinguished and mapped the most important natural forests, shrub and herbaceous formations, assessed
the health conditions of the arboreal vegetation, identified the areas with little water supply, and measured some
environmental parameters, like temperature and surface humidity. The results achieved highlight the large botanical
and naturalistic assortment and the complexity of the study-area.
concentrated around the capital city. The uncontrolled urbanization of the past has heavily marked the landscape,
especially Rome countryside and coastline. However many zones have exceeded the anthropic pressurewithout
serious consequence since the sensitivity towards environmental protection has grown in recent years.
Rome Province Administration has devoted special attention to the improvement and protection of its naturalistic
heritage by means of a series of administrative actions, cultural initiatives and projects for environmental education.
In this perspective a three-year agreement was concluded with CNR LARA focused on the study of natural
vegetation by means of MIVIS (Multispectral Infrared Visible Imaging Spectrometer) remotely sensed data. This
study distinguished and mapped the most important natural forests, shrub and herbaceous formations, assessed
the health conditions of the arboreal vegetation, identified the areas with little water supply, and measured some
environmental parameters, like temperature and surface humidity. The results achieved highlight the large botanical
and naturalistic assortment and the complexity of the study-area.
References
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della vegetazione del M.te Soratte 1:10000, in Studio
delle Tipologie Fitosociologiche del Monte Soratte
(Lazio) e loro Contributo nella Definizione Fitogeografica
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(P.F. «Promozione della qualità dell’ambiente»
CNR, Roma), AQ/1/125, 1-41.
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e mosaico su modello altimetrico digitale di immagini
MIVIS, in Atti della I Conferenza Nazionale
ASITA, p. 179.
AVANZI, G., A. PALOMBO and S. PIGNATTI (2006): MIVIS
image geocoding experience on merging position attitude
system data and public domain GPS stream (ASIGeoDAF),
Ann. Geophysics, 49 (1), 11-20 (this volume).
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(1990): Carta della Vegetazione del Territorio della IX
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di Biologia Vegetale, Università degli Studi di Roma
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a Moderate Resolution Model for LOWTRAN7,
Final Report, GL-TR-0122, AFGL, Hanscom
AFB, p. 42.
BLASI, C. (1994): Fitoclimatologia del Lazio, Fitosociol.,
27, 151-175.
BORAK, J.S., E.F. LAMBIN and A.H. STRAHLER (2000): The
use of temporal metrics for landcover change detection
at coarse spatial scales, Int. J. Remote Sensing, 21 (6-
7), 1415-1432.
BRANDIZZI, G., A. ANGELUCCI, A .BIASINI, G. CASELLA, R.
FUNICIELLO, M. GIANNINI, G. GIOVAGNOLI, L. RAMPICHINI,
A. PANASCÈ and G. BIGI (1974): Carta Agroforestale
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Industria, Artigianato e Agricoltura di Roma).
CAVALLI, R.M., L. FUSILLI, A. GUIDI, S. PANZARASA, S.PIGNATTI,
A. VINCI and C.M. MARINO (2001): Dati iperspettrali telerilevati per la gestione di riserve naturali
della Provincia di Roma, in Atti della V Conferenza
nazionale ASITA, vol. I, 477-482.
CENTRO REGIONALE PER LA DOCUMENTAZIONE DEI BENI
CULTURALI EDAMBIENTALI (1993): Carta del Paesaggio
vegetale della Valle del Tevere (scala 1:50 000), (Ass.to
alla Cultura - Regione Lazio).
CONGALTON, R.G. (1991): A review of assessing the accuracy
of classifications of remotely sensed data, Remote
Sensing Environ., 37, 35-46.
CONGALTON, R.G., K. GREEN and J. TEPLY (1993): Mapping
old-growth forest on National Forests and park lands in
the Pacific Northwest from remotely sensed data, Photogramm.
Eng. Remote Sensing, 59, 529-535.
GAO, B.-C. (1996): NDWI – A Normalized Difference Water
Index for remote sensing of vegetation liquid water
from space, Remote Sensing Environ., 58, 257-266.
HILL, J., J. MEGIER and W. MEHL (1995): Land degradation,
soil erosion, and desertification monitoring in Mediterranean
ecosystems, Remote Sensing Rev., 12, 107-130.
LAMBIN, E.F. (1998): Modeling and monitoring land-cover
change pro-cesses in tropical Regions, Prog. Phys. Geogr.,
21 (3), 375-393.
MONTELUCCI, G. (1972): Considerazioni sul componente
orientale nelle foreste della Penisola, Ann. Accad. Ital.
Sci. For., XXI, 121-169.
MONTELUCCI, G. (1978)(1976-1977): Lineamenti della vegetazione
nel Lazio, Ann. Bot. (Roma), XXXL-VI, 1-
107.
MONTELUCCI, G. (1984): I monti di Tivoli dal punto di vista
botanico, Natura e Montagna, 3, 37-48.
MORENO, J.M. and W.C. OECHEL (Editors) (1995): Global
Change and Mediterranean-Type Ecosystems (New
York, Springer-Verlag), p. 527.
