Abstract
Mineral fertilizers have been associated with the accelerated decomposition
of organic matter in the soil. This rapid decomposition primarily affects organic
materials such as plant residues and other organic substances present in the soil.
Biochar, produced by the pyrolysis of biomass, offers a sustainable solution to enhance
soil fertility and crop productivity. Biochar has a one of