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Agroecological economics : sustainability and biodiversity /

Agroecology is the science of applying ecological concepts and principles to the design, development, and management of sustainable agricultural systems. Agroecological economics, a subsection of agricultural economics, evaluates the ecological consequences of agricultural methods on the economic sc...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Wojtkowski, Paul A. (Paul Anthony), 1947-
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam ; Boston ; London : Academic, 2008.
Edición:1st ed.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Preface
  • Chapter 1
  • Introduction
  • Ecology and agroecology
  • Traditional subdivisions
  • Agroecological directions
  • The philosophical dilemma
  • Economic directions
  • The economic options
  • Measurement
  • Intangibles
  • Intuitiveness
  • Chapter 2? Lead-up Agrobiomonics
  • Essential resources
  • The limiting resource
  • Nutrient profiles
  • Agroecological niches
  • Governance
  • Plant-plant
  • Ecosystem
  • Analytical ratios
  • Output
  • Costs
  • Risk
  • Chapter 3
  • Vector Theory
  • Vectors
  • The base
  • Agroecological vectors
  • Genetic improvement
  • Varietal
  • Microbial
  • Agrobiodiversity
  • Biodiversity (facilitative associations)Rotational
  • Cross or inter-plot
  • Location
  • Physical land modifications
  • Ex-farm inputs
  • Environmental setting
  • Allying vectors
  • Design
  • Design variables
  • Agrotechnologies
  • Principal mode
  • Auxiliary
  • Add-ons
  • Objectives
  • Optimization
  • Chapter 4
  • Agrobiodiversity
  • Applications
  • Underlying biodynamics
  • Yield gains
  • Interception
  • Conversion
  • Cost reductions
  • Risk abatement
  • Climate
  • Insect and plant diseases
  • Relevant guidelines
  • Economic measures
  • Revenue-enhanced LER
  • Production possibilities curve
  • Ratio lines
  • The PPC
  • Design variables
  • Species
  • Planting density
  • Spatial pattern
  • Temporal adjustments
  • Density, diversity, disarray, duration
  • The non-harvest option
  • Associated agrotechnologies
  • Monocultural
  • Pure
  • Varietal/ genus
  • Productive intercropping
  • Simple mixes
  • Strip cropping(seasonal)
  • Barrier or boundary
  • Complex agroecosystems (without trees)
  • Productive agroforestry
  • Isolated tree
  • Alley cropping (treerow)
  • Strip cropping(mixed tree)
  • Agroforestry intercropping
  • Shade systems (light)
  • Agroforests
  • Chapter 5
  • Biodiversity
  • Applications
  • Underlying biodynamics
  • Yields
  • Cost reductions
  • Substitutable inputs
  • DPCs
  • Cut-and-carry
  • Risk abatement
  • Rain impact
  • Climate
  • Insects and diseases
  • Relevant guidelines
  • Economic measures
  • CER
  • LER and RVT-adjusted CER
  • Illustrated
  • Adjusted CER curves
  • Economic orientation ratio
  • Design variables
  • Specific interaction zones
  • Spatial Patterns
  • Timing
  • Pruning
  • Associated agrotechnologies
  • Perceived monocultures
  • Facilitative intercropping
  • Simple mixes
  • Strip cropping
  • Boundary
  • Covercrops
  • Facilitative agroforestry
  • Parkland
  • Protective barrier
  • Alley cropping (hedgerow)
  • Strip cropping (woody)
  • Crop over tree
  • Physical support systems
  • Shade systems (heavy)
  • Chapter 6? Rotations
  • Applications
  • Underlying biodynamics
  • Yield gains
  • Temporal DPCs
  • Fallows
  • Cost reductions
  • Risk abatement
  • Climate
  • Insects and diseases
  • Relevant guidelines
  • Economic measures
  • Sustainability
  • Ordering
  • Design variables
  • Delayed sowing
  • Planting
  • Associated agrotechnolgies
  • Single rotations
  • Series rotations
  • Overlapping cycles
  • Taungyas
  • Simple
  • Extended
  • Multi-stage
  • End stage
  • Continual
  • Chapter 7? Genetic, Varietal and Locational
  • Applications
  • Underlying Biodynamics
  • Varietal selection
  • Locational selection
  • Relevant guidelines
  • Economic measures
  • Design Variables
  • Micro-location
  • Macro-location
  • Associated agrotechnologies
  • Elevation
  • Scattering
  • Chapter 8? Land Modifications
