Abstract:
The Megathyrsus maximus commonly known as guinea grass is an invasive species in Sri Lanka
that can be found throughout the island. Biochar has a wide range of potential applications as a
soil amendment and as a fuel source. Biochar can adsorb different chemical components due to
its porous structures, thus biochar can function as a fertilizer. Biochar is inherently having the
ability to adsorb and release plant nutrients to ensure optimum availability of micronutrients to
plants. The objective of this study was to develop a guinea grass biochar as a potential slow
releasing phosphorus source to be used as a soil amendment. Guinea grass biochar was
synthesised at different pyrolysis temperatures range from 200oC to 500oC under low oxygen
environment. Phosphate releasing capacity of the biochar and air-dried guinea grass were
studied spectrophotometrically. The phosphate relasing ability was studied by mixing 0.5g of
biochar and 200 ml of dislited water for 24h at ambient conditions. The biochar yield was
calculated as 92%, 48% 36% and 23.0% for 200oC, 300oC, 400oC and 500oC respectively. The
highest phosphate release (66 ppm) was given by the biochar synthesised at 400oC and air-dried
guinea grass, 200oC, 300oC, and 500oC samples were 17, 20, 41 and 34 ppm, respectively. The
calculated standard P2O5 % of 400oC biochar was 1.97 %, parallel to vermicompost. The pH of
biochar at 400oC was about 10. Finding of the present study demonstrated the potential use of
guinea grass biochar as a phosphate source which can be use as soil amendment to enrich
phosphorous level of soil and neutralize the acidity of soil. Further studies are recommended to
fortify biochar with nitrogen, potassium, phosphorous etc. and analyse kinetics of nutrient
adsorption/releasing.