Your search keyword '"G. Capotorti"' showing total 34 results

1. Towards the identification and mapping of traditional agricultural landscapes at the national scale: an inventory approach from Italy

Author

G. Capotorti, Carlo Blasi, R. Frondoni, R. Copiz, and Laura Zavattero

Subjects

Scale (ratio), business.industry, Geography, Planning and Development, Environmental resource management, Potential natural vegetation, potential natural vegetation, Management, Monitoring, Policy and Law, Long term persistence, Natural (archaeology), agricultural landscapes, ComputingMilieux_GENERAL, Geography, ecoregions, environmental representativeness, long-term persistence, Identification (biology), business, Agricultural landscapes, Nature and Landscape Conservation, General Environmental Science

Abstract

This paper presents an original approach for identifying and mapping agricultural landscapes that are highly representative of different biogeographical and natural settings and likely to be tradit...

Published

2021

2. Implementation of IUCN criteria for the definition of the Red List of Ecosystems in Italy

Author

L. Zavattero, Simonetta Fascetti, G. Capotorti, Domenico Gargano, R. Copiz, Edoardo Biondi, Giovanni Spampinato, Daniele Viciani, Simona Casavecchia, R. Frondoni, S. Bonacquisti, Lorenzo Antonino Gianguzzi, Marina Allegrezza, Consolata Siniscalco, Gianluigi Bacchetta, Bruno Enrico Leone Cerabolini, L. Facioni, P. Sarandrea, Elena Barni, E.R. Tazzari, Marco Caccianiga, Ludovica Oddi, Roberto Venanzoni, Maria Silvia Pinna, Fabio Attorre, D. Galdenzi, Lorella Dell'Olmo, Leonardo Rosati, Giuseppe Fenu, M. Paolanti, Fausto Manes, E. Del Vico, Carlo Blasi, P. Brandmayr, Alessandro Chiarucci, Giulio Tesei, Simone Orsenigo, Emanuela Carli, Graziano Rossi, Capotorti G., Zavattero L., Copiz R., Del Vico E., Facioni L., Bonacquisti S., Frondoni R., Allegrezza M., Attorre F., Bacchetta G., Barni E., Biondi E., Brandmayr P., Caccianiga M.S., Carli E., Casavecchia S., Cerabolini B.E.L., Chiarucci A., Dell'Olmo L., Fascetti S., Fenu G., Galdenzi D., Gargano D., Gianguzzi L.A., Manes F., Oddi L., Orsenigo S., Paolanti M., Pinna M.S., Rosati L., Rossi G., Sarandrea P., Siniscalco C., Spampinato G., Tazzari E.R., Tesei G., Venanzoni R., Viciani D., and Blasi C.

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Collapse (topology), Plant Science, Potential natural vegetation, potential natural vegetation, 010603 evolutionary biology, 01 natural sciences, mapping and assessment ecosystems and their services, IUCN Red List, Ecosystem, ecoregions, mapping and assessment ecosystems and their service, Biodiversity conservation strategie, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, threats, biodiversity conservation strategies, business.industry, Environmental resource management, ecosystem risk assessment, Geography, Work (electrical), business, ecoregion

Abstract

The present work is aimed at presenting the data, methods and criteria that are being used for the assessment of ecosystem collapse risk in Italy.

Published

2020

3. A Dirichlet process model for change‐point detection with multivariate bioclimatic data

Author

Alessio Pollice, Gianluca Mastrantonio, Lorenzo Teodonio, Giovanna Jona Lasinio, and G. Capotorti

Subjects

Statistics and Probability, Multivariate statistics, Ecological Modeling, Hierarchical database model, Dirichlet process, multivariate process, thermopluviometric data, Change points, change-points, Environmental science, Applied mathematics, hierarchical model, Change detection

Published

2021

4. More nature in the city

Author

Antonello Prigioniero, A. P Giannotta, Rocco Pace, S Manca, Andrea Nardini, Miris Castello, Luigi Mundula, Giovanni Bacaro, Mauro Mariotti, Ludovica Oddi, Michela Marignani, A Postiglione, E.A. Fano, Marco Fornaciari, Maria Tartaglia, L Cipriani, F Ventura, Carlo Blasi, Giuseppe Venturella, Luigi Parrotta, M Burnelli, L Ruga, E. Di Gristina, Francesco Maria Raimondo, Vito Emanuele Cambria, E Nicosia, G. Capotorti, Mattias Gaglio, S. Del Duca, Massimo Reverberi, L Abis, Francesco Scuderi, M. E Palumbo, A Sordo, Carlo Calfapietra, S Farris, Gabriele Galasso, E Toselli, Chiara Montagnani, Maria Letizia Gargano, Pierpaolo Scarano, Enrico Luigi Redi, G Iaquinta, Paola Michelozzi, Enrica Roccotiello, Ginevra Balletto, S Palumbo, Gianniantonio Domina, Roberto Braglia, C Proietti, Sandra Citterio, Chiara Toffolo, F Schirru, Gianluca Iiriti, Fabio Orlandi, Iris Aloisi, Alessandro Travaglini, Rosaria Sciarrillo, Katia Perini, M Galletti, M. A Brighetti, Sarah Caronni, Emmanuele Farris, A Miraglia, Fausto Manes, F Bretzel, Aldo Ranfa, Vico E Del, F Musanti, Elena Barni, Silvano Fares, E Corona, E. Lattanzi, E Lallai, Pietro Mazzola, Rodolfo Gentili, Livio Poldini, Carmine Guarino, Andrea Coppi, Flavia Bartoli, Salvatore Pasta, Marzia Beccaccioli, F Marinangeli, Valentina Savo, Erika Bazzato, Alessandro Sebastiani, A. Tilia, F Vincenzi, Enrico Banfi, Giulia Caneva, A. N Muresan, Fabio Attorre, Chiara Suanno, E Cicinelli, Riccardo Guarino, Andrea Lallai, F Mascia, Antonella Canini, Consolata Siniscalco, G Concu, L Faino, Chiara Catalano, Giuseppe Brundu, S. Bonacquisti, Laura Celesti-Grapow, G Meloni, Capotorti, G, Bonacquisti, S, Abis, L, Aloisi, I, Attorre, F, Bacaro, G, Balletto, G, Banfi, E, Barni, E, Bartoli, F, Bazzato, E, Beccaccioli, M, Braglia, R, Bretzel, F, Brighetti, MA, Brundu, G, Burnelli, M, Calfapietra, C, Cambria, VE, Caneva, G, Canini, A, Caronni, S, Castello, M, Catalano, C, Celesti-Grapow, L, Cicinelli, E, Cipriani, L, Citterio, S, Concu, G, Coppi, A, Corona, E, Del Duca, S, Del, Vico E, Di Gristina, E, Domina, G, Faino, L, Fano, EA, Fares, S, Farris, E, Farris, S, Fornaciari, M, Gaglio, M, Galasso, G, Galletti, M, Gargano, ML, Gentili, R, Giannotta, AP, Guarino, C, Guarino, R, Iaquinta, G, Iiriti, G, Lallai, A, Lallai, E, Lattanzi, E, Manca, S, Manes, F, Marignani, M, Marinangeli, F, Mariotti, M, Mascia, F, Mazzola, P, Meloni, G, Michelozzi, P, Miraglia, A, Montagnani, C, Mundula, L, Muresan, AN, Musanti, F, Nardini, A, Nicosia, E, Oddi, L, Orlandi, F, Pace, R, Palumbo, ME, Palumbo, S, Parrotta, L, Pasta, S, Perini, K, Poldini, L, Postiglione, A, Prigioniero, A, Proietti, C, Raimondo, FM, Ranfa, A, Redi, EL, Reverberi, M, Roccotiello, E, Ruga, L, Savo, V, Scarano, P, Schirru, F, Sciarrillo, R, Scuderi, F, Sebastiani, A, Siniscalco, C, Sordo, A, Suanno, C, Tartaglia, M, Tilia, A, Toffolo, C, Toselli, E, Travaglini, A, Ventura, F, Venturella, G, Vincenzi, F, Blasi, C, Brighetti, M. A, Cambria, V. E, Fano, E. A, Gargano, M. L, Giannotta, A. P, Muresan, A. N, Palumbo, M. E, Raimondo, F. M, Redi, E. L, Brighetti, M, Cambria, V, Del, V, Fano, E, Gargano, M, Giannotta, A, Muresan, A, Palumbo, M, Raimondo, F, Redi, E, Capotorti G., Bonacquisti S., Abis L., Aloisi I., Attorre F., Bacaro G., Balletto G., Banfi E., Barni E., Bartoli F., Bazzato E., Beccaccioli M., Braglia R., Bretzel F., Brighetti M.A., Brundu G., Burnelli M., Calfapietra C., Cambria V.E., Caneva G., Canini A., Caronni S., Castello M., Catalano C., Celesti-Grapow L., Cicinelli E., Cipriani L., Citterio S., Concu G., Coppi A., Corona E., Del Duca S., Del V.E., Di Gristina E., Domina G., Faino L., Fano E.A., Fares S., Farris E., Farris S., Fornaciari M., Gaglio M., Galasso G., Galletti M., Gargano M.L., Gentili R., Giannotta A.P., Guarino C., Guarino R., Iaquinta G., Iiriti G., Lallai A., Lallai E., Lattanzi E., Manca S., Manes F., Marignani M., Marinangeli F., Mariotti M., Mascia F., Mazzola P., Meloni G., Michelozzi P., Miraglia A., Montagnani C., Mundula L., Muresan A.N., Musanti F., Nardini A., Nicosia E., Oddi L., Orlandi F., Pace R., Palumbo M.E., Palumbo S., Parrotta L., Pasta S., Perini K., Poldini L., Postiglione A., Prigioniero A., Proietti C., Raimondo F.M., Ranfa A., Redi E.L., Reverberi M., Roccotiello E., Ruga L., Savo V., Scarano P., Schirru F., Sciarrillo R., Scuderi F., Sebastiani A., Siniscalco C., Sordo A., Suanno C., Tartaglia M., Tilia A., Toffolo C., Toselli E., Travaglini A., Ventura F., Venturella G., Vincenzi F., Blasi C., Brighetti, Ma, Cambria, Ve, Del Vico, E, Fano, Ea, Gargano, Ml, Giannotta, Ap, Muresan, An, Palumbo, Me, Raimondo, Fm, and Redi, El