  • Applications
  • Underlying Biodynamics
  • Water dynamics
  • Runoff
  • Drought
  • Flooding
  • Temperatures
  • Relevant guidelines
  • Economic measures
  • Design variables
  • Associated agrotechnologies
  • Absorption zones/ micro-catchments
  • Infiltration contours
  • Terraces
  • Stone
  • Earthen
  • Progressive
  • Paddies
  • Ponds
  • Gabons
  • Waterbreaks
  • Cajetes
  • Water channels
  • Mounds and beds
  • Stone clusters
  • Chapter 9
  • Cross-Plot Influences
  • Applications
  • Underlying biodynamics
  • Yield gains
  • Agroecosystem properties
  • Interface and spillover theory
  • Cost control
  • Relevant guidelines
  • Economic measures
  • Design variables
  • Interfaces
  • Buffer species
  • Associated agrotechnologies
  • Windbreaks
  • Anti-insect barriers
  • Habitats/ corridors
  • Riparian buffers
  • Firebreaks
  • Living fences
  • Chapter 10? Ex-farm Inputs
  • Applications
  • Underlying biodynamics
  • Yield gains
  • Cost reductions
  • Weed control
  • Risk abatement
  • Climate
  • Insects and diseases
  • Economic measures
  • Marginal Gains
  • Substitutions
  • Truant inputs
  • Design variables
  • Nutrients
  • Spot applications (row placement)
  • Timing
  • Insects
  • Irrigation
  • Flood
  • Spray
  • Drip
  • Associated agrotechnologies
  • Chapter 11
  • Microbial and Environmental Setting
  • Applications
  • Underlying biodynamics
  • Yield gains
  • Cost reductions
  • Risk abatement
  • Water dynamics
  • Insects and plant diseases
  • Temperatures
  • Relevant guidelines
  • Economic measures
  • Design variables
  • Associated agrotechnologies
  • Composting
  • Tillage
  • Traps
  • Bird and bats
  • Chapter 12
  • Single-Plot Design
  • DAPs
  • Task ordering or layering
  • Essential nutrients
  • Water
  • Insects
  • Weeds
  • Temperatures
  • Erosion
  • Multi-tasking
  • Design economics
  • Principal-mode agrotechnologies
  • Ratios
  • Guidelines
  • Add-ons
  • Cross-harmony
  • Economic orientation
  • Input efficiency
  • Post-design screening
  • Cultural
  • Environment
  • Profit and loss
  • Chapter 13
  • Multi-Plot Analysis
  • Inter-plot coordination
  • Revenue and cost orientation
  • Pitfalls
  • Economic measures
  • LLER
  • LEOR
  • Risk
  • Environmental objectives
  • Indices
  • Mimicry
  • Aesthetic objectives
  • Cultural agroecology
  • Farm landscape patterns
  • Blocks
  • Strips
  • Groups
  • Pivot
  • Circular
  • Scattered
  • Chapter 14
  • Agrotechnological Expansions
  • Feed systems
  • Silvopastoral
  • Pastures
  • Pastures with trees
  • Forage trees with pasture
  • Forage trees alone
  • Aqua-agriculture
  • Entomo-agriculture
  • Avian-agriculture
  • Semi-husbandry
  • Support systems
  • Seasonal support
  • Perennial support
  • Vine over tree
  • Tree over vine
  • Vine within a canopy
  • Supplementary vine additions
  • Root support systems
  • Riparian Buffers
  • Complex agroecosystems
  • Natural compatibility
  • Variations
  • Homegardens
  • Shrub gardens
  • Forest gardens
  • Management
  • Economics
  • Case studies
  • The green revolution
  • Medieval agriculture
  • Hillside maize
  • A vector search
  • Chapter 15
  • Analytical Refinements
  • LER variations
  • Row-based
  • Temporal
  • Event-enumerated
  • Continuums
  • The PPC
  • Essential resource economics
  • Resource hypotheses
  • The counter view
  • Spatial patterns
  • Spatial theory
  • Disarray
  • Patterned disarray
  • Temporal economics
  • Multi-participant agroecosystems
  • Intuitive and intangible
  • Diagnosis
  • Bioeconomic modeling
  • Chapter 16? Summary
  • The paradigm
  • Vectors
  • The agrotechnologies
  • Outcomes vs. agrotechnologies
  • Policy
  • Agroecological economics
  • Conclusion
  • Author Index
  • References.
  • Introduction
  • Lead-up agrobiomonics
  • Vector theory
  • Agrobiodiversity
  • Biodiversity
  • Temmporal economics
  • Genetic, varietal and locational
  • Land modifications
  • Cross-plot influences
  • Ex-farm inputs
  • Microbial and environmental setting
  • Single-plot design
  • Multi-plot analysis
  • Agrotechnological expansions
  • Analytical refinements
  • Summary.