A hierarchical deductive approach for functional types in disturbed ecosystems
Identifieur interne : 00AF65 ( Main/Exploration ); précédent : 00AF64; suivant : 00AF66A hierarchical deductive approach for functional types in disturbed ecosystems
Auteurs : Juli G. Pausas [Espagne] ; Sandra Lavorel [Australie]Source :
- Journal of Vegetation Science [ 1100-9233 ] ; 2003-06.
Descripteurs français
- Wicri :
English descriptors
- KwdEn :
- Aarsen keogh, Academic press, Adenostoma fasciculatum, Australian ecosystems, Bark thickness, Binary, Binary classification, Binary system, Bond midgley, Brachypodium phoenicoides, Bradstock auld, Briske, Briske richards, Bromus erectus, California chaparral, Cambridge university press, Canopy seed bank, Canopy seed storage, Cistus species, Comparative study, Competitive ability, Competitive capacity, Competitive effect, Competitive hierarchies, Competitive pressure, Competitive response, Different levels, Dispersal, Dispersal capacity, Disturbance, Disturbance response, Dynamics, Ecol, Ecology, Ecosystem, Eriksson, Evolutionary history, Fire intensity, Flora, Functional classification, Functional traits, Functional types, Germination, Global perspective, Good indicator, Grassland, Hard seed coats, Herbaceous communities, Hierarchical, Hierarchical approach, Hierarchical framework, Individual persistence capacity, Individualpersistence capacity, Ipcd, Ipcd approach, Landscape pattern, Lavorel, Leaf area, Leishman westoby, Local species pool, Many acacia, Many species, Modelling, Multiple disturbances, Oikos, Other hand, Pausas, Persistence, Plant communities, Plant ecol, Plant response, Plant species, Population dynamics, Population persistence, Propagule mass, Recurrent disturbance, Regeneration, Resprouter species, Resprouting, Schwilk ackerly, Seed germination, Seed longevity, Seed mass, Seed persistence, Seed size, Seed stocks, Seedling, Shade tolerance, Site productivity, Spatial context, Specific leaf area, Trait, Trends ecol, Vegetation, Vegetation dynamics, Westoby, Woody, Woody plants, Woody species.
- Teeft :
- Aarsen keogh, Academic press, Adenostoma fasciculatum, Australian ecosystems, Bark thickness, Binary, Binary classification, Binary system, Bond midgley, Brachypodium phoenicoides, Bradstock auld, Briske, Briske richards, Bromus erectus, California chaparral, Cambridge university press, Canopy seed bank, Canopy seed storage, Cistus species, Comparative study, Competitive ability, Competitive capacity, Competitive effect, Competitive hierarchies, Competitive pressure, Competitive response, Different levels, Dispersal, Dispersal capacity, Disturbance, Disturbance response, Dynamics, Ecol, Ecology, Ecosystem, Eriksson, Evolutionary history, Fire intensity, Flora, Functional classification, Functional traits, Functional types, Germination, Global perspective, Good indicator, Grassland, Hard seed coats, Herbaceous communities, Hierarchical, Hierarchical approach, Hierarchical framework, Individual persistence capacity, Individualpersistence capacity, Ipcd, Ipcd approach, Landscape pattern, Lavorel, Leaf area, Leishman westoby, Local species pool, Many acacia, Many species, Modelling, Multiple disturbances, Oikos, Other hand, Pausas, Persistence, Plant communities, Plant ecol, Plant response, Plant species, Population dynamics, Population persistence, Propagule mass, Recurrent disturbance, Regeneration, Resprouter species, Resprouting, Schwilk ackerly, Seed germination, Seed longevity, Seed mass, Seed persistence, Seed size, Seed stocks, Seedling, Shade tolerance, Site productivity, Spatial context, Specific leaf area, Trait, Trends ecol, Vegetation, Vegetation dynamics, Westoby, Woody, Woody plants, Woody species.
Abstract
Abstract. We propose a hierarchical approach for plant functional classification in disturbed ecosystems to be used for vegetation modelling and global plant trait comparisons. Our framework is based on the persistence of plants at different levels of organization. We assume that the main parameters to determine persistence in chronically disturbed ecosystems are those related to: Individual‐persistence capacity, Propagule‐persistence capacity (persistence at the population level), Competitive capacity (persistence at the community level) and Dispersal capacity (persistence at the landscape level). The IPCD approach is illustrated for fire‐prone and grazed ecosystems from the Mediterranean region and Australia and by assuming a binary classification of the four traits determining persistence which give a total 16 possible functional types. The IPCD framework provides a simple structured and synthetic view from which more elaborated schemes can be developed.
