- What items should and should not be composted?
- What is the carbon to nitrogen ratio talked about in composting literature?
- What is the ideal location of the compost bin?
- What is the ideal size and type of compost bins?
- What is the routine care of a compost pile?
- Compost Trouble Shooting
Essential ingredients for the composting process include microorganisms, organic matter, water, and air (oxygen). The microbes that cause decomposition naturally occur on plant wastes. Compost starters or inoculums are not needed to start decomposition. The compost needs to be moist to the touch, but not soggy (excluding air). Air (oxygen) is essential for the microbes. Too fine of particle size, excessive water, large amount of soil, and packing of materials may decrease oxygen levels.
Materials to use
- Garden debris free of diseases and weed seeds (carrot tops, chopped corn stalks, pea vines, spent flowers, etc.)
- Weed, free of seeds
- Kitchen scraps – Free of meat, dairy, fats, and oils
- Shrub and tree pruning smaller than one-quarter inch in diameter
- Hay, straw, and other plant residues
Materials to avoid
- Weeds with seeds – Seed may not be killed if compost piles does not heat to 145°F
- Diseased plants, including tomato and potato vines and potato peelings
- Tree branches great than quarter inch in diameter – Large sizes should be run through a chipper first, as they will be very slow to decompose
- Meat and dairy products – Slows decomposition and attracts pests
- Fats, oils, and grease – Slows decomposition and attracts pests
- Kitchen scrapes with meat, dairy, fats, oils, or grease
- Pet or human feces – May transmit diseases
- Synthetic or plastic fiber – Does not decompose
- Wood ash and lime – Drive up the pH of the soil
Materials to use in limitation
- Large amounts of grass clippings – Due the small particle size and high nitrogen, they tend to smell unless mixed with brown materials. Rather recycle the nutrients back to the grass by not bagging.
- Manure – Manures may contain strains of Escherichia coli and other bacteria that cause human illness. If manure is composted for food gardens, a 4-month curing process following composting is necessary to reduce pathogens.
- Large amounts of plants/weeds treated with pesticides (herbicides, insecticides, and fungicides) – Most pesticides readily break down in the composting process and present no threat as long the decomposition process had been completed.
- Large amounts of high tannin-containing leaves (oak and cottonwood) are also slow to decompose, but can be used in small quantities if chopped well and mixed with other materials.
- Large amounts of juniper, pine, spruce, and arborvitae pruning – Resins in these highly resinous wood and leaf prunings protect these materials from decomposition and extend the time needed for composting in comparison with other plant materials.
- Large amounts of paper products –Newsprint is best recycled through recycling collection operations rather than converted to compost. If paper is composted due to a shortage of dry materials, add no more than 10 percent of the total weight of the material being composted. Higher amounts create imbalances in the carbon to nitrogen ratio. Do not use color printed glossy magazines as inks may not be safe as a soil additive.
- Large amounts of soil – Some gardeners like to sprinkle small amounts of soil into the compost bin as a source of microbes. However, this is not necessary as small amounts of soil are routinely added with the roots of weeds and other plants. Large amounts of soil increase weight, decrease oxygen infiltration, and can suffocate microorganisms. Soilless composting is often practiced.
For optimum processing, the ratio of carbon to nitrogen in the pile needs to be around 30 to 1. This is typically found with the combination of two parts green materials with one part brown materials. Compost piles too high in carbon will be slow to process or even not decompose. Piles too high in nitrogen develop strong ammonia odors. [Table 1]
Processing works best if the green and brown materials are mixed together before adding to the pile. An alternative is to layer the green and brown materials. Layers should not be more than 2 inches (fine materials) to 6 inches (coarse materials) deep.
When only brown materials are used, nitrogen fertilizer may be added to supply the needed nitrogen for decomposition. The standard rate is half a cup ammonium sulfate (or equivalent) per bushel of brown materials.
|Table 1. Examples of Green and Brown Materials|
Vegetable wastes (12–20:1)
Coffee grounds (20:1)
Grass clippings (12-25:1)
Cow manure (20:1)
Horse manure (25:1)
Poultry manure, fresh (10:1)
Poultry manure, with litter (13–18:1)
Dry leaves (30–80:1)
Corn stalks (60:1)
Wood chips and sawdust (100–500:1)
Choose a composting site carefully. Considerations include the following:
- Partial shade avoids baking and drying in summer but provides some solar heating to start the composting action.
