TY - JOUR
T1 - A framework for evaluating benefits of organic fertilizer use in agriculture
AU - Culas, Richard J
AU - Rajin Anwar, Muhuddin
AU - Maraseni, Tek Narayan
PY - 2024/12/15
Y1 - 2024/12/15
N2 - Globally, 12 million hectares of agricultural soil are lost to degradation each year. Australia leads, with two-thirds of its agricultural land degraded, organic carbon content in heavily cultivated soils below 1%, and a 2-3% annual decline in nitrogen (N) reserves. Research shows that organic fertilizers can restore degraded land and offer multiple environmental and financial benefits, yet organic farming adoption in Australia is under 10%, mainly due to the lack of a framework to capture the full range of benefits. This study develops a framework to evaluate the economic viability of organic fertilizers. It analyses the use of biochar as an example for the organic fertilizers. Literature provides valuable insights into biochar's effects on soil health, carbon storage, and crop productivity. Whereas this study develops a framework to evaluate the long-term economic viability of all co-benefits from biochar application. Using the APSIM model, we then simulated the impact of biochar on soil health and farm productivity in wheat systems in Holbrook, NSW. Results indicate that (1) biochar improves soil structure, carbon storage, water, and nutrient retention, boosting productivity and profitability; (2) combining biochar with stubble retention enhances benefits compared to each practice alone; and (3) optimal biochar application rates vary by feedstock type, quantity, timing, method, soil, and crop type. The framework can be applied to other crops, both nationally and internationally, but requires APSIM model calibration for local topographic, edaphic, and climatic conditions.
AB - Globally, 12 million hectares of agricultural soil are lost to degradation each year. Australia leads, with two-thirds of its agricultural land degraded, organic carbon content in heavily cultivated soils below 1%, and a 2-3% annual decline in nitrogen (N) reserves. Research shows that organic fertilizers can restore degraded land and offer multiple environmental and financial benefits, yet organic farming adoption in Australia is under 10%, mainly due to the lack of a framework to capture the full range of benefits. This study develops a framework to evaluate the economic viability of organic fertilizers. It analyses the use of biochar as an example for the organic fertilizers. Literature provides valuable insights into biochar's effects on soil health, carbon storage, and crop productivity. Whereas this study develops a framework to evaluate the long-term economic viability of all co-benefits from biochar application. Using the APSIM model, we then simulated the impact of biochar on soil health and farm productivity in wheat systems in Holbrook, NSW. Results indicate that (1) biochar improves soil structure, carbon storage, water, and nutrient retention, boosting productivity and profitability; (2) combining biochar with stubble retention enhances benefits compared to each practice alone; and (3) optimal biochar application rates vary by feedstock type, quantity, timing, method, soil, and crop type. The framework can be applied to other crops, both nationally and internationally, but requires APSIM model calibration for local topographic, edaphic, and climatic conditions.
KW - Economic model, APSIM, Biochar, Wheat cropping, Impacts
U2 - 10.1016/j.jafr.2024.101576
DO - 10.1016/j.jafr.2024.101576
M3 - Article
SN - 2666-1543
VL - 19
JO - Journal of Agriculture and Food Research
JF - Journal of Agriculture and Food Research
M1 - 101576
ER -