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Composting

Composting

Courtesy : home.howstuffworks.com/

Americans generate abo­ut 210 million tons (231 million short tons) of trash, or solid waste, each year. Most of this trash (57 percent) gets placed in municipal landfills. About 56 million tons (27 percent) is recovered through either recycling, in the case of glass, paper products, plastic or metals, or through composting, in the case of yard waste. Composting is a method for treating solid waste in which organic material is broken down by microorganisms in the presence of oxygen to a point where it can be safely stored, handled and applied to the environment. Composting is an essential part of reducing household wastes. It can be done inexpensively by every household and produces a product — finished compost or humus — that can benefit the environment as a natural fertilizer for gardening and farming.

In this article, we’ll look at what happens when solid waste is composted, how you can make your own compost, why you benefit from composting, and how you can make a benchtop compost column to study composting in a classroom laboratory or science-fair setting.

Contents

Composting Biology

Composting creates the ideal conditions for the natural decay or rotting processes that occur in nature. Composting requires the following:

The compost process

During composting, microorganisms from the soil eat the organic (carbon containing) waste and break it down into its simplest parts. This produces a fiber-rich, carbon-containing humus with inorganic nutrients like nitrogen, phosphorus and potassium. The microorganisms break the material down through aerobic respiration, and require oxygen that they get from the air you introduce when you turn the material in the compost bin. The microorganisms also require water to live and multiply. Through the respiration process, the microorganisms give off carbon dioxide and heat — temperatures within compost piles can rise as high as 100 to 150 degrees Fahrenheit (38 to 66 C). If the compost pile or bin is actively managed by turning and watering it regularly, the process of decomposing into finished compost can happen in as little as two to three weeks (otherwise, it may take months).

The compost conditions must be balanced for efficient decomposition. There must be:

Why Compost?
The major goal of composting is to reduce the amount of solid waste you generate. If you reduce solid waste, you will save space in municipal landfills, which will ultimately save you tax money. Finished compost has the advantage of being a useful natural fertilizer that is more environmentally friendly than synthetic fertilizers.

The compost pile actually has a complex organization of living organisms — a foodwebBacteria and fungi primarily break down the organic matter in the trash. Single-celled organisms (protozoa), small worms (nematodes), and mites feed on the bacteria and fungi. Predatory nematodes, predatory mites and other invertebrates (sowbugs, millipedes, beetles) feed on the protozoa, mites and nematodes. All of these organisms work to balance the population of organisms within the compost, which increases the efficiency of the entire process.

Making Compost

PHOTO COURTESY KARIM NICEWhere do you want your compost pile?

To make compost, you must do the following:

Choose a Site
Where you want your compost pile is an important question. You want to be able to compost discretely away from your house, but not so far away that you may not want to go out and attend to it. Also, you do not want it so close to the boundaries of your property that your neighbors might complain. Part of the answer may be dictated by local housing ordinances or homeowner organization rules that may specify where a compost pile can be located. Other factors to consider include the following:

Compost structures come in many shapes.

Choose a Structure
Compost structures can be as simple as a heap where you just pile all of the ingredients and let nature take its course — this is passive composting. Passive composting is less efficient and slower than active composting, in which you manage the compost process on a daily basis.

You can also build more complicated compost bins out of chicken wire, wood or concrete blocks. They can be simple, one-compartment structures in which you add new materials to the top, turn the compost frequently and collect the finished compost from the bottom.

PHOTO COURTESY KARIM NICECommercialhome composting unit

They can also be multi-compartment (three-bin) structures in which you add new material to one bin, transfer partially-completed compost to the middle bin and move finished compost to the final bin. There should be some covering on the top of the bin to minimize excess rainwater and reduce scattering from the wind. Many varieties of compost bins are available commercially.

The choice depends entirely on the effort and expense that you wish to devote to the project, as well as the amount of compost that you wish to make. Also, local ordinances may dictate what kind of bin you can use.

Add the Ingredients
You can compost the following materials easily:

PHOTO COURTESY KARIM NICEKitchen and yard waste in a compost bin

The following materials SHOULD NOT BE COMPOSTED:

Cover the composting materials with plenty of soil in the compost bin. Some sources say that it is best to arrange carbon-rich and nitrogen-rich materials in alternating layers. Add water to moisten the compost, but do not soak it. Turn the compost with a shovel or compost fork to mix it and provide plenty of air.

Care and Feeding

Add new layers of composting material to the top along with fresh soil. Water the compost bin regularly to keep the compost moist. Turn the compost everyday or every other day to ensure an adequate supply of oxygen. With some bins, you can avoid turning the compost by inserting perforated PVC pipes into the bins to introduce a regular air supply.

As you add new layers and turn the compost, you will be mixing new layers of intact trash with partially decomposed layers. The partially and nearly finished material will settle to the bottom because the particles are smaller. The finished compost will come out the bottom of the bin. In three-bin systems, you add intact trash to the first bin and actively transfer partially and finished compost to the second and third bins.

Here are some signs that your compost pile is working properly:

Collect the Finished Compost
The finished compost will collect at the bottom of the bin in a single bin system or at the third bin in a three-bin system. There is no strict definition of when the compost is done. Basically, if you think it’s done, it’s done. Here are some parameters that you can use to judge this:

Once your compost is done, it is ready to use. Finished composts can do the following:

Most home composters use their finished product around their own home, in their trees or gardens. Some home composters sell their finished compost to local nurseries or other family gardeners.