- Wind protection prevents too much moisture loss.
- Water source to keep the pile moist but not soggy.
- City ordinances often prohibit compost bins within 10 to 20 feet of property lines.
- Convenience for loading and unloading of materials, but away from yard activities.
Structures are not necessary for composting but do help prevent wind and marauding animals from carrying away plant wastes. Open compost piles can be used in less-populated rural locales, but structures are a near-must in urban areas. Many composting structures can be purchased or built. They vary in how well they can be managed to meet the requirements for effective decomposition under Colorado environmental conditions.
Wire and wood structures are common for home composting. An inexpensive, easy-to-build type is made from hardware cloth (a stiff, lightweight wire mesh found in the fencing materials department at many hardware stores). A 4 foot high by 13 foot length will make a small bin 4 feet across. Use wire to hold the length of hardware cloth into a round hoop. To unload the bin, unhook the wires holding the hoop in the circle.
Structures built of wire dry out faster, depending on how exposure to drying winds. Plastic covers or tarps are often used to protect the outer lay from drying out. It is removed to add water and plant materials and to aerate the pile.
Wood structures do not dry as much but are generally more expensive to purchase or build. An inexpensive and easy to build bin is made with four wood pallets. Use wire and deck screws to fasten sides; add hinges to the front section to allow for easy access (Figure 1).
Figure 1. Simple compost bin made with wooden pallets for $5 to $25
An efficient wood structure is the three-chambered bin system that allows plant material to be aerated by turning it from one bin to the next as it decomposes. New materials are put in the first bin to begin decomposition. After a few weeks, it is turned to the second bin for active decomposition. As the process naturally slows, it is turned to the third bin for further curing (Figure 2).
Figure 2. Three-chambered compost bin build for $200 to $300
Many brands of small home compost bins are available commercially typically running $80 to over $100. Some are manufactured from recycled plastics. They work well for small yards that produce few plant wastes (Figure 3).
Figure 3. Earth Machine™ compost bin
Size – A minimum volume of material is necessary to build up the heat necessary for efficient composting. When materials are heavy in green materials, keep the bin smaller to allow for better aeration. Three feet by three feet by three feet is considered minimum size to allow for heating. This small size may be adequate for small yards with limited materials to compost. If composting fall leaves and materials high in brown materials, a larger bin (5 feet by 5 feet) may keep the processing going through the winter months.
In-ground pit composting presents problems with turning or aerating the plant material and also can pool water, which leads to undesirable low oxygen conditions.
The breakdown of organic yard wastes is a biological process dependent on microorganism activity. Like most living things, these microbes require favorable temperatures, moisture, oxygen, and nutrients.
Temperature – Plant-digesting microbes operate in a temperature range of 70°F to 140°F, but breakdown occurs slowly at the lower temperatures. Well-managed compost rapidly breaks down in summer when compost temperatures quickly reach 120°F to 130°F. If summer heat plus the heat produced by active microbes causes the temperature of the plant mass to exceed 160°F, the microbes will die. In Colorado winter temperatures, a well-constructed 5 foot by 5 foot pile will continue processing through the cold winter. Smaller piles will cool, stopping microbe activity and extending the time required to produce a finished product. In the spring, small piles may need to be turned and mixed with additional materials to enhance processing.
Moisture and oxygen – Moisture and oxygen are essential to microbial activity. In a region of limited rainfall such as Colorado, add moisture regularly to maintain composting. If parts of the composting material dry out, many microorganisms in the dry areas die. Even when moisture is added, the microbes that remain require time to multiply and resume plant digestion. The net result is slower composting. However, excess moisture displaces air and slows breakdown. Surplus water creates low oxygen conditions where certain microbes multiply and produce foul odors. The best description of the proper moisture level is moist or damp but not soggy. The entire mass of plant wastes should be moistened uniformly to the point where only a few drops of water can be squeezed from a fistful of plant material.