Subjects

urban green areas, 2019-20 coronavirus outbreak, 010504 meteorology & atmospheric sciences, Coronavirus disease 2019 (COVID-19), Ecosystem service, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Settore BIO/02, Ecosystem services, green infrastructure, human well-being, urban biodiversity, urban green areas, Plant Science, 010501 environmental sciences, Ecosystem services, Human well-being, Green infrastructure, Urban green areas, Urban biodiversity, 01 natural sciences, urban biodiversity, Ecosystem services, Green infrastructure, Urban green area, Environmental planning, human well-being, Human well-being, Green infrastructure, Urban green areas, Urban biodiversity, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, urban green area, Settore BIO/02 - Botanica Sistematica, Ambientale, Geography, green infrastructure, Settore BIO/03 - Botanica Ambientale E Applicata, Green infrastructure

Abstract

According to projects and practices that the Italian botanists and ecologists are carrying out for bringing “more nature in the city”, new insights for a factual integration between ecological perspectives and more consolidated aesthetic and agronomic approaches to the sustainable planning and management of urban green areas are provided.

Published

2020

5. A first revision of the Italian Ecoregion map

Author

R. Copiz, Carlo Blasi, B. Mollo, and G. Capotorti

Subjects

0106 biological sciences, ecological land classification, biodiversity conservation strategies, ecoregion boundaries, natural capital accounting, phytogeography, 010504 meteorology & atmospheric sciences, Natural capital accounting, Plant Science, Phytogeography, 010603 evolutionary biology, 01 natural sciences, Geography, Ecoregion, Temperate climate, Physical geography, Ecology, Evolution, Behavior and Systematics, First revision, 0105 earth and related environmental sciences, Ecological land classification

Abstract

According to advances in phytogeographic knowledge, a revision of boundaries for the Italian Ecoregions have been made. Main changes relate to the southern and eastern limits between Temperate and ...

Published

2018

6. Ecosystem mapping for the implementation of the European Biodiversity Strategy at the national level: The case of Italy

Author

Fausto Manes, Carlo Blasi, Marco Marchetti, Mattia M. Azzella, R. Copiz, G. Capotorti, I. Anzellotti, Laura Zavattero, Fabio Attorre, Marta María Alós Ortí, Emanuela Carli, Vittorio Garfì, Federica Marando, and B. Mollo

Subjects

0106 biological sciences, Monitoring, 010504 meteorology & atmospheric sciences, corine land cover, ecosystem mapping, ecosystem service providers, European biodiversity strategy to 2020, MAES process, potential natural vegetation, geography, planning and development, management, monitoring, policy and law, Geography, Planning and Development, Natural capital accounting, Biodiversity, Corine Land Cover, Potential natural vegetation, Land cover, Management, Monitoring, Policy and Law, 010603 evolutionary biology, 01 natural sciences, Ecosystem services, Ecosystem mapping, Ecosystem service providers, European Biodiversity Strategy to 2020, Potential Natural Vegetation, Forest ecology, Ecosystem diversity, 0105 earth and related environmental sciences, Planning and Development, Geography, Policy and Law, business.industry, Environmental resource management, Management, business, Green infrastructure

Abstract

Several international initiatives, including the European Biodiversity Strategy to 2020, promote the identification and mapping of ecosystems as basic tools for the conservation of biodiversity and related services. On coarse scales, the spatial representation of ecosystems is usually based on broad land cover categories that largely overlook important ecological and biogeographic features of the biotic communities they are meant to exemplify. This paper presents a nationwide ecosystem mapping approach that promotes a degree of thematic detail, which is more suited than that found in the continental maps to meeting biodiversity conservation targets in Italy. The approach is based on the rationale that current and potential vegetation cover are valuable proxies for outlining ecosystems. The resulting Ecosystem Map of Italy includes 43 types of forest ecosystems instead of the 5 woodland, forest and other wooded land types recognized at the European level. We outline the expected advantages of this enhanced thematic detail for a number of conservation purposes and highlight how the resulting maps may help to meet biodiversity conservation targets at the national level. In particular, we refer to the assessment of conservation status, the definition of restoration priorities, the planning of green infrastructure and the identification of collapse risks for the ecosystems identified. Comprehensively, the definition, characterization and assessment of ecosystem types represent the carrying structure of the recently launched national system of natural capital accounting.