Making a Compost Column

You can make compost columns to study the composting process on a small scale for home science experiments and science fair projects. Compost columns can be made easily with the following materials:

Assembling the compost column from pieces of 2-liter soda bottles (top left): Window screen is wrapped around Bottle 3 (top right); air holes are poked into Bottles 2 and 3 with a needle (bottom left, bottom right).

To assemble the compost column, do the following:

  1. Use the scissors to cut the three bottles as shown. Cut Bottle 1 in half and trim the top portion just below the curve. Cut the top and bottom of Bottle 2 along the curved portions. Cut the bottom off Bottle 3 along the curved portion.
  2. Take Bottle 3, wrap the window screen over the mouth of the bottle and fasten it below the neck with the wire, as shown here.
  3. With the nail, skewer or needle, poke many air holes in the sides of Bottle 2 and 3, as shown.
  4. Place Bottle 3 upside down in the bottom half that was cut from Bottle 1, as shown, and fasten it with tape. You may want to use a few pieces of tape that you can remove periodically to drain the water that will collect in the bottom half.
  5. Place Bottle 2 inside Bottle 3, as shown below, and fasten it with tape.
  6. Take the top piece from Bottle 1, with its cap, and use it to cover the open end of Bottle 2. This will be the cap of the finished compost column, as shown below.

Stacking the pieces of the compost column (tape has been omitted for clarity)

To load the compost column, do the following:

  1. Place the coffee filter snugly in the bottom of Bottle 2 so that it sits just above the opening. The coffee filter acts as a pre-filter to keep the screen from becoming clogged with soil particles.
  2. On a sheet of newspaper, mix the soil and trash to be composted. You can experiment with the amounts of soil and trash used.
  3. Fill the compost column with the soil/trash mixture.
  4. Cap the compost column. Fasten the cap with tape.
  5. Add water to the column through the top-bottle cap. You can measure the amount of water if you wish, and see how much works best. Water will percolate down through the soil/trash mixture and collect in the bottom. You will have to drain the bottom periodically.
  6. Cut one of the legs in the pantyhose, turn it upside down and cover the compost column with it. The pantyhose cover is effective in keeping fruit flies and gnats from moving in and out of the column.

Coffee filter used as a pre-filter

You will have to continually add water and drain the bottom, either daily or every other day. You can turn the compost if you want to, but you can also leave it as is — the air holes in the side should provide sufficient aeration.

Here are some experiments that you can do with your column:

If you can reduce your trash output by recycling and composting, you can save landfill space and reduce your town”s waste expenses, which can ultimately lead to better uses for your tax money.

For more information on composting and related topics, check out the links on the next page.

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10 Tips for Composting in the City

By: Jodie Schneider

It’s not trash, it’s life-extending fertilizer. See more green living pictures.

GETTY IMAGES/JUPITERIMAGES/PIXLAND

Consumers throw away more than 200 million pounds (90,718 metric tons) of trash every day in the United States. Fifteen percent of it comes from our kitchen and yard waste, and generally ends up in our landfills [source: Bailey].

Composting keeps this nutrient-rich organic matter from going to waste by turning it into fertilizer for your container vegetables, window boxes and hanging baskets. It’s a way to speed up nature’s recycling process by creating the ideal conditions for rapid decomposition of organic materials, turning the nutrients from once-living materials into humus — a fertile dark, crumbly material that helps improve soil health.

The humus produced by composting is a source of minerals and nutrients that are essential for plant growth. While synthetic fertilizers may provide a temporary solution for poor soil, composting changes the structure of the ground making it nutritionally rich. It also benefits the environment by recycling valuable organic resources, reducing air pollution from refuse trucks and extending the life of landfills.

Contrary to what you might think, composting doesn’t smell bad, it isn’t expensive to set up and it’s easy to do. In fact, bugs and worms do most of the work for you. Plus, it allows you to make the most of the small space you may have available in the city for gardening.

Can’t wait to get started? Read on for some tips on composting in the city.

Contents

  1. .

10: Understand How It Works

There’s no need to take Composting 101 or read a lengthy how-to manual to be successful at composting. It’s something just about anyone can do. But while it’s easy, there are a few things you might want to understand before you start.

The four basic requirements for composting are air, water, carbon and nitrogen. The right amount of air and water will ensure the rapid reproduction of decomposers, the organisms that break down the carbon and nitrogen materials in your compost pile. Decomposers include bacteria, bugs, worms and fungi, of which bacteria are the most plentiful.

Aerobic bacteria thrive in an oxygen-rich environment and are the most effective at decomposition. When there isn’t enough air in the pile, anaerobic bacteria move in and decomposition becomes slow and inefficient. Anaerobic bacteria also leave behind hydrogen sulfide, which gives off an unpleasant rotten egg smell. So, you’ll want to make sure your pile gets enough air.

You should also strive to keep your pile moist, but not soggy. When moisture decreases, the deposition of your pile slows. Too much moisture and it becomes air deficient, encouraging the growth of anaerobic bacteria.

Carbon comes from dry, lifeless materials from your kitchen and garden, and nitrogen from the moist, fresh waste. Compost forms best with a 30:1 carbon-to-nitrogen ratio [source: National Sierra Club]. You should try to balance these elements in your compost pile, but maintaining the exact ratio isn’t that critical.

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