Url:
DOI: 10.1111/j.1654-1103.2003.tb02166.x
Affiliations:
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classification</term><term>Functional traits</term><term>Functional types</term><term>Germination</term><term>Global perspective</term><term>Good indicator</term><term>Grassland</term><term>Hard seed coats</term><term>Herbaceous communities</term><term>Hierarchical</term><term>Hierarchical approach</term><term>Hierarchical framework</term><term>Individual persistence capacity</term><term>Individualpersistence capacity</term><term>Ipcd</term><term>Ipcd approach</term><term>Landscape pattern</term><term>Lavorel</term><term>Leaf area</term><term>Leishman westoby</term><term>Local species pool</term><term>Many acacia</term><term>Many species</term><term>Modelling</term><term>Multiple disturbances</term><term>Oikos</term><term>Other hand</term><term>Pausas</term><term>Persistence</term><term>Plant communities</term><term>Plant ecol</term><term>Plant response</term><term>Plant species</term><term>Population dynamics</term><term>Population persistence</term><term>Propagule 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auld</term><term>Briske</term><term>Briske richards</term><term>Bromus erectus</term><term>California chaparral</term><term>Cambridge university press</term><term>Canopy seed bank</term><term>Canopy seed storage</term><term>Cistus species</term><term>Comparative study</term><term>Competitive ability</term><term>Competitive capacity</term><term>Competitive effect</term><term>Competitive hierarchies</term><term>Competitive pressure</term><term>Competitive response</term><term>Different levels</term><term>Dispersal</term><term>Dispersal capacity</term><term>Disturbance</term><term>Disturbance response</term><term>Dynamics</term><term>Ecol</term><term>Ecology</term><term>Ecosystem</term><term>Eriksson</term><term>Evolutionary history</term><term>Fire intensity</term><term>Flora</term><term>Functional classification</term><term>Functional traits</term><term>Functional types</term><term>Germination</term><term>Global perspective</term><term>Good 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germination</term><term>Seed longevity</term><term>Seed mass</term><term>Seed persistence</term><term>Seed size</term><term>Seed stocks</term><term>Seedling</term><term>Shade tolerance</term><term>Site productivity</term><term>Spatial context</term><term>Specific leaf area</term><term>Trait</term><term>Trends ecol</term><term>Vegetation</term><term>Vegetation dynamics</term><term>Westoby</term><term>Woody</term><term>Woody plants</term><term>Woody species</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>étude comparative</term><term>écologie</term><term>écosystème</term><term>Surface en herbe</term><term>Dynamique de la population</term><term>Plant</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract">Abstract. We propose a hierarchical approach for plant functional classification in disturbed ecosystems to be used for vegetation modelling and global plant trait comparisons. Our framework is based on the persistence of plants at different levels of organization. We assume that the main parameters to determine persistence in chronically disturbed ecosystems are those related to: Individual‐persistence capacity, Propagule‐persistence capacity (persistence at the population level), Competitive capacity (persistence at the community level) and Dispersal capacity (persistence at the landscape level). The IPCD approach is illustrated for fire‐prone and grazed ecosystems from the Mediterranean region and Australia and by assuming a binary classification of the four traits determining persistence which give a total 16 possible functional types. The IPCD framework provides a simple structured and synthetic view from which more elaborated schemes can be developed.</div></front></TEI><affiliations><list><country><li>Australie</li><li>Espagne</li></country><region><li>Auvergne-Rhône-Alpes</li><li>Rhône-Alpes</li></region><settlement><li>Grenoble</li></settlement><orgName><li>Université Joseph Fourier</li></orgName></list><tree><country name="Espagne"><noRegion><name sortKey="Pausas, Juli G" sort="Pausas, Juli G" uniqKey="Pausas J" first="Juli G." last="Pausas">Juli G. Pausas</name></noRegion><name sortKey="Pausas, Juli G" sort="Pausas, Juli G" uniqKey="Pausas J" first="Juli G." last="Pausas">Juli G. Pausas</name></country><country name="Australie"><region name="Auvergne-Rhône-Alpes"><name sortKey="Lavorel, Sandra" sort="Lavorel, Sandra" uniqKey="Lavorel S" first="Sandra" last="Lavorel">Sandra Lavorel</name></region></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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