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Posts Tagged ‘anaerobic’

Water is added to a Biostack during a rainless day.

Bin wetness from rain is usually a non-issue in San Diego County but recently, with the extreme rain that has fallen on our lovely County, outdoor compost bins are probably on the soggy side. Remember, optimum bin dampness is comparable to that of a wrung out sponge so if your bin is dripping, it is probably too wet!

Backyard Compost Bins

A “too wet” compost bin will naturally dry out over time as the water in the bin evaporates, but if it is rainy or cold outside, the bin may stay wet for an extended period of time. A bin that is too wet can lead to a smelly, anaerobic situation that most strive to avoid. To speed up the drying process, add additional browns (materials high in carbon) to your bin. Items like dead leaves, straw, shredded paper, and mulch will suck up the excess water, drying out the bin. Once the bin is back to the dampness of a wrung out sponge, the microbial population will increase, speeding up composting in the bin.

Worm Bins

Red Wigglers are terrestrial creatures. They will quickly perish if placed into a pool of water. If their environment gets too wet, they will wriggle for their lives, migrating to a safer location, probably out of the worm bin. To dry out the bedding, add shredded paper or cardboard. The worms will eventually eat the paper and in the meantime, it will absorb excess water. If space in your bin is at a premium and additional material cannot be added, placing a piece of cardboard or burlap on the surface of the bedding will absorb moisture and can be replaced if additional moisture needs to be removed. Make sure to also check the worm tea level of your bin. Most of the water in the bin will end up in the worm tea level. If it fills, it will saturate the lowest level of the worm bin. If the tea levels are high, drain the tea from the bin and use it as a liquid fertilizer on your plants! They’ll love it!

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by: David Emmerson, LCCHS Science Teacher and Solana Center Master Composter

Kitchen waste, yard clippings, paper, coffee grounds, and other organic materials that are produced in the home are all considered “biodegradable”. This term has a positive connotation, especially to us environmentalists. It means that they can be broken down into their raw materials by a variety of living organisms such as microbes (helpful bacteria, protozoa and fungi), earthworms and many different arthropods. Many of our choices at stores are based on purchasing materials that will biodegrade or “rot”.  The theory is that the materials will then be reincorporated as plant nutrients and find their way back into the food chain in a healthy ecosystem.

Leslie turns a Biostack compost bin.

In the United States and in many other developed countries, we over-produce and generate a lot of waste. We have become a throw-away society, keeping our homes neat and tidy by either rinsing things down our drains or putting wastes in plastic bags out on the curb where it all goes out of sight, out of mind. The illusion is that we have solved our problems and shouldn’t worry because the waste will biodegrade on its own. We sometimes further the cause by putting “green” waste into special bins to be picked up separately to be kept out of landfills. However, most of us don’t realize is that almost all of the biodegradable material that we flush, rinse or throw out is going to end up breaking down in an anaerobic environment either as sewage sludge or in most cases in landfills. The separated green waste most often gets used as ADC, “Alternate Daily Cover” to top off the day’s trash which is then layered over the next day, so it gets buried anyhow. Locally, the cities of San Diego and Oceanside have composting facilities where green waste collected at the curb can be taken to be composted or mulched. But if you do not live in those cities or in an area where composting facilities are available, you do not necessarily keep it out of the landfill by separating it.

When organic material decomposes without oxygen, the microorganism can only partially break it down. One of the major end products of this type of decomposition is methane gas (CH4). Methane makes up a little over half of the gas that comes from landfills. Global methane emissions from landfills are estimated to be between 30 and 70 million tons each year. Most of this landfill methane currently comes from developed countries, where the levels of waste tend to be highest. The EPA indicates that methane is about 10% of the green house gases released in the US each year. But it is 72 times more effective (over a 25 year period) at contributing to global warming than the better known greenhouse gas, carbon dioxide (CO2). Landfills are the second largest source of human-related atmospheric methane, almost one fourth of the methane we release now comes from landfills. Landfills provide ideal conditions for methane production, with lots of organic material and anaerobic conditions. The huge amounts of waste that are buried in landfill sites means that methane is produced for years after the site is closed, due to the waste slowly decaying under the ground. Having the waste we produce at home shipped to landfills means further greenhouse gas produced from the fuel burned.

The Solana Center garden abounds from the compost ammended soil.

By properly composting kitchen waste and yard clippings you can ensure that the waste will not sit in a landfill producing methane. Instead, it will go to work at creating healthy soil and reducing amount of water runoff. Several very effective composting methods are available for domestic use, with vermi-composting (using worms) being particularly effective at quickly converting kitchen waste into good quality garden compost.

Even if you are not serious about gardening, you will improve the water retention of your soil and improve the health of the lawn, shrubs, trees or other landscaping if you turn your organic wastes into compost and put it back into the ground. Healthy soil is an important factor in protecting our water resources. Compost increases soil’s ability to retain water and decreases runoff. Runoff pollutes water by carrying soil, fertilizers and pesticides to nearby streams and sewer drains. Compost encourages healthy root systems, which also decrease runoff. Healthy root systems mean healthy plants and thus better growth and carbon sequestration. If we use compost, we can reduce or eliminate the use of synthetic fertilizers (which come from petroleum). Many people add fertilizer to flowers or lawns even if they are not gardening. Only a 5% increase in organic material quadruples soils capacity to hold water. Not too interested in back breaking work with a shovel to turn the compost into the soil? Don’t want to pay for a roto-tiller? Good news for you. It has been shown that simply top dressing soil with compost helps retain the mycorrhizal fungi nets that assist plant roots. It may actually be the most effective way to assist the plants you already have around your house.

Whether you are trying to grow award winning tomatoes or simply want to help the environment around your own home, composting is the thing for you. You will also contribute to the health of the general community in which you live and cut the amount of pollutants that go into the atmosphere from the wastes you’ve generated. Thanks in advance!

http://www.ars.usda.gov US Dept. of Agriculture website

http://www.ghgonline.org/index.htm a green house gas (GHG) website

http://www.epa.gov/ US Environmental Protection Agency website

http://www.globalchange.gov/ the US Govt. website for Fed. Research on Climate and Global Change

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