Plant Functional Traits
portes grátis
Plant Functional Traits
Linking Climate and Ecosystem Functioning
Kumar, Manoj; Swenson, Nathan G; Bussmann, Rainer W
Elsevier - Health Sciences Division
02/2025
370
Mole
Inglês
9780443133671
Pré-lançamento - envio 15 a 20 dias após a sua edição
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1. Plant functional traits: The scientific basis and their significance in climate change impact studies Section I: Plant functional traits: the scientific basis 2. Plant functional traits: synthesis of current status and available information 3. Unravelling the relationship between plant functional traits and environment 4. Functional traits as determinants of plant performance 5. Driving mechanism of functional trait variations in a forest ecosystem 6. Belowground traits and their importance in ecological studies Section II: Functional relationship between trait and environment 7. A review of plant-environment interactions 8. Significance of trait and environment relations in ecological studies 9. Plant functional traits for assessing impacts of climate change 10. Traits explaining occurrence and abundance of plants 11. Environmental conditions influencing the distribution of plant functional traits Section III: Ecosystem services and plant functional traits 12. Plant functional traits and soil carbon dynamics 13. Selection of appropriate functional traits and its application to evaluate ecosystem service 14. Trait-based selection of suitable plant species to restore the degraded ecosystems 15. Monitoring canopy functional traits using remote sensing 16. Hyperspectral remote sensing for monitoring plant functional traits 17. Monitoring and modelling of functional relationship of plant traits with environment 18. Investigating the origins and effects of intraspecific trait variations 19. Monitoring of plant functional traits as indicator of air quality 20. Synthesizing functional trait data to understand global patterns and processes of vegetation: gaps and biases Section V: Functional traits and vegetation models 21. Linking biophysical models with functional traits for ecological studies 22. Representing functional traits in earth system models to understand coupled biosphere-atmosphere interactions 23. Modelling the relationships between traits, climate, and life history strategies
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Abiotic and biotic factors; Abiotic stress; Aboveground traits; Abundance; Agroecology; Belowground functional traits; Belowground traits; Biological scale; Canopy characteristics; Carbon cycling; Carbon modeling; Carnivorous plants; Climate change; Community assembly; Community ecology; Community shifts; Community-weighted mean; DGVM; Data processing; Deep learning; Demography; Distributions; Dynamic global vegetation models; Earth observing system; Earth system models; Ecological strategies; Ecology; Ecosystem; Ecosystem function; Ecosystem functioning; Ecosystem modeling; Ecosystem process; Ecosystem services; Effect traits; Environmental filtering; Forests; Functional diversity; Functional ecology; Functional trait; Functional trait ecology; Functional traits; Geographic information system; Global environmental change; Governance; Grasslands; Green space; Heat island; Interspecific variability; Intraspecific variability; Land management; Landscape restoration; Laser scanning; Leaf traits; Machine learning; Mining; Modeling; Performance; Pest and disease control; Phenotype; Phenotypic integration; Phenotypic plasticity; Phosphorus acquisition; Plant functional traits; Plant functional type; Plant traits; Plant-soil feedback; Plant-microorganism interactions; Plant-soil interactions; Plasticity; Point cloud; Remote sensing; Response traits; Restoration; Spatial scale; Species assortment; Species distributions; Species turnover; Temperate; Throughfall; Trait coordination; Trait syndromes; Trait-based ecology; Trait-environment; Traits; Tropical; Urban climate; Urban ecosystem; Urban environment; Urban greening; Vegetation dynamics; Vegetation model; Vegetation modeling; Vegetation phenology; Wilderness; Windspeed
1. Plant functional traits: The scientific basis and their significance in climate change impact studies Section I: Plant functional traits: the scientific basis 2. Plant functional traits: synthesis of current status and available information 3. Unravelling the relationship between plant functional traits and environment 4. Functional traits as determinants of plant performance 5. Driving mechanism of functional trait variations in a forest ecosystem 6. Belowground traits and their importance in ecological studies Section II: Functional relationship between trait and environment 7. A review of plant-environment interactions 8. Significance of trait and environment relations in ecological studies 9. Plant functional traits for assessing impacts of climate change 10. Traits explaining occurrence and abundance of plants 11. Environmental conditions influencing the distribution of plant functional traits Section III: Ecosystem services and plant functional traits 12. Plant functional traits and soil carbon dynamics 13. Selection of appropriate functional traits and its application to evaluate ecosystem service 14. Trait-based selection of suitable plant species to restore the degraded ecosystems 15. Monitoring canopy functional traits using remote sensing 16. Hyperspectral remote sensing for monitoring plant functional traits 17. Monitoring and modelling of functional relationship of plant traits with environment 18. Investigating the origins and effects of intraspecific trait variations 19. Monitoring of plant functional traits as indicator of air quality 20. Synthesizing functional trait data to understand global patterns and processes of vegetation: gaps and biases Section V: Functional traits and vegetation models 21. Linking biophysical models with functional traits for ecological studies 22. Representing functional traits in earth system models to understand coupled biosphere-atmosphere interactions 23. Modelling the relationships between traits, climate, and life history strategies
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Abiotic and biotic factors; Abiotic stress; Aboveground traits; Abundance; Agroecology; Belowground functional traits; Belowground traits; Biological scale; Canopy characteristics; Carbon cycling; Carbon modeling; Carnivorous plants; Climate change; Community assembly; Community ecology; Community shifts; Community-weighted mean; DGVM; Data processing; Deep learning; Demography; Distributions; Dynamic global vegetation models; Earth observing system; Earth system models; Ecological strategies; Ecology; Ecosystem; Ecosystem function; Ecosystem functioning; Ecosystem modeling; Ecosystem process; Ecosystem services; Effect traits; Environmental filtering; Forests; Functional diversity; Functional ecology; Functional trait; Functional trait ecology; Functional traits; Geographic information system; Global environmental change; Governance; Grasslands; Green space; Heat island; Interspecific variability; Intraspecific variability; Land management; Landscape restoration; Laser scanning; Leaf traits; Machine learning; Mining; Modeling; Performance; Pest and disease control; Phenotype; Phenotypic integration; Phenotypic plasticity; Phosphorus acquisition; Plant functional traits; Plant functional type; Plant traits; Plant-soil feedback; Plant-microorganism interactions; Plant-soil interactions; Plasticity; Point cloud; Remote sensing; Response traits; Restoration; Spatial scale; Species assortment; Species distributions; Species turnover; Temperate; Throughfall; Trait coordination; Trait syndromes; Trait-based ecology; Trait-environment; Traits; Tropical; Urban climate; Urban ecosystem; Urban environment; Urban greening; Vegetation dynamics; Vegetation model; Vegetation modeling; Vegetation phenology; Wilderness; Windspeed