The size of plant particles that go into the compost also affects aeration. Large particles allow a lot of air to circulate around the plant chunks, but breakdown is slow because microbes can act only on the outside, not on the inside of the large chunks. Particles chopped into smaller chunks increase the surface area for microbes to operate. Particles chopped too small will compact and restrict air flow. Moderate-sized plant pieces of 0.5 to 1.5 inches are the best size to use and can be produced by hand or machine shredding. Chop woody materials into a smaller size. Leave soft plant parts in larger pieces for effective composting. Fluff or turn the material with a pitchfork or aerator tool at regular intervals to provide additional aeration and distribute microbes throughout the compost.
Nutrients – The microbes that break down plants use the plants for food. Nitrogen is the most important food nutrient, because a nitrogen shortage drastically slows the composting process. Woody and dried plant materials tend to contain little nitrogen in comparison to the total mass of the material. Green plant material, however, contains a high percentage of nitrogen. A mix of two parts green to one part brown material generally gives the best nitrogen balance. Add a plant fertilizer high in nitrogen when green materials are scarce.
- How should materials be layered in the compost pile? Mixing of green and brown materials before placing it in the bin speeds decomposition. Otherwise, layer green and brown materials.
- Does a compost pile require turning? No, but turning speeds decomposition and turns weed seeds and diseased plants into the center of the pile where temperatures are higher. Use an aeration tool to reach into the compost to lift and move plant materials. Turn the entire mass occasionally to provide uniform aeration.
- What other routine care does a compost pile require? Keep it moist but not soggy. If overly wet, it will stink. Being dry stops the activity of microbes. The compost should feel moist to touch. But is too wet if more than a few drops of water can be squeezed out.
- Will the compost process kill plant diseases organisms and weed seeds? Only if the pile heats above 145°F and is turned regularly. Few home compost piles heat adequately, thus is it advisable not to compost weeds with seeds and diseased plants.
- May fresh materials be added to the bin during processing? Yes, if small amounts are occasionally added. If a lot of materials are available, it would be better to start a new pile rather than combining a lot of fresh materials with nearly finished compost.
- How can you tell when compost is finished? It will reduce in size by about half, will have lost the identity of the materials, and will smell “earthy.” It typically takes three to nine months, depending on type of materials, climatic conditions, and tending.
|Table 2. Compost Trouble Shooting|
Anaerobic conditions (the lack of oxygen)
|Outside couple of inches is dry||
|Pests (rats, bears, raccoons, insects)||
CMG GardensNotes on fertilizers
CMG GardenNotes on soil amendments
- Cover Crops and Green Manure Crops, #244
- Making Compost, #246
- Soil Amendments, #241
- Using Compost in the Home Garden, #243
- Using Manure in the Home Garden, #242
CMG GardenNotes on soil management
- Asking Effective Questions about Soils, #251
- Earthworms, #218
- Estimating Soil Texture, #214
- Introduction to Soils, #211
- Iron Chlorosis, #223
- Managing Soil Tilth, #213
- Mulches for the Vegetable Garden, #715
- Mulching with Wood/Bark Chips, Grass Clippings and Rock, #245
- Soil Compaction, #215
- Soil Drainage, #219
- Soil pH, #222
- Soil Tests, #221
- The Living Soil, #212
- References and Review Questions: Soils, Fertilizers and Soil Amendments, #210
- Homework: Soil, Fertilizers, and Soil Amendments, #253
- Worksheet: Soil Texture and Structure Lab, #252
- CMG GardenNotes are available online at www.cmg.colostate.edu
- Colorado Master Gardener/Colorado Gardener Certificate Training is made possible by a grant from the Colorado Garden Show, Inc.
- Colorado State University, U.S. Department of Agriculture, and Colorado counties cooperating
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- No endorsements of products mentioned is intended nor is criticism implied of products not mentioned.
- Copyright. 2011-2014. Colorado Master Gardener Program, Colorado State University Extension. All Rights Reserved. CMG GardenNotes may be reproduced without change or additions, for nonprofit educational use.
Revised October 2014