Compost Principles
Decomposition
Materials for Composting
Composting Misc.
100

What is composting?

Composting is the manipulation of the natural process of decomposition, changing organic waste into valuable humus material.

100

Decomposers require ________________to effectively break down the organic material. This is most commonly achieved by turning or tumbling a pile and adding materials that don’t mat down.

Oxygen 

100

True/False: the surface area of the biodegradable materials impacts the rate at which those materials decompose.

True

100

True/False: The composting process has to reach temperatures of 130-160 degrees F for the finished product to be considered compost.

False

200

What is soil tilth?

The state of aggregation of a soil especially in relation to its suitability for crop growth

200

True/False: Biodegradable material will ultimately break down into the new substance known as finished compost. Your decomposers will thrive on a balanced diet of both carbon-rich and nitrogen-rich materials.

True

200

Greens are considered ______________-rich materials whereas browns are considered______________-rich materials.

nitrogen, carbon

200

True/False: Fallen leaf litter in the autumn is considered a carbon-rich material.

True.

300

1. How is compost similar to fertilizer?

2. How is it different?

Fertilizer and compost both contain nutritional components needed for plant development, however fertilizer focuses exclusively on providing a nutritional boost whereas compost changes the structure and composition of the soil as a conditioner. 

300

What are the four variables necessary for the process of creating compost that we can manipulate/alter?

Oxygen, moisture levels, biodegradable materials, temperature.

300

If ______________________ (greens or browns) are composted alone, they tend to create a sludgy, foul-smelling result.

Greens

300

Are kitchen scraps considered nitrogen-rich or carbon-rich materials?

Nitrogen-rich

400

Based on your knowledge of the soil in our garden beds, list three specific ways you would expect our addition of compost to alter the soil and its growing potential.

Answers will vary.

400

Describe in detail the difference between physical and chemical changes.

Physical changes do not form a new substance; they alter the appearance or form of a substance and are reversible. Chemical changes result in a chemical identity that is different than the previous substance and is irreversible.  

400

Are coffee grounds considered a green or brown material for composting purposes?

Green. Although they are brown in color, they are rich in nitrogen.

400

What do higher temperatures in a compost pile indicate?

That the pile is highly active with various decomposers breaking down the organic matter.

500

We discussed 9 different benefits compost adds to the soil.  Give me 5. 

  1. Supplies OM to soil

  2. Attracts earthworms

  3. Stimulates beneficial microorganisms

  4. Increases water holding capacity

  5. Breaks up clay soil

  6. Increases nutrient retention

  7. Improves soil drainage

  8. Suppresses soil-borne pathogens

  9. Improves soil tilth

500

Is composting a physical or chemical change? How does that answer shape our understanding of the final result of finished compost?

Chemical. The resulting chemical composition is different than the original materials, and the process is not reversible. What was is no longer; it is something new.

500

List at least 3 items that you wouldn't want to put into a residential-level composting setup.

  • Oils, fats, grease, meat, fish, or dairy products
  • Cat or dog waste
  • Diseased or insect-infested plant matter
  • Lime (increases compost pH and promotes ammonia odor issues)
  • Wood ash in abundance
500

We spent several days working in our garden beds outdoors. What are 3 benefits we can expect from doing so? (can be individually, for the horticulture program, the soil, etc.)

Answers will vary.

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