Biochar
Biochar refers to a fine-grained charcoal, rich in organic carbon compounds, used to improve soil quality through enhanced nutrient and water holding capacity of soil, reducing total fertiliser needs. Biochar is a stable solid produced from the controlled burning of plant and waste feedstock, including wood chips and pellets, tree bark, crop residues (straw, maize stovers, nut shells and rice hulls), grain, sugarcane bagasse, chicken litter, diary manure, sewage and paper sludge. Biochar is used as a soil conditioner as part of soil amendment strategies, improving the workability of soil, particularly those with heavy clay components.. The application of biochar to soil is a strategy to minimise the climate and environmental impact of cropland systems, such as the application of synthetic fertilisers, and improve soil quality through enhancing its physical-chemical characteristics. This agricultural practice improves soil structure, nutrient cycling and water retention, and the high stability of biochar carbon compounds contributes to the reduction of green-house gas emissions by increasing carbon sequestering in soils. Biochar is shown to be effective in improving soil conditions in acidic, sandy and clay-rich soils, improving the physical characteristics, and is classified by the FAO classifies as an adaptation strategy and contributes to mitigation of climate change as the processes captures and stores carbon in soils create other secondary socio-economic benefits, through additional fuel sources, and economic opportunities for production. Biochar can either be purchased or produced on-farm on a small or large scale. Collective action may benefit communities, so discussion with neighbours and community leadership may be necessary, especially if a biochar.
To effectively implement biochar the following should be carried out. Tools required – shovel and a metal sieve.
- Step 1: Acquire charcoal from local vendor, and sieve or grate the charcoal into fine material in a pile. Biochar should not be applied to soil directly after production. It should be allowed to ‘rest’ for one to two months.
- Step 2: Rotate the pile every 2-days for a period of up to 10-days (total).
- Step 3: Prior to application, aim to wet (but not waterlog) biochar stock with water or preferably urine. If done when still warm, it will fracture the charcoal, increasing surface area for absorption.
- Step 4: Spread the biochar evenly across soil prior to planting and let it settle or mix with the top layer of soil. One to three kg/m2 is recommended, depending on the degree of soil required.
- Step 5: Regularly monitor soil pH, water retention and soil texture, keeping records if relevant to ensure that improvements are realised, and negative impacts do not arise.
Biochar can be produced on-farm, but will require collection of plant and waste feedstock (see above). Biochar can be produced on-farm using a trench. A biochar trench is a dug recess where crop residues are burned to create charcoal. Tools required are a shovel and one or more roofing sheets (one-metre long).
- Step 1: Dig trench 50 to 70 cm deep, and one to two metres long, ensuring that roofing sheets fully cover the trench void.
- Step 2: Start a fire in one end of the trench, throwing in loose crop residue or other organic waste, keeping the fire under control (not creating large flames and smoke).
- Step 3: Keep fire burning until trench is full of char.
- Step 4: When the trench is full, and flames have burned-out, cover the trench with the roofing sheet, sealing edges with loose soil, trampling it down to ensure closure.
- Step 5: Leave the covered trench for five to six hours to extinguish.
- Department of Environmental Affairs (South Africa) 2015. Assessment of the potential to produce biochar and its application to South African soils as a mitigation measure. Department of Environmental Affairs, Pretoria, South Africa.
- Echo 2013. Biochar – An Organic Note #Technical Note No. 75 House for Soil Microbes. Echo Community.
- Mekuria, Wolde; Noble, Andrew. 2013. The role of biochar in ameliorating disturbed soils and sequestering soil carbon in tropical agricultural production systems. Applied and Environmental Soil Science, 2013:10p. doi:
- FAO 2009. Biochar. A Strategy to Adapt/Mitigate Climate Change? Technical Factsheet. Rome, Italy
- Govindarajan, Dr & Ch, Srinivasrao & K.A., Gopinath & Reddy, Kotha. (2015). Low-Cost Portable Kiln for Biochar Production from On-Farm Crop Residue. Indian Farming. 64. 9-12,18.
- Panwar, N.L. & Pawar, Ashish & Salvi, Dr. B.L.2019. Comprehensive review on production and utilization of biochar. SN Applied Sciences. 1. 10.1007/s42452-019-0172-6.
Benefits
- The production and application of biochar reduces GHG emissions of cropland systems due to the properties of the biochar itself, and reduction in the application of synthetic fertiliser.
- Can improve physical and chemical composition of soil, especially in acidic, sandy and clay-rich soils; soil nutrient cycling and water retention.
- Can reduce fertiliser and irrigation requirements.
- Potential socio-economic opportunities for biochar producers, if not produced on-farm.
- Improved food security from production of secondary fuel source.
- Provides an appropriate and sustainable mechanism for dealing with crop residues and biomass.
- Can be mixed with compost during application to increase performance of soil amendments.
Drawbacks
- Requires sustainable non-wood supply of organic matter for production so as not to increase deforestation.
- Long-term impacts not fully understood.