Published

2017

7. Ecological Connectivity in Agricultural Green Infrastructure: Suggested Criteria for Fine Scale Assessment and Planning

Author

G. Capotorti, Laura Zavattero, and Simone Valeri

Subjects

0106 biological sciences, conservation and restoration priorities, Context (language use), Land cover, Potential natural vegetation, 010501 environmental sciences, ecological corridors, Metropolitan areas, 010603 evolutionary biology, 01 natural sciences, Ecosystem services, environmental units, fragmentation, MSPA, native woody species, 0105 earth and related environmental sciences, Nature and Landscape Conservation, Sustainable development, Global and Planetary Change, Ecology, business.industry, Environmental resource management, metropolitan areas, naturalness, peri-urban landscapes, Agriculture, Geography, Peri-urban landscapes, Sustainability, business, Green infrastructure, Landscape connectivity

Abstract

In promoting biodiversity conservation and ecosystem service capacity, landscape connectivity is considered a critical feature to counteract the negative effects of fragmentation. Under a Green Infrastructure (GI) perspective, this is especially true in rural and peri-urban areas where a high degree of connectivity may be associated with the enhancement of agriculture multifunctionality and sustainability. With respect to GI planning and connectivity assessment, the role of dispersal traits of tree species is gaining increasing attention. However, little evidence is available on how to select plant species to be primarily favored, as well as on the role of landscape heterogeneity and habitat quality in driving the dispersal success. The present work is aimed at suggesting a methodological approach for addressing these knowledge gaps, at fine scales and for peri-urban agricultural landscapes, by means of a case study in the Metropolitan City of Rome. The study area was stratified into Environmental Units, each supporting a unique type of Potential Natural Vegetation (PNV), and a multi-step procedure was designed for setting priorities aimed at enhancing connectivity. First, GI components were defined based on the selection of the target species to be supported, on a fine scale land cover mapping and on the assessment of land cover type naturalness. Second, the study area was characterized by a Morphological Spatial Pattern Analysis (MSPA) and connectivity was assessed by Number of Components (NC) and functional connectivity metrics. Third, conservation and restoration measures have been prioritized and statistically validated. Notwithstanding the recognized limits, the approach proved to be functional in the considered context and at the adopted level of detail. Therefore, it could give useful methodological hints for the requalification of transitional urban–rural areas and for the achievement of related sustainable development goals in metropolitan regions.

Published

2021

8. A hierarchical multivariate spatio-temporal model for clustered climate data with annual cycles

Author

Alessio Pollice, Lorenzo Teodonio, Giulio Genova, Giovanna Jona Lasinio, Carlo Blasi, G. Capotorti, and Gianluca Mastrantonio

Subjects

Statistics and Probability, Multivariate statistics, NNGP, Bayesian probability, Linear model, coregionalization, Missing data, Coregionalization, Cyclic effect, Multivariate process, cyclic effect, symbols.namesake, Geography, Modeling and Simulation, Covariate, Statistics, symbols, multivariate process, Imputation (statistics), Statistics, Probability and Uncertainty, Gaussian process, Interpolation

Abstract

We introduce a Bayesian multivariate hierarchical framework to estimate a space-time model for a joint series of monthly extreme temperatures and amounts of precipitation. Data are available for 360 monitoring stations over 60 years, with missing data affecting almost all series. Model components account for spatio-temporal correlation and annual cycles, dependence on covariates and between responses. Spatio-temporal dependence is modeled by the nearest neighbor Gaussian process (GP), response multivariate dependencies are represented by the linear model of coregionalization and effects of annual cycles are included by a circular representation of time. The proposed approach allows imputation of missing values and interpolation of climate surfaces at the national level. It also provides a characterization of the so called Italian ecoregions, namely broad and discrete ecologically homogeneous areas of similar potential as regards the climate, physiography, hydrography, vegetation and wildlife. To now, Italian ecoregions are hierarchically classified into 4 tiers that go from 2 Divisions to 35 Subsections and are defined by informed expert judgments. The current climatic characterization of Italian ecoregions is based on bioclimatic indices for the period 1955–2000.

Published

2019

9. Biodiversity and ecosystem services in urban green infrastructure planning. A case study from the metropolitan area of Rome (Italy)

Author

B. Mollo, Elisabetta Salvatori, Lina Fusaro, Marta María Alós Ortí, R. Copiz, Laura Zavattero, and G. Capotorti

Subjects

010504 meteorology & atmospheric sciences, Ecology, business.industry, Environmental resource management, Biodiversity, Soil Science, Forestry, Potential natural vegetation, Vegetation, 010501 environmental sciences, 01 natural sciences, Metropolitan area, Forest restoration, Ecosystem services, Geography, air pollution removal, ecological connectivity, ecosystem conditions, environmental and socio-economic benefits, european biodiversity strategy, urban forests and trees, forestry, ecology, soil science, business, Green infrastructure, Air quality index, 0105 earth and related environmental sciences

Abstract

Target 2 of the European Biodiversity Strategy promotes the maintenance and enhancement of ecosystem services The project area covers about 3 000 ha in the urban sector of the metropolitan area of Rome and the GI components consist of 533 ha of areal green spaces and of more than 500 km of road verges. Planned interventions include forest restoration and tree plantations, with a varying service supply according to type and condition of the different components. Potential natural vegetation (PNV) models and dispersal potential of representative forest species, together with structural and functional vegetation models for the enhancement of air pollutants removal, guided the selection of the species to be promoted and of the planting pattern. Environmental benefits of the proposal include more than 30 ha of restored urban forests, about 15 000 planted individuals of native oaks, a sevenfold improvement in ecological connectivity and halved isolation between green spaces. On the other hand, the expected socio-economic benefits include almost 300 000 potential beneficiaries of the improved air quality and avoided costs for damages to human health that range between 40 700 and 130 200 EUR per year. Notwithstanding their preliminary character, these estimates allowed the proposal to highlight the relationship between GI and public health. Moreover, they showed the economic and social effectiveness of nature-based solutions in comparison with further development of grey infrastructure. These results promote the definition of a national GI strategy in Italy.

