Agricultural Regeneration

Course CodeBAG314
Fee CodeS3
Duration (approx)100 hours
QualificationTo obtain formal documentation the optional exam(s) must be completed which will incur an additional fee of $36. Alternatively, a letter of completion may be requested.

AVAILABLE SOON - Late 2022

Learn to develop a regenerative response to degraded agricultural land.

Lesson Structure

There are 10 lessons in this course:

  1. Scope and Nature of Regenerative Agriculture
    • Environmental impacts of traditional agriculture
    • Pollution - land and water
    • Greenhouse gas emissions
    • Decreased biodiversity
    • Why regenerative agriculture matters
    • Sustainable agriculture versus regenerative agriculture
    • Principles of Regenerative Agriculture
    • Corporate initiatives
  2. Functional and Integrative Level Systems
    • Functional regenerative agriculture
    • Improving soil health
    • Soil microbiome and soil health
    • Regenerative practices
    • Cover crops
    • Zero tilling
    • Rotating crops
    • Organic composts
    • Synthetic inputs
    • Carbon sequestration
    • Organic carbon
    • Integrative regenerative agriculture
    • Design and redesign
    • Permaculture ideas embedded in a system of regeneration
    • Energy flow
    • Imbalances
    • Wildlife habitat considerations
    • Increasing biodiversity
    • Increase biodiversity below ground
    • Increase biodiversity above ground
  3. Integrative and Evolutionary Level Systems
    • Introduction
    • Systemic level
    • Case study
    • Humans in the ecosystem
    • Social impact
    • Antifragility concept
    • Adaptive and agile
    • Creating a microclimate
    • Capital inputs
    • Evolutionary level
    • Storying land
    • Supply chains/ Supply webs
    • Supply webs and big agriculture
    • Defining a bioregion
    • Defining an agroecosystem
    • Connect the land to its larger agroecosystem and bioregion
  4. System Inputs: Climate, Topography, Nutrients
    • Climate
    • Pressure, temperature, rainfall
    • Soils and climate
    • Topography - soils and slopes
    • Broad ranging topography
    • Soils and parent material
    • Soils and nutrition
    • Nitrogen
    • Nitrogen cycle
    • Nitrogen fixation
    • Ammonification
    • Nitrification
    • Phosphorus
    • Potassium
    • Fertilisers - synthetic, organic
    • Organic materials
    • Plant materia;
    • Dead animals
    • Manure
    • Garbage
    • Hay, straw, paper, sawdust
    • Carbon
    • Biochar
    • Mineralisation
    • Chemoautotrophic organisms
  5. Soils and Soil Regeneration
    • Introduction
    • Soil types
    • Soil classification
    • Soil horizons
    • Organic matter
    • Soil absorption
    • Soil desorption
    • Introduction to soil health
    • Presence of organic matter
    • Facilitate water resilience
    • Permeability
    • Balance & Diversity in the microbiome
    • Life forms
    • Monocultures and threat to soil and crop health
    • Approaches to regenerate soil and improve soil health
    • Cover crops
    • Limited disturbance - no or low tillage
    • Controlled traffic farming
    • Carbon retention
  6. Livestock and Grazing Management
    • Introduction
    • Integrating livestock
    • Habitat restoration
    • Assisting carbon sequestration through grazing and increasing photosynthesis
    • Pest control
    • Reducing impacts - soil compaction, tillage, animal control
    • Effects of regenerative grazing on biodiversity
    • Challenges
    • Compaction
    • Aquaculture
    • Regenerative grazing management
    • Rotational grazing
    • Orchard grazing
    • Holistic planned management
    • Organic livestock management
    • Complimentary Grazing
  7. Agroforestry and Silvopasture
    • Introduction to agroforestry
    • Incorporating trees and perennials
    • Benefits of agroforestry
    • Silvopasture
    • Silvoarable
    • Value of trees in agriculture
    • Carbon sinks
    • Carbon credits
    • Agroforestry and regenerative agriculture
    • Erosion control
    • Lowering water tables
    • Windbreaks
    • Timber, firewood
    • Fodder
    • Honey production
    • Wildlife habitats
    • Firebreaks
    • Increased rainfall
    • Challenges of agroforestry in regenerative agriculture
    • Financial considerations
  8. System Outputs: Social, Economic and Global Trends
    • Sustainability and maintenance
    • Potential outcomes of regenerative agriculture
    • Physical outcomes
    • Increase crop health and resilience
    • Improve soil health
    • Create circular system
    • Carbon sequestration
    • Improve social and economic wellbeing of communities
    • Improve food nutritional quality and human health
    • Food access and security
    • Improving food safety
    • Increasing farm profitability
    • Socio economic communities influencing adoption of agroforestry
    • Carbon economics
  9. Implementation and Whole Farm Planning
    • Implementing a regenerative agriculture system
    • Assessing natural components
    • Analysis and planning
    • Topsoil
    • Water
    • Determining business opportunities
    • Developing a business case
    • Cash flow
    • High cash flow crops
    • Long term crops
    • Cash flow concerns
    • Marketing direct to the customer
    • Organic vs non organic
    • Support and funding
    • Goal setting and planningIntroducing and monitoring change & Project Management
    • Benefits of Sustainable change
    • What factors impact on sustainability goals
    • Project managing regenerative agriculture
  10. Special Project (PBL) Regenerative Agricultural Enterprise Proposal




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