1. Composting 101 What is Composting?
The rapid biological decomposition of organic matter into an inorganic form available for plant uptake
Microorganisms turning organic matter into plant food
Nutrient cycling
Breeding of microorganisms or worms
This is my approach to composting
Our goal in composting: to provide microorganisms with the food they need to thrive and thus rapidly decompose organic materials while retaining the maximum amount of nitrogen in those materials

2. Composting 101 Many types of composting Anaerobic Composting/Digestion
Slow process in absence of oxygen or in low oxygen environment
Easy method for small-scale composting
Retains nitrogen very well
“Backyard” Composting
Small-scale; good for home waste diversion
Requires little management

3. Composting 101 Worm Composting “Hot” Composting
Can be done indoors or on large scale
Results in nutrient-rich compost or “castings”
Finished compost in 3-5 months or sooner depending on system
Relatively high management needs (harvesting)
“Hot” Composting
Method for large quantities of organic matter
Rapid decomposition - as little as 4-8 weeks for certain materials
Requires some management to ensure high quality
We will focus on these two methods

4. So let’s breed some microorganisms…
Composting 101
So let’s breed some microorganisms…

5. Composting 101: Hot Composting
Best method for rapidly making large volumes of compost
Heat can destroy weed seeds and pathogens
Good for soil fertility and structure building
Requires frequent monitoring and turning
Process of building pile is important
Often benefits from off-farm nitrogen source
Works good as soil inoculant
Quality of compost depends on:
Quality of feedstock/composting materials
Quality of monitoring
Effort in preparing pile

6. Composting 101: Hot Composting
Six key elements to good hot compost (and most other methods as well):
Carbon:Nitrogen (C:N) ratio
Air
Water
Surface Area
Critical Mass of Pile
Diversity of Materials

7. Composting 101: Hot Composting
1. Carbon to Nitrogen Ratio
Food for the compost pile – must be balanced
Ideal ratio: 24:1
Microorganisms need 24 carbon molecules for every 1 nitrogen molecule they consume
Ratio too wide (e.g., 50:1)?
Process is slower
Ratio too Narrow (e.g., 10:1)?
Process is faster
Nitrogen lost as ammonia

8. Composting 101: Hot Composting
1. Carbon to Nitrogen Ratio
TABLE HERE

9. Composting 101: Hot Composting
1. Carbon to Nitrogen Ratio
How to Balance:
General rule: equal parts browns and greens
This shifts depending on how brown or green
Increased surface area in nitrogen materials:
Increases decomposition rate
Acts like higher N content, but used up quicker
Get familiar with common materials available to you

10. Composting 101: Hot Composting
1. Carbon to Nitrogen Ratio
Essentially, the C:N ratio determines how hot the compost pile will get
The heat is a by-product of microbial activity
An indicator of how happy your microorganisms are
Nitrogen is often a limiting factor
Importing nitrogen is crucial for good hot compost
Manure, okara, grass clippings
Too much heat = too much N = N loss to ammonia
Also reduces diversity of microorganisms

11. Composting 101: Hot Composting
2. Air
Your microorganisms need air to breathe
Gas exchange is crucial for life
Think of your compost pile like your soil
How much air does it need (by volume)?
About 20-25%
How do we promote good aeration?
Mix pile consistently as you build it
Use some woody and fibrous materials to promote porosity
Small twigs (e.g., willow) work very well

12. Composting 101: Hot Composting
2. Air
Even with good porosity air space will decline
Pile becomes more dense as it decomposes – filling pores
Passive aeration tubes can be used to maintain air flow
How do I reintroduce air into the pile?
Usually by turning the pile and mixing the contents
More nitrogen can be added at this point if needed

13. Composting 101: Hot Composting
2. Air
Air is used to control rate of decomposition
Adding air can increase decomposition rate
Removing air slows the process
Can be used to help correct high C:N ratio
Air can be added passively or actively
Passive:
Building good porosity into the pile using “twiggy” materials
Using perforated pipes horizontally layered in the pile
Active:
Physically turning or manipulating the pile
Forced air used for in-vessel systems