Published

2019

10. A scenario-based approach to tackle trade-offs between biodiversity conservation and land use pressure in Central Italy

Author

Bruno Lasserre, G. Capotorti, E. Di Pirro, Marco Marchetti, and Lorenzo Sallustio

Subjects

land use change, 0106 biological sciences, Land use, inVEST, business.industry, 010604 marine biology & hydrobiology, Ecological Modeling, Environmental resource management, land use planning, Land-use planning, Land cover, 010603 evolutionary biology, 01 natural sciences, biodiversity conservation, habitat quality, Ecosystem services, Geography, Urban planning, Sustainability, Land use, land-use change and forestry, business, Natura 2000

Abstract

Land Use and Land Cover Changes (LULCC) are recognized among the main drivers affecting biodiversity and ecosystem services. Especially in areas with high biophysical and socioeconomic heterogeneity, the need to find optimal planning solutions to combine human and natural systems still remains an open issue. This study aims to investigate how different planning strategies affecting the spatial arrangement of LULCC can produce different impacts in terms of ecosystem conditions in the Lazio region, Central Italy. Starting from the same LULCC magnitude observed in the past through an inventory approach, three different future scenarios to 2030 were depicted by means of the InVEST tool Scenario Generator: the “Business as Usual” (BaU) and, alternatively, one avoiding changes within the “Natura 2000″ sites (N2K) and another within the regional most “Degraded Municipalities” (DM). The ecological impacts of these scenarios were then assessed using the InVEST Habitat Quality model, adopting Habitat Quality (HQ) as a proxy for biodiversity. In order to characterize LULCC impacts at multiple scales, the assessment was carried out both at the regional level and within distinct ecological units. Independently from the spatial arrangement of projected LULCC, HQ decreased under all three scenarios. Nonetheless, HQ values varied among scenarios, highlighting a strict relationship between the spatial arrangement and the ecological impact of LULCC. Compared to BaU, alternative scenarios, as well as their combination into a “Best Scenario”, reduced negative impacts on HQ. These results highlighted the weak sustainability of pursuing with past urban planning strategies, while allowed to foster innovative planning approaches to mitigate habitats loss and degradation. The proposed methodology was effective to localize the conservation priorities as well as ameliorating the reliability of planning strategies based on their ecological performance. Furthermore, it supports the resolution of planning conflicts between contrasting demands (e.g., urban expansion vs biodiversity conservation), thus enhancing simultaneous benefits for both nature and people.

Published

2021

11. The MAES process in Italy: Contribution of vegetation science to implementation of European Biodiversity Strategy to 2020

Author

Mattia M. Azzella, M. M. Alós Ortí, R. Copiz, Laura Zavattero, I. Anzellotti, B. Mollo, and G. Capotorti

Subjects

0106 biological sciences, business.industry, Process (engineering), Environmental resource management, assessment of conservation status, biodiversity targets, ecosystem mapping, green infrastructure, restoration priorities, Biodiversity, Plant Science, Vegetation, 010603 evolutionary biology, 01 natural sciences, Conservation status, Ecosystem, Relevance (information retrieval), business, Green infrastructure, Restoration ecology, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

Target 2 of the European Biodiversity Strategy to 2020, whose aim was to maintain and restore ecosystems and their services, deals in practical terms with the mapping and assessment of ecosystems and their services, with the development of green infrastructure and with halting the loss of biodiversity at the EU, national, and subnational levels. The aim of this short communication was to show the activities currently being carried out in Italy that are related to this target, focusing on the contribution of vegetation science skills to the national implementation process. In particular, we outline noteworthy inputs in ecosystem mapping, in the assessment of ecosystem conservation status, in the individuation of priorities for the restoration of ecosystems, and in the settingup of an ecological framework to promote green infrastructure. An overview of the process outcomes and their relevance within the national and international contexts is also provided.

Published

2015

12. Mapping and Assessment of PM10 and O3 Removal by Woody Vegetation at Urban and Regional Level

Author

Luca Congedo, Luisella Ciancarella, Lina Fusaro, Michele Munafò, Fausto Manes, Alessandro Sebastiani, G. Capotorti, Carlo Blasi, R. Copiz, and Federica Marando

Subjects

Geographic information system, 010504 meteorology & atmospheric sciences, Land cover, 010501 environmental sciences, ecosystem services, geographic information systems, green infrastructure, human health, MAES, pollutant removal, sentinel-2, well-being, earth and planetary sciences (all), 01 natural sciences, Green Infrastructure, Ecosystem services, Ecosystem, lcsh:Science, Ecosystem Services, 0105 earth and related environmental sciences, business.industry, Ecology, Environmental resource management, Vegetation, Metropolitan area, Geographic Information Systems, General Earth and Planetary Sciences, Environmental science, lcsh:Q, Sentinel-2, business, Green infrastructure, Externality

Abstract

This study is the follow up of the URBAN-MAES pilot implemented in the framework of the EnRoute project. The study aims at mapping and assessing the process of particulate matter (PM10) and tropospheric ozone (O3) removal by various forest and shrub ecosystems. Different policy levels and environmental contexts were considered, namely the Metropolitan city of Rome and, at a wider level, the Latium region. The approach involves characterization of the main land cover and ecosystems using Sentinel-2 images, enabling a detailed assessment of Ecosystem Service (ES), and monetary valuation based on externality values. The results showed spatial variations in the pattern of PM10 and O3 removal inside the Municipality and in the more rural Latium hinterland, reflecting the spatial dynamics of the two pollutants. Evergreen species displayed higher PM10 removal efficiency, whereas deciduous species showed higher O3 absorption in both rural and urban areas. The overall pollution removal accounted for 5123 and 19,074 Mg of PM10 and O3, respectively, with a relative monetary benefit of 161 and 149 Million Euro for PM10 and O3, respectively. Our results provide spatially explicit evidence that may assist policymakers in land-oriented decisions towards improving Green Infrastructure and maximizing ES provision at different governance levels.

Published

2017

13. Combining the Conservation of Biodiversity with the Provision of Ecosystem Services in Urban Green Infrastructure Planning: Critical Features Arising from a Case Study in the Metropolitan Area of Rome

Author

I. Anzellotti, Laura Celesti-Grapow, G. Capotorti, and Eva Del Vico

Subjects

0106 biological sciences, European Green Infrastructure Strategy, Geography, Planning and Development, lcsh:TJ807-830, Biodiversity, lcsh:Renewable energy sources, 010501 environmental sciences, Management, Monitoring, Policy and Law, urban trees, Ecological systems theory, biogeographic representativity, connectivity, ecological coherence, urban forests, 010603 evolutionary biology, 01 natural sciences, Ecosystem services, Urban forestry, lcsh:Environmental sciences, 0105 earth and related environmental sciences, lcsh:GE1-350, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:Environmental effects of industries and plants, Environmental resource management, Building and Construction, Metropolitan area, Geography, lcsh:TD194-195, Sustainability, business, Green infrastructure, Landscape connectivity

Abstract

A large number of green infrastructure (GI) projects have recently been proposed, planned and implemented in European cities following the adoption of the GI strategy by the EU Commission in 2013. Although this policy tool is closely related to biodiversity conservation targets, some doubts have arisen as regards the ability of current urban GI to provide beneficial effects not only for human societies but also for the ecological systems that host them. The aim of this work is to review the features that should be considered critical when searching for solutions that simultaneously support biodiversity and guarantee the provision of ecosystem services (ES) in urban areas. Starting from a case study in the metropolitan area of Rome, we highlight the role of urban trees and forests as proxies for overall biodiversity and as main ecosystem service providers. We look beyond the individual functional features of plant species and vegetation communities to promote the biogeographic representativity, ecological coherence and landscape connectivity of new or restored GI elements.

