Loading...
Pubblicazioni Scientifiche
Filtri di ricerca 6 risultati
Pubblicazioni per anno
Indicators for the assessment and certification of cork oak management sustainability in Italy
Pollastrini
,
M.
,
Chiavetta
,
U.
,
Cutini
,
Andrea
,
Casula
,
Antonio
,
Maltoni
,
Sara
,
Dettori
,
Sandro
,
Corona
,
P.
italy
forest management planning
non-wood forest products
quercus suber
sardinia
sustainable forest management
Mostra abstract
Sustainable forest management (SFM) is crucial for forest ecosystem productivity and conservation, especially in systems such as cork oak (Quercus suber L.) threatened by human activities and biotic and abiotic factors. In this study SFM indicators with particular reference to cork oak forests in the region of Sardinia (Italy) are proposed and tested. Sustainable and responsible management options specifically aimed at cork oak forest management and chain of custody certification are also provided. A set of ten indicators was proposed and assessed by an expert panel in cork oak management. Five indicators were also tested against data on structure, origin, health condition and management in 285 forest compartments managed by FoReSTAS (Regional Forest Agency for Land and Environment of Sardinia, Italy), including 361 sampling plots and 5345 trees. In order to investigate the priorities and perceptions of SFM experts and stakeholders, a survey was also carried out by completion of a questionnaire on the technical issues of cork oak woodland management. The survey results highlighted a need to improve environmental and economic performance by means of SFM and certification. The indicators tested in Sardinian cork oak woodlands showed that about 80% of the stands fulfilled management sustainability requirements. The suggested SFM indicators can effectively support proactive management and conservation measures, representing a valuable tool in the current context of growing environmental and socioeconomic awareness. © SISEF.
One to rule them all? Assessing the performance of sustainable forest management indicators against multitaxonomic data for biodiversity conservation
Paillet
,
Yoan
,
Zapponi
,
Livia
,
Schall
,
Peter
,
Monnet
,
Jean Matthieu
,
Ammer
,
Christian
,
Balducci
,
Lorenzo
,
Boch
,
Steffen
,
Brazaitis
,
Gediminas
,
Campanaro
,
Alessandro
,
Chianucci
,
Francesco
,
Doerfler
,
Inken
,
Fischer
,
Markus
,
Gosselin
,
Marion
,
Goßner
,
Martin M.
,
Heilmann-Clausen
,
Jacob
,
Hofmeister
,
Jeňýk
,
Hošek
,
Jan
,
Jung
,
Kirsten G.
,
Kepfer-Rojas
,
Sebastian
,
Ódor
,
Péter
,
Tinya
,
Flóra
,
Trentanovi
,
Giovanni
,
Vacchiano
,
Giorgio
,
Vandekerkhove
,
Kris
,
Weisser
,
Wolfgang W.
,
Wohlwend
,
Michael Rudolf
,
Burrascano
,
Sabina
Mostra abstract
Several regional initiatives and reporting efforts assess the state of forest biodiversity through broad-scale indicators based on data from national forest inventories. Although valuable, these indicators are essentially indirect and evaluate habitat quantity and quality rather than biodiversity per se. Therefore, their link to biodiversity may be weak, which decreases their usefulness for decision-making. For several decades, Forest Europe indicators assessed the state of European forests, in particular their biodiversity. However, no extensive study has been conducted to date to assess their performance – i.e. the capacity of the indicators to reflect variations in biodiversity – against multitaxonomic data. We hypothesized that no single biodiversity indicator from Forest Europe can represent overall forest biodiversity, but that several indicators would reflect habitat quality for at least some taxa in a comprehensive way. We tested the set of Forest Europe's indicators against the species richness of six taxonomic and functional groups across several hundreds of sampling units over Europe. We showed that, while some indicators perform relatively well across groups (e.g. deadwood volume), no single indicator represented all biodiversity at once, and that a combination of several indicators performed better. Forest Europe indicators were chosen for their availability and ease of understanding for most people. However, we showed that gaps in the monitoring framework persist, and that surveying certain taxa along with stand structure is necessary to support policymaking and tackle forest biodiversity loss at the large scale. Adding context (e.g. forest type) may also contribute to increase the performance of biodiversity indicators. © 2024 Elsevier Ltd
Silvicultural regime shapes understory functional structure in European forests
Chianucci
,
Francesco
,
Napoleone
,
Francesca
,
Ricotta
,
Carlo
,
Ferrara
,
Carlotta
,
Fusaro
,
Lina
,
Balducci
,
Lorenzo
,
Trentanovi
,
Giovanni
,
Bradley
,
Owen
,
Kovács
,
Bence
,
Mina
,
Marco
,
Cerabolini
,
Bruno Enrico Leone
,
Vandekerkhove
,
Kris
,
de Smedt
,
Pallieter
,
Lens
,
Luc
,
Hertzog
,
Lionel R.
,
Verheyen
,
Kris
,
Hofmeister
,
Jeňýk
,
Hošek
,
Jan
,
Matula
,
Radim
,
Doerfler
,
Inken
,
Müller
,
Jörg C. C.
,
Weisser
,
Wolfgang W.