14. Composting 101: Hot Composting
3. Water
Your microorganisms need water – just like you
Water also softens materials for decomposition
Good porosity allows extra water to drain away
Makes it difficult to over water your pile
Some materials with have a higher water content
Fresh plant matter
Other materials will be very dry
Sawdust; leaves; manure

15. Composting 101: Hot Composting
3. Water
Water usually needs to be added to the pile
Add water while building your pile
How much water?
50% water by weight!
Pile should be quite wet
“As damp as a wrung out sponge”
Organic matter will absorb water and allow pore space to remain for air flow

16. Composting 101: Hot Composting
4. Surface Area
Microorganisms are small – their food should be too!
Increased surface area = easier and faster dining
Chopping up materials greatly increases decomposition rate – especially high C materials
Materials can be screened after composting to reduce large pieces before adding to soil
Large pieces of OM in soil can tie up nitrogen – especially high carbon materials

17. Composting 101: Hot Composting
5. Critical Mass of Pile
Microorganisms create heat when eating and they like to stay warm
Larger pile = increased insulation
1 metre cube pile is sufficient for good insulation
Larger piles insulate well
Bottom of pile may be anaerobic
Area of activity

18. Composting 101: Hot Composting
6. Diversity of Materials
Your microorganisms like a diverse diet
Also results in more diverse microorganisms
Diversity of materials = diversity of nutrients
Also makes it easier to balance C:N ratio
Dynamic accumulators can be grown specifically to be added to pile to improve quality and N content
Use large, fast-growing plants that re-grow after cutting
Comfrey
Angelica

19. Composting 101: Hot Composting
6. Diversity of Materials
Diversity of materials is not essential to make compost
But it is essential to make good compost
Compare the following compost piles
Horse manure and leaves
Horse manure, chicken manure garden waste, comfrey, okara, grass clippings, leaves, sawdust, willow branches

20. Composting 101: Hot Composting
Other things to consider:
The seasonality of composting materials
Carbon materials are prevalent in the fall
Nitrogen materials are prevalent in the growing season
What off-farm materials are easily available?
Manures; leaves or other carbon materials
Composting of weed seeds, rhizomes and diseased plants
Is it safe? How to do so safely?
Where and how will you compost?
Do you have a staging area?
Do you have a tractor?
Using a bin or windrows?

21. Composting 101: Hot Composting
Other things to consider:
Protect the pile from the weather
To control water level in pile
Knowing the C:N ratio of the most common materials is important in making a good pile
Learn how to judge C:N ratio of new materials
Very active soil food web in compost pile
Many trophic (feeding) levels
Different organisms digest different materials at different times

22. Composting 101: Hot Composting
Soil Food Web
Bacteria are primary decomposers of OM
Work quickly on diversity of materials
Generate heat in compost pile
Fungi also important
Only organism that breaks down lignin (found in wood)
Thrive in acidic environments
Active in latter parts of decomposition
Arthropods
Consume OM and each other
Work on outside of pile when hot
Worms
Consume their weight each day in OM
Help aerate compost pile

23. Composting 101: Hot Composting
Soil Food Web Image Here

24. Composting 101: Hot Composting
The Evolution of a Hot Compost Pile:
Our goal:
To build a compost pile, taking into consideration the six principles of hot composting, that will heat up to a temperature of 55ºC and maintain that heat for up to several weeks

25. Making a Hot Compost Pile
Stockpile materials on farm
Materials will start to decompose
Import Nitrogen (if required) and build the pile
Monitor pile temperature
Turn or aerate pile when temperature has dropped by ºC
Add N if required when turning for first time
Turn pile 3-5 times upon cooling
Let pile cure

26. Composting 101: Hot Composting
Stock pile materials on farm
Weeds
Leaves

27. Composting 101: Hot Composting
Stock pile materials on farm
Weeds
Leaves

28. Composting 101: Hot Composting
Stock pile materials on farm
Weeds
Leaves

29. Composting 101: Hot Composting
Stock pile materials on farm
Weeds
Leaves

30. Composting 101: Hot Composting
Stock pile materials on farm
Weeds
Leaves

31. Composting 101: Hot Composting
Stock pile materials from on farm
These are organic materials generated on the farm
Weeds
Leaves
Harvest trimmings
When pile is of sufficient size bring in manure source for hot compost

32. Composting 101