Published

2016

14. Local Scale Prioritisation of Green Infrastructure for Enhancing Biodiversity in Peri-Urban Agroecosystems: A Multi-Step Process Applied in the Metropolitan City of Rome (Italy)

Author

G. Capotorti, Marta María Alós Ortí, and Vera De Lazzari

Subjects

Geography, Planning and Development, 0211 other engineering and technologies, Biodiversity, TJ807-830, 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, urban–rural interface, Ecosystem services, GE1-350, natural biodiversity in agroecosystems, ecological connectivity, ecosystem condition, hedgerows, river corridors, urban-rural interface, Environmental planning, 0105 earth and related environmental sciences, Riparian zone, Sustainable development, geography, geography.geographical_feature_category, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, 021107 urban & regional planning, Metropolitan area, Ecological network, Environmental sciences, Sustainability, Business, Green infrastructure

Abstract

Urban&ndash, rural interfaces represent complex systems that require complex solutions for sustainable development and resilience against pollution, habitat fragmentation, biodiversity loss and impaired flux of ecosystem services (ES). Green infrastructure (GI) is increasingly recognised as an effective tool for addressing such a complexity, but needs priority setting to maximise benefits and minimise drawbacks of implementation. Therefore, a prioritisation approach focused on biodiversity and ES in peri-urban areas is required. In the present work, a systematic and hierarchical framework is proposed for setting priority GI objectives, location and actions aimed at enhancing local biodiversity, ES flux and farming sustainability in urban peripheries. By means of a case study in the Metropolitan City of Rome, the framework allowed identification of the main demand for ES and biodiversity, the most suitable location for GI implementation, and the best cost-effective actions. The GI implementation showed an improvement in terms of wooded hedgerow density, an increase regarding the ecological connectivity of riparian ecosystems, and an increment of agroecosystems designated to enhance the ecological network and wildlife support. Finally, the prioritisation framework contributes to fostering environmental benefits while complying with regulations and management practices from the regional to the farm/field decision level.

Published

2019

15. Land units map of Italy

Author

D. Smiraglia, Domenico Guida, B. Mollo, G. Capotorti, Carlo Blasi, and V. Siervo

Subjects

Geographic information system, Geography, Thematic map, business.industry, Homogeneous, Geography, Planning and Development, Sustainability, Earth and Planetary Sciences (miscellaneous), Classification scheme, business, Cartography, Unit (housing)

Abstract

In this paper we present the land units map of Italy, covering an area of ca. 300,000 km2 between 47°05′ N–35°29′ N and 6°37′ E–18°31′ E. The map was created by means of a Geographic Information System (GIS) and is based on the overlay of various thematic maps according to a hierarchical classification. The map scale is 1:250,000, with a minimum mapping unit of 50 ha. The GIS integration of different layers, covering the main environmental components (climate, lithology and geomorphology), resulted in a number of hierarchically arranged land units, homogeneous in terms of biotic potential and ecological processes. These units highlight the role of physical determinism in characterizing the Italian territory with a high degree of environmental heterogeneity. The proposed land classification scheme could be taken into consideration when planning initiatives aimed at surveying, monitoring, managing and sustainably developing the territory.

Published

2013

16. Exploring biodiversity in a metropolitan area in the Mediterranean region: The urban and suburban flora of Rome (Italy)

Author

E. Lattanzi, A. Tilia, E. Del Vico, Laura Celesti-Grapow, and G. Capotorti

Subjects

Flora, threatened species, Agroforestry, green infrastructures, Biodiversity, plant conservation, Urban sprawl, landscape features heterogeneity, urban compaction, native flora, Plant Science, Native plant, Metropolitan area, Geography, Habitat, Environmental protection, Threatened species, Ruderal species, Ecology, Evolution, Behavior and Systematics

Abstract

This work provides an overview of plant diversity in the municipality of Rome (Italy) through an assessment of the flora in urban and suburban sectors of the city. It is aimed at providing the knowledge required to support proactive action for plant conservation. On the basis of a literature-derived catalogue and of an extensive survey campaign, the flora was investigated in terms of conservation interest; habitat types and locations that require protection measures were identified according to the occurrence of valuable native plants. Valuable species exclusive of the urban sector are threatened by the compaction trend affecting the urban fabric. Such species occur mainly in ruderal environments and fallows of archaeological sites and urban parks, near river courses and in remnants of natural forests. Valuable species exclusive of the suburban sector are threatened by urban sprawl. They occur prevalently in wet environments of the subcoastal strip and in coastal sands, Mediterranean maquis, tuffaceous go...

Published

2013

17. Regulating ecosystem services of forests in ten Italian metropolitan cities. Air quality improvement by PM10 and O3 removal

Author

Federica Marando, Mihaela Mircea, Gherardo Chirici, Michele Munafò, Lina Fusaro, Carlo Blasi, Fausto Manes, Elisabetta Salvatori, Luisella Ciancarella, Marco Marchetti, G. Capotorti, Mircea, M., and Ciancarella, L.

Subjects

Pollution, monetary valuation, 010504 meteorology & atmospheric sciences, media_common.quotation_subject, air pollution removal, Air pollution, General Decision Sciences, 010501 environmental sciences, medicine.disease_cause, 01 natural sciences, Green Infrastructure, Ecosystem services, Environmental protection, medicine, Ecosystem, Monetary valuation, Ecosystem Services, Green Infrastructures, Air pollution removal, Urban forests, Air quality index, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, media_common, Ecology, green infrastructures, Vegetation, ecosystem services, urban forests, Ecosystem Service, Metropolitan area, Environmental science, Green infrastructure

Abstract

Urban and periurban forests, which are integrated within the concept of Green Infrastructure, provide important Ecosystem Services, including air purification. In this study, we quantified the Ecosystem Service of particulate matter (PM10) and Ozone (O3) removal from urban and periurban forests in ten metropolitan cities in Italy, and its total monetary value. In order to gain a better understanding of how Ecosystem Services can be regulated on a wider scale, the vegetation ecosystem types were grouped into Physiognomic-Structural Categories of Vegetation according to morphofunctional criteria. The pollution removal was mapped using a remote sensing and GIS approach, by applying a deposition model and a stomatal flux model. We estimated, for the ten metropolitan cities, an overall pollution abatement of 7150 Mg of PM10 and 30,014 Mg of O3 in the year 2003, which was an extremely hot year. Our findings indicate that structural characteristics (i.e. Leaf Area Index) and functional diversity, linked to stomatal conductance, exert a marked influence on the provision of the regulating Ecosystem Services, whose total monetary value was estimated to be equal to 47 and 297 million USD for PM10 and O3 removal, respectively. This study represent the first national-scale assessment of the Ecosystem Services of air pollution removal in Europe, thus providing information that may be useful to stakeholders to manage Green Infrastructure more efficiently. © 2016 Elsevier Ltd. All rights reserved.

