Using Biochar as an Ingredient for Compost Making
Where did 2017 go? Now that we are well into the New Year of 2018, this is the year I hope to be making even higher quality compost to spruce up my garden this spring. This article will be dedicated to the use of biochar as a “carbon” source for making the highest quality compost consisting of all the nutrients plants require and teaming them up with beneficial microbes (bacteria and fungi).
I am referring to two (2) scholarly articles to provide the facts and experimental evidence for this newsletter material:
- Linda Chalker-Scott, “Biochar: A Home Gardener’s Primer”, Washington State University Extension Fact Sheet, FS146E, 2014
- Daniel Fischer and Bruno Glaser (2012). “Synergisms between Compost and Biochar for Sustainable Soil Amelioration, Management of Organic Waste”, Dr. Sunil Kumar (Ed.), ISBN: 978-953-307-925-7, InTech, Available from: http://www.intechopen.com/books/management-of-organic-waste/synergism-between-biocharand-compost-for-sustainable-soil-amelioration
You may already know something about biochar — how it is made and its claims to be a soil enhancing agent — but understanding exactly how it enhances soils for plants will help you to know how it can be used most profitably in soils and in compost making.
A good quality biochar will be granulated down to particle sizes of 1mm to 5mm, and will have very few, if any, chunks larger than a half inch and very little dust.
Large chucks of biochar are not as effective in soils and composts as the fine textured (1 mm to 5 mm) material on the right.
The organic carbon and porous cavities in the biochar will attract beneficial microbes such as nitrogen fixing bacteria and nutrient transporting fungi such as arbuscular or endo-mycorrhizal fungi. Biochar’s surface area has both negative and positive charges that attract positive and negative charged nutrient ions like nitrogen, phosphorous, potassium, magnesium, calcium, and other micronutrients. During the compost making process, these nutrients have the potential to leach through the compost pile and be lost. Microbes that are attracted to and protected by the biochar also have the opportunity to incorporate these nutrients into their body mass and wastes and upon their expiration, these nutrients are retained in the compost and will be more available to plants as food.
The negatively charged biochar surface area can also increase the amount of hydrogen ions in the soil causing the pH to increase, which may be beneficial for some plants and not for others. This “liming” effect may beneficially treat acidic soils. If acidic-soil-loving plants are being grown, such as Begonias, Blueberries, Dogwood, Fuchsia, Holies, Hyrdrangeas, Magnolias, this negative impact can be overcome by adding a soil acidifier like Aluminum Sulphate at a rate of about 2.2 lbs (1 kg) per 200 sq. ft. (20 m2).
The benefits of adding biochar to soils and compost becomes very interesting when we begin to consider its positive effects on soil microbes. The small pores of biochar provide a hiding place for fungi and bacteria that protects them from grazing protozoa, such as amoebas and nematodes. When beneficial bacteria and fungi populations increase in the soil, pathogenic bacteria populations decrease and plant health is improved as a result.
So, given the significance of Soil Organic Matter (SOM) for soil health and the ability for biochar additions to compost to increase this important soil quality, let’s take a closer look at this synergy. An application of well-made compost to soil provides easily accessible carbohydrates for soil organisms and ionized nutrients for plants. Larger soil organisms like earthworms are also positively influenced and these in turn have a positive impact on soil health through their ability to blend the soil (a process called bioturbation) and produce droppings (worm castings) consisting of organo-mineral complexes that are beneficial for plants. Addition of biochar during the composting process increases all of these prospects as discussed in the second reference given above. I have summarized some of this information in the following notes relating to addition of biochar to the residential composting process.
Biochar’s excellent nutrient and moisture holding capacity along with its ability to stimulate and protect the growth of beneficial plant microbes is fully utilized when it is blending with compost. A number of important research studies are underway to quantify the numerous ways in which blending compost and biochar results in a soil amendment product that is richer in microbes and nutrients along with the benefit of a more resilient soil organic carbon material that is long lasting in a garden, turf, or crop lands. Addition of biochar to the composting process is a technique used by Indigenous people in the Amazon basin some 2000 years ago.