NEMANI, R. and S.W. RUNNING (1996): Global vegetation
cover changes from coarse resolution satellite data, J.
Geophys. Res., 101, 7157-7162.
RICHARDS, J.A. (1999): Remote Sensing Digital Image Analysis
(Springer-Verlag), p. 240.
RSI (2000): ENVI User’s Guide (Research Systems Inc.),
261-288.
della vegetazione del M.te Soratte 1:10000, in Studio
delle Tipologie Fitosociologiche del Monte Soratte
(Lazio) e loro Contributo nella Definizione Fitogeografica
dei Complessi Vegetazionali Centro-Appenninici
(P.F. «Promozione della qualità dell’ambiente»
CNR, Roma), AQ/1/125, 1-41.
AVANZI, G., C.M. MARINO and S. PIGNATTI (1997): Geocodifica
e mosaico su modello altimetrico digitale di immagini
MIVIS, in Atti della I Conferenza Nazionale
ASITA, p. 179.
AVANZI, G., A. PALOMBO and S. PIGNATTI (2006): MIVIS
image geocoding experience on merging position attitude
system data and public domain GPS stream (ASIGeoDAF),
Ann. Geophysics, 49 (1), 11-20 (this volume).
AVENA, G.C., L. BONIFAZI, S. FASCETTI and L. RUBECA
(1990): Carta della Vegetazione del Territorio della IX
Comunita’Montana del Lazio, Compreso nei Limiti del
Parco dei M.ti Lucretili (scala 1:25000), (Dipartimento
di Biologia Vegetale, Università degli Studi di Roma
«La Sapienza»).
BERK, A., L. BERNSTEIN and D. ROBERTSON (1989): MODTRAN:
a Moderate Resolution Model for LOWTRAN7,
Final Report, GL-TR-0122, AFGL, Hanscom
AFB, p. 42.
BLASI, C. (1994): Fitoclimatologia del Lazio, Fitosociol.,
27, 151-175.
BORAK, J.S., E.F. LAMBIN and A.H. STRAHLER (2000): The
use of temporal metrics for landcover change detection
at coarse spatial scales, Int. J. Remote Sensing, 21 (6-
7), 1415-1432.
BRANDIZZI, G., A. ANGELUCCI, A .BIASINI, G. CASELLA, R.
FUNICIELLO, M. GIANNINI, G. GIOVAGNOLI, L. RAMPICHINI,
A. PANASCÈ and G. BIGI (1974): Carta Agroforestale
della Provincia di Roma (Camera di Commercio,
Industria, Artigianato e Agricoltura di Roma).
CAVALLI, R.M., L. FUSILLI, A. GUIDI, S. PANZARASA, S.PIGNATTI,
A. VINCI and C.M. MARINO (2001): Dati iperspettrali telerilevati per la gestione di riserve naturali
della Provincia di Roma, in Atti della V Conferenza
nazionale ASITA, vol. I, 477-482.
CENTRO REGIONALE PER LA DOCUMENTAZIONE DEI BENI
CULTURALI EDAMBIENTALI (1993): Carta del Paesaggio
vegetale della Valle del Tevere (scala 1:50 000), (Ass.to
alla Cultura - Regione Lazio).
CONGALTON, R.G. (1991): A review of assessing the accuracy
of classifications of remotely sensed data, Remote
Sensing Environ., 37, 35-46.
CONGALTON, R.G., K. GREEN and J. TEPLY (1993): Mapping
old-growth forest on National Forests and park lands in
the Pacific Northwest from remotely sensed data, Photogramm.
Eng. Remote Sensing, 59, 529-535.
GAO, B.-C. (1996): NDWI – A Normalized Difference Water
Index for remote sensing of vegetation liquid water
from space, Remote Sensing Environ., 58, 257-266.
HILL, J., J. MEGIER and W. MEHL (1995): Land degradation,
soil erosion, and desertification monitoring in Mediterranean
ecosystems, Remote Sensing Rev., 12, 107-130.
LAMBIN, E.F. (1998): Modeling and monitoring land-cover
change pro-cesses in tropical Regions, Prog. Phys. Geogr.,
21 (3), 375-393.
MONTELUCCI, G. (1972): Considerazioni sul componente
orientale nelle foreste della Penisola, Ann. Accad. Ital.
Sci. For., XXI, 121-169.
MONTELUCCI, G. (1978)(1976-1977): Lineamenti della vegetazione
nel Lazio, Ann. Bot. (Roma), XXXL-VI, 1-
107.
MONTELUCCI, G. (1984): I monti di Tivoli dal punto di vista
botanico, Natura e Montagna, 3, 37-48.
MORENO, J.M. and W.C. OECHEL (Editors) (1995): Global
Change and Mediterranean-Type Ecosystems (New
York, Springer-Verlag), p. 527.
NEMANI, R. and S.W. RUNNING (1996): Global vegetation
cover changes from coarse resolution satellite data, J.
Geophys. Res., 101, 7157-7162.
RICHARDS, J.A. (1999): Remote Sensing Digital Image Analysis
(Springer-Verlag), p. 240.
RSI (2000): ENVI User’s Guide (Research Systems Inc.),
261-288.
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