Published

2016

18. Ecological portrayal of old‐growth forests and persistent woodlands in the Cilento and Vallo di Diano National Park (southern Italy)

Author

Carlo Blasi, Roberto Tognetti, Daniela Baldantoni, M. Sellitto, G. Capotorti, Marco Marchetti, Fabio Lombardi, Claudio Colombo, Ugo Chiavetta, S. Bonacquisti, R. Copiz, Anna Barbati, Barbara Ferrari, Anna Alfani, Paola Iovieno, and Giuseppe Palumbo

Subjects

Mediterranean climate, geography, biodiversity, persistent woodlands, managed stands, ecological characterization, mediterranean region, old-growth forests, soil, geography.geographical_feature_category, National park, business.industry, Ecology, Forest management, Environmental resource management, Mediterranean region, soil biodiversity, Biodiversity, Plant Science, Woodland, Vegetation, Old-growth forest, Mediterranean Basin, Old-growth forests - Persistent woodlands - Managed stands - Mediterranean region - Ecological characterization - Soil - Biodiversity, business, Ecology, Evolution, Behavior and Systematics

Abstract

The maintenance of certain levels of old forest represents a cornerstone of the EU’s biodiversity management strategy. A consensus on a single general ecological definition of old‐growth is particularly difficult in Mediterranean Europe. The present paper deals with old‐growth forests and persistent woodlands in the Cilento and Vallo di Diano National Park (PNCVD) to give an ecological understanding of forest complexity and dynamics under a multiscale and multidisciplinary perspective. The multiscale approach ranged from the identification and mapping of potential old‐growth stands at landscape scale to a two‐level field review of forest stand features. Field sampling involved a multidisciplinary team of researchers in forest structure, pedologic environment, soil microbial activity, flora and vegetation and deadwood components. The research provided sound knowledge about old‐growthness features in the PNCVD that constitutes a unique case study in the whole Mediterranean basin. The integration of...

Published

2010

19. Setting priorities for urban forest planning. A comprehensive response to ecological and social needs for the metropolitan area of Rome (Italy)

Author

Laura Zavattero, I. Anzellotti, G. Capotorti, Laura Celesti-Grapow, and B. Mollo

Subjects

restoration, Ecological health, Geography, Planning and Development, TJ807-830, connectivity, ecological classification of land, ecological network, ecosystem services, green infrastructure, landscape conservation status, nature-based solutions, sustainable urban planning, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, Ecosystem services, Urban forestry, Urban planning, jel:Q, GE1-350, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, Ecology, Environmental resource management, jel:Q0, jel:Q2, jel:Q3, jel:Q5, Ecological network, Environmental sciences, jel:O13, Sustainability, jel:Q56, Urban resilience, business, Green infrastructure

Abstract

Urban forests represent key elements of green infrastructure and provide essential ecosystem services in both the ecological and social spheres. Therefore, forestation planning plays a decisive role in the sustainable development strategies of metropolitan areas and addresses the challenge of maintaining biodiversity while improving human health and well-being. The aim of this work is to present a methodological approach that can be used to identify priorities in urban forest planning and can provide comprehensive responses to ecological and social needs in any metropolitan context. The approach, which is based on interdisciplinary principles of landscape ecology, ecosystem geography and dynamic plant sociology, has been adopted in the Municipality of Rome (Italy). The first step entails defining an ecological framework for forestation plans by means of the ecological land classification and assessment of landscape conservation status. The second step entails setting forestation priorities according to both ecological and social criteria. The application of the method proved to effectively select limited areas requiring intervention within an extensive metropolitan area. Furthermore, it provided responses to sustainability issues such as long-term maintenance of restored habitats, landscape perspective of planning, greening of urban agriculture, improvement in urban resilience, and cost-effective improvement in ecosystem services provision.

Published

2015

20. Defining and mapping typological models at the landscape scale

Author

G. Capotorti, R. Frondoni, and Carlo Blasi

Subjects

landscape ecology, landscape units, Soft landscape materials, business.industry, Landscape epidemiology, Ecology, Environmental resource management, roman area, sigmeta, Hard landscape materials, plant sociology, Plant Science, Landscape design, geosigmeta, Geography, Ecotope, Landscape assessment, Landscape ecology, business, Landscape planning, Ecology, Evolution, Behavior and Systematics

Abstract

This paper aims to discuss the role of plant sociology in the framework of ecology and biodiversity conservation, and to present an experimental approach that promotes the integration of vegetation science with landscape ecology. A new model of deductive plant sociology at the landscape level is proposed, which is rooted in the traditional approach but relates to the landscape ecology of the ‘European school’ for its emphasis on landscape classification. Using the case study of the Municipality of Rome, a methodological process for defining and mapping vegetation series, geosigmeta and landscape units is proposed, based on the overlay of climatic, lithomorphological, floristic and vegetation information, the latter in its syntaxonomical and dynamical aspects. At the landscape level plant sociology can significantly contribute to formalize ecological models based on complex isofunctional units and helpful in environmental management and planning.

Published

2005

21. Classification and mapping of the ecoregions of Italy

Author

Carlo Blasi, C. Blasi, G. Capotorti, Daniela Smiraglia, R. Copiz, Giulia Capotorti, Riccardo Copiz, D. Guida, Domenico Guida, B. Mollo, Barbara Mollo, D. Smiraglia, Laura Zavattero, L. Zavattero, Carlo Blasi, C. Blasi, G. Capotorti, Daniela Smiraglia, R. Copiz, Giulia Capotorti, Riccardo Copiz, D. Guida, Domenico Guida, B. Mollo, Barbara Mollo, D. Smiraglia, Laura Zavattero, and L. Zavattero

Published

2015

22. The vascular flora of Rome

Author

L. Celesti-Grapow, G. Capotorti, E. Del Vico, E. Lattanzi, A. Tilia, C. Blasi, L. Celesti-Grapow, G. Capotorti, E. Del Vico, E. Lattanzi, A. Tilia, and C. Blasi

Published

2015

23. The vascular flora of Rome

Author

Laura Celesti-Grapow, A. Tilia, Carlo Blasi, G. Capotorti, E. Del Vico, and E. Lattanzi

Subjects

Vascular plant, Flora, biology, Ecology, species inventories, nature conservation, plant invasion, mediterranean basin, urban biodiversity, italy, Species diversity, Plant Science, biology.organism_classification, Metropolitan area, Floristics, Herbarium, Taxon, Ecology, Evolution, Behavior and Systematics, Plant diversity

Abstract

The aim of this paper is to document plant diversity in the metropolitan area of Rome (Italy) by providing a comprehensive inventory of the present-day vascular flora and an overview of its composition and species diversity. We compiled the floristic catalogue by including all vascular plant entities that occur spontaneously within the administrative boundaries of the Rome municipality. The data, which were gathered from extensive field surveys, from a broad review of the literature and from herbaria records, were updated and integrated in a comprehensive account. The inventory of the flora of metropolitan Rome lists 1649 entities, from 139 families and 677 genera. The flora contains 228 taxa that are non-native to the Italian flora, 81 of which are established in the study area. The overview of flora reveals a remarkable species diversity and outlines the main characteristics of the flora of Rome, which may be summarized as (1) a large number of taxa of high conservation value which occur in remnants of near-natural vegetation, (2) the loss or decline of some species, particularly of native freshwater plants, (3) a remarkably high native species richness within the urban area, which includes many native woody species and (4) a rich ruderal flora, prevalently composed of native species that are well adapted to human disturbance, along with a variety of taxa of non-native or uncertain origin. The large set of data and the overview presented in this paper represent a fundamental framework for future research and for the conservation of plant diversity in metropolitan Rome.