,
Helback
,
Jan
,
Schall
,
Peter
,
Fischer
,
Markus
,
Heilmann-Clausen
,
Jacob
,
Riis-Hansen
,
Rasmus
,
Goldberg
,
Irina
,
Aude
,
Erik
,
Kepfer-Rojas
,
Sebastian
,
Kappel Schmidt
,
Inger
,
Riis-Nielsen
,
Torben
,
Mårell
,
Anders
,
Dumas
,
Yann
,
Janssen
,
Philippe
,
Paillet
,
Yoan
,
Archaux
,
Frédéric
,
Xystrakis
,
Fotios
,
Tinya
,
Flóra
,
Ódor
,
Péter
,
Aszalós
,
Réka
,
Bölöni
,
János
,
Cutini
,
Andrea
,
Bagella
,
Simonetta
,
Sitzia
,
Tommaso
,
Brazaitis
,
Gediminas
,
Marozas
,
Vitas
,
Ujházyová
,
Mariana
,
Ujházy
,
Karol
,
Máliš
,
František
,
Nordén
,
Björn
,
Burrascano
,
Sabina
functional diversity
functional redundancy
forest understory
sustainable forest management
unmanaged forests
ecosystem resilience
silvicultural regime
Mostra abstract
Managing forests to sustain their diversity and functioning is a major challenge in a changing world. Despite the key role of understory vegetation in driving forest biodiversity, regeneration and functioning, few studies address the functional dimensions of understory vegetation response to silvicultural management. We assessed the influence of the silvicultural regimes on the functional diversity and redundancy of European forest understory. We gathered vascular plant abundance data from more than 2000 plots in European forests, each associated with one out of the five most widespread silvicultural regimes. We used generalized linear mixed models to assess the effect of different silvicultural regimes on understory functional diversity (Rao's quadratic entropy) and functional redundancy, while accounting for climate and soil conditions, and explored the reciprocal relationship between three diversity components (functional diversity, redundancy and dominance) across silvicultural regimes through a ternary diversity diagram. Intensive silvicultural regimes are associated with a decrease in functional diversity and an increase in functional redundancy, compared with unmanaged conditions. This means that although intensive management may buffer communities' functions against species or functional losses, it also limits the range of understory response to environmental changes. Policy implications. Different silvicultural regimes influence different facets of understory functional features. While unmanaged forests can be used as a reference to design silvicultural practices in compliance with biodiversity conservation targets, different silvicultural options should be balanced at landscape scale to sustain the multiple forest functions that human societies are increasingly demanding. © 2024 The Author(s). Journal of Applied Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society.
A simple multivariate analysis to assess diversity in a complex long-term managed forest area in central Italy
forest biodiversity
forest ecosystems
sustainable forest management
correlation
principal components analysis
Mostra abstract
Today wood and nonwood forest resources management meets and often clashes with environment and biological diversity protection. A main problem is to understand relationships between the different roles of forest biodiversity, site, and management parameters. A multivariate statistical analysis has been carried out in order to interpret relationships between some forest biodiversity components and forest inventory data. Several indices of floristic diversity, species abundance, and structural heterogeneity at stand level have been calculated. The different components of forest biodiversity were separated by principal components analysis. Relations between forest biodiversity indices and site and management attributes have been investigated by two multivariate statistical techniques: bivariate correlation analysis and multiple linear regression. Results showed a high correlation between all the investigated components of forest biodiversity and some topographic and/or forest management attributes. Results also gave ancillary information to define sustainable forest management criteria. © 2014 Società Botanica Italiana.
Mapping forest ecosystem functions for landscape planning in a mountain Natura2000 site, Central Italy
sustainable forest management
forest ecosystem functions
forest landscape management planning
k-nn
multi-criteria and multi-level approach
Mostra abstract
In last decades, numerous efforts have been carried out by the scientific community to assess the multifunctional role of forests in supporting the forest decision-making processes. Recently developed in Italy, the Forest Landscape Management Planning seems to be the most suitable tool to maintain the sustainability balance between forests and local populations. This research identifies and maps different forest ecosystem functions in a mountain Natura2000 Network site by performing a spatial estimation of forest inventory parameters, and implementing a multi-criteria and multi-level approach. Final results on mapping of forest functions show acceptable values of classification accuracy. © 2014 University of Newcastle upon Tyne.
Assessment of potential bioenergy from coppice forests trough the integration of remote sensing and field surveys
Lasserre
,
Bruno
,
Chirici
,
Gherardo
,
Chiavetta
,
U.
,
Garfì
,
Vittorio
,
Tognetti
,
Roberto
,
Drigo
,
Rudi
,
Di Martino
,
P.
,
Marchetti
,
Marco
remote sensing
forest inventory
sustainable forest management
coppice
firewood biomass
k-nearest neighbours
Mostra abstract
A spatially explicit knowledge of forest resources is essential to support the sustainable use of wood as a fuel for producing energy (firewood).This paper describes the integrated use of remotely sensed data and sample based forest inventories to derive a biomass map for coppice forest, resulted estimated potential biomass available is contrasted with local domestic consumptions at the municipality level. The test was carried out in an environmentally and socially homogeneous district of Apennine Mountains (Alto Molise, south-central Italy) coupling multispectral high resolution Landsat 7 ETM+ satellite imagery and a local forest inventory trough the application of the non-parametric estimation procedure k-Nearest Neighbours (k-NN). Several forest management scenarios were applied in order to evaluate their impact on the potential availability of firewood from coppice forests.The paper introduces data and methods used and presents the achieved results both in terms of the accuracy of the biomass map produced by k-NN and of the relationship between the potential availability and demand for firewood.These results demonstrated that k-NN is able to estimate the biomass of coppice forest in the test area with an accuracy level comparable with recent similar application of k-NN carried out in Boreal regions (RMSE of 25.6%).The application of different forest management scenarios have a significant impact on local estimated firewood balance between potential supply from coppice forests and demand for domestic consumption, depending of the scenarios the net balance changed up to 84%. © 2010 Elsevier Ltd.