Published

2013

24. NATURAL VEGETATION AND ECOSYSTEM SERVICES RELATED TO AIR QUALITY IMPROVEMENT: TROPOSPHERIC OZONE REMOVAL BY EVERGREEN AND DECIDUOUS FORESTS IN LATIUM (ITALY)

Author

F. Manes, C. Blasi, E. Salvatori, G. Capotorti, G. Galante, E. Feoli, and G. Incerti

Subjects

ECOSYSTEM SERVICES VALUATION, Deciduous and evergreen vegetation, Ecosystem services valuation, Thematic maps, Tropospheric ozone removal, Plant Science, DECIDUOUS AND EVERGREEN VEGETATION, lcsh:Botany, TROPOSPHERIC OZONE REMOVAL, THEMATIC MAPS, ECOSYSTEM SERVICES VALUATION, DECIDUOUS AND EVERGREEN VEGETATION, TROPOSPHERIC OZONE REMOVAL, THEMATIC MAPS, lcsh:QK1-989

Abstract

The background concentrations of tropospheric ozone (O3) are increasing in both industrialized and developing countries, thus posing a concrete risk to human health, natural vegetation and crops. Several papers have reported that the total O3 flux from the atmosphere to canopy surfaces can have positive effects on air quality, and consequently to human health and wellbeing. In this work, we have estimated the role of the main natural woody vegetation classes of the CORINE Land cover Classification System in the Latium Region (Central Italy) in removing O3 during the growing season of the year 2005. Cumulated O3 fluxes data allowed to estimate the externality value of this ecosystem service provided by deciduous and evergreen forests in the Latium region to be around a total value of 85025821. In the Apennine chain Province, this value should be around 57248431 $ while in the Tyrrhenian Borderland Province 2286567 $, 22376136 $ and 3114686 $ for deciduous and evergreen forests, respectively. This corresponds, for the growing season 2005, to a total value of 85025821 $ attributable to the ecosystem service of tropospheric O3 removal provided by the natural forests of the Latium region. Although we acknowledge the uncertainty in producing such estimate, we think our effort as a useful first contribution addressed to the monetization of one of the ecosystem services of Italian forests at a regional level, and more in general, to open the discussion in a field that would be very useful in forest management and environmental policy-making.&nbsp

Published

2012

25. Carbon sequestration by forests in the National Parks of Italy

Author

G. Capotorti, Roberto Tognetti, M. Ottaviano, Laura Zavattero, Lorenzo Sallustio, Marco Marchetti, Piermaria Corona, and Anna Barbati

Subjects

Forest ecosystems, geography, geography.geographical_feature_category, Forest management, nature conservation, forest ecosystems, forest types, global change, carbon sink, carbon stock, Carbon sink, Global change, Plant Science, forest ecosystem, carbon sequestration, Carbon sequestration, Forest types, Sink (geography), Environmental protection, Nature conservation, Nature Conservation, Forest ecology, Environmental science, Carbon stock, Ecology, Evolution, Behavior and Systematics, Stock (geology)

Abstract

Recent attempts to mitigate global change have brought forestry-based carbon (C) sequestration into sharp focus due to its potential to absorb CO2 from the atmosphere. However, the consequences of actual forest management practices on C storage capacity are still controversial to a certain extent. Under such a perspective, a distinctive relevant issue concerns the management of forest ecosystems within areas specifically designated for nature conservation. From the analysis of biomass data from forests in the National Parks of Italy, we found that the average forest C stock and sink per unit area is relatively higher within National Parks (81.21 and 2.18 tons ha71, respectively) than on the overall national territory (76.11 and 1.12 tons ha71 year71, respectively). The analysis confirms the influence of ecological conditions and management approach on C sequestration capacity. Although the results of the proposed assessment approach have to be considered as rough estimates, the trial proves interesting, given the relative lack of specific information, at least on a large scale, about C stocks and sinks within forest areas designated for nature conservation, and the direct comparison with those forest areas not designated to such an end. The C storage capacity can be enhanced by increasing the productivity of forests, minimizing the disturbance to stand structure and composition. Extending conservation strategies adopted in National Parks to other forest areas of the national territory would allow the restoration of C sequestration potential, where unsustainable management practices have degraded relatively large stocks of biomass. L'articolo è disponibile sul sito dell'editore www.tandfonline.com

Published

2012

26. Do National Parks play an active role in conserving the natural capital of Italy?

Author

I. Anzellotti, Carlo Blasi, Laura Zavattero, D. Smiraglia, Michela Marignani, Sabina Burrascano, G. Capotorti, R. Frondoni, and Marco Marchetti

Subjects

business.industry, Environmental resource management, environmental accounting, Biodiversity, Plant Science, Vegetation, Environmental accounting, landscape conservation status, Geography, Work (electrical), Important Plant Areas, Threatened species, biodiversity indicators, Conservation status, conservation policies, protected areas, Natural capital, business, Ecology, Evolution, Behavior and Systematics

Abstract

The aims of this paper are to describe the state of the environmental knowledge of the terrestrial National Parks (NPs) in Italy and to assess their conservation status and their efficacy to deal with the pressures of land changes. We collected and analysed data regarding land units, vegetation series, old-growth forests, Important Plant Areas (IPAs) and changes in landscape conservation status, to provide a systemic overview of the condition of the NPs and to verify their effectiveness against pressures and impacts induced by human activities. Moreover, NPs were organised according to the ecoregional setting for a multi-scale interpretation of biodiversity baselines and indicators. The results highlight the essential role of NP system for biodiversity conservation in Italy. The long-term protection regime proved to be particularly effective as a means of conserving ageing forest communities, threatened vascular plants and contrasting threats posed by human-induced changes. However, this work poi...

Published

2012

27. Multi-taxon and forest structure sampling for identification of indicators and monitoring of old-growth forest

Author

G. Capotorti, Paolo Audisio, Carlo Blasi, E. Del Vico, Marco Marchetti, Mattia M. Azzella, A. Tilia, Sabina Burrascano, Ugo Chiavetta, Michele Aleffi, Sonia Ravera, Anna Maria Persiani, Giorgio Brunialti, and E. Lattanzi

Subjects

multi-taxon species lists, structural attributes, species co-occurrence, forest structure, indicators, structure-based indicators, taxon-based indicators, old growth forest, geography, geography.geographical_feature_category, Ecology, Biodiversity, Sampling (statistics), Plant Science, Biology, Old-growth forest, Taxon, Indicator species, Identification (biology), Species richness, Lichen, Ecology, Evolution, Behavior and Systematics

Abstract

The most commonly used old‐growth forest indicators are structural attributes; nevertheless, they do not necessarily represent the biodiversity value of old‐growth forests. The aim of this study is to analyse the relationships between species richness data of different taxa and structural indicators of old‐growth and to identify taxonomic/functional groups, species and structural attributes that may be used as indicators of old‐growth. To achieve this goal we sampled forest structure, vascular plants, lichens, bryophytes, fungi, saproxylic beetles and birds in mature and old‐growth stands in southern Italy. We calculated Spearman’s correlation coefficients between species richness data and structural attributes. Analyses of indicator species, co‐occurrences and two‐way clusters were performed on the multi‐taxonomic list. The group of vascular plants most significantly correlated with other groups in terms of species richness; furthermore, it displays the highest proportion of between‐group co‐occ...

Published

2010

28. Classification and mapping of the ecoregions of Italy

Author

C. Blasi, G. Capotorti, R. Copiz, D. Guida, B. Mollo, D. Smiraglia, L. Zavattero, C. Blasi, G. Capotorti, R. Copiz, D. Guida, B. Mollo, D. Smiraglia, and L. Zavattero

Published

2014

29. Phytoremediation of a metal-contaminated industrial soil of Porto Marghera

Author

L.Pietrosanti, Pietrini F, M. Zacchini, G. Matteucci, A. Massacci, and G. Capotorti

Published

2009

30. Hydrological control and phytoremediation by poplar and willow clones in a contamineted industrial site in Venice lagoon

Author

L. Pietrosanti, G. Matteucci, F. Pietrini, S. Stivanello, G. Capotorti, M. Molinari, E. Magnani, G. Santarelli., M.C. Zuin, R. Aromolo, and A. Massacci

Subjects

PHYTOREMEDIATION, VENICE LAGOON

Abstract

The possibility to balance the rainfall by the evapotranspiration of a poplar and willow plantation has been investigated in an artificial Island of the Venice Lagoon (Isola dei Petroli) whose soil is contaminated with As, Cd, Pb, and Zn and surrounded by a deep insulating wall. One of the objectives was to individuate the best clones of the two Salicaceae (three poplars and willows) with the highest transpiration and extraction capacity of these metals. Further, the natural vegetation and a plantation of Pteris vittata were also evaluated for their ability to extract metals from the top soil.. Poplars showed higher tolerance to soil contaminants measured as the maintenance of a high photosynthesis-related parameters and transpiration rates per plant per day were also higher in poplars compared to willows. The plantation in short rotation density proved to be efficient in removing the rainfall available in the soil in excess of the field capacity during the vegetative season.

Published

2008

31. An integrated approach to better define the concept and functions of Urban Biosphere Reserves

Author

Miriam Marta, Marina Marchese, Carlo Blasi, and G. Capotorti

Subjects

business.industry, Environmental resource management, Urban density, Biosphere, Context (language use), Plant Science, urban biosphere reserve design, urban sustainability, local planning strategies, unesco-mab programme, Metropolitan area, Geography, Urban planning, Sustainability, Landscape ecology, business, Inclusion (education), Ecology, Evolution, Behavior and Systematics

Abstract

The UNESCO-MAB Programme, and in particular the Biosphere Reserve Network, is described within the context of international strategies aimed at ecological sustainability in cities. An innovative acceptation of Biosphere Reserves for urban areas, based on the landscape ecology principle of the integration of natural, social, economic and cultural knowledge, is proposed. The interdisciplinary definition of structure and functions for Urban Biosphere Reserves envisages: (i) the inclusion of the whole metropolitan territory within the Reserve's boundaries; (ii) specific criteria for the delimitation of core areas and buffer zones in urban and periurban contexts; (iii) special focus on transition area requirements; (iv) the improvement in living conditions and a solution to the conflict between humans and the environment by enhancing and harmonizing the overall natural, economic, social and cultural qualities of cities; and (v) support for sustainable planning strategies on a local scale rather than t...

Published

2008

32. The vascular flora of Rome

Author

L. Celesti-Grapow, G. Capotorti, E. Del Vico, E. Lattanzi, A. Tilia, C. Blasi, L. Celesti-Grapow, G. Capotorti, E. Del Vico, E. Lattanzi, A. Tilia, and C. Blasi

Published

2013

33. Green infrastructure design for the containment of biological invasions. Insights from a peri-urban case study in Rome, Italy.

Author

Montaldi A, Iamonico D, Del Vico E, Valeri S, Lasinio GJ, and Capotorti G

Subjects

Rome, Italy, Forests, Introduced Species, Conservation of Natural Resources methods, Ecosystem, Biodiversity

Abstract

Secondary shrublands and transitional woodland/shrub formations are recognised to be particularly susceptible to plant invasions, one of the main global threats to biodiversity, especially in dynamic peri-urban landscapes. Urban fringes are in fact often the place for the sprawl of artificial surfaces, fragmentation of habitats, and complex land transitions (including both agriculture intensification and abandonment), which in turn increase propagule pressure of exotic species over residual semi-natural ecosystems. Within this framework, the present study was aimed at analysing i) how landscape composition and configuration affect the richness of woody exotic species in shrubland and transitional woodland/shrub patches, and ii) how this threat can be addressed by means of green infrastructure design in a peri-urban case study (Metropolitan City of Rome, Italy). Accordingly, the occurrence of exotic plants was recorded with field surveys and then integrated with landscape analyses, both at patch level and over a 250 m buffer area around each patch. Thus, the effect of landscape features on exotic plant richness was investigated with Generalised Linear Models, and the best model identified (pseudo R-square = 0.62) for inferring invasibility of shrublands throughout the study area. Finally, a Green Infrastructure (GI) to contain biological invasion was planned, based on inferred priority sites for intervention and respective, site-tailored, actions. The latter included not only the removal of invasive woody alien plants, but also reforestation and planting of native trees for containment of dispersal and subsequent establishment. Even though specifically developed for the study site, and consistent with local government needs, the proposed approach represents a pilot planning process that might be applied to other peri-urban regions for the combined containment of biological invasions and sustainable development of peripheral complex landscapes., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

34. Pyrene and benzo(a)pyrene metabolism by an Aspergillus terreus strain isolated from a polycylic aromatic hydrocarbons polluted soil.

Author

Capotorti G, Digianvincenzo P, Cesti P, Bernardi A, and Guglielmetti G

Subjects

Aspergillus genetics, Culture Media, Magnetic Resonance Spectroscopy, Soil Pollutants metabolism, Aspergillus metabolism, Benzo(a)pyrene metabolism, Biodegradation, Environmental, Polycyclic Aromatic Hydrocarbons metabolism, Pyrenes metabolism

Abstract

A strain of Aspergillus terreus was isolated from a polycyclic aromatic hydrocarbons (PAHs) polluted soil. The metabolism of pyrene and benzo(a)pyrene by this fungus was investigated in liquid submerged culture added of 50 and 25 ppm respectively of each compound. Depletion of pyrene and Benzo(a)pyrene was evident during the first stages of growth and was 60% and 27.5% respectively of the added amount after nine days of culture. Solvent extracts of the fermentation broth and mycelium were analysed for presence of metabolites by HPLC-MS technique. Under the present cultural conditions pyrene was mainly metabolised to pyrenylsulfate similarly to benzo(a)pyrene that led to benzo(a)pyrenylsulfate. The structure of 1-pyrenilsulfate was determined after purification of extracts and H-NMR analysis. The result show that the isolated A. terreus strain metabolises PAHs by reaction similar to those previously reported for non lignolinolytic fungi with a mechanism that suggests the hydroxylation by a cytochrome P-450 monooxygenase followed by conjugation with sulfate ion.

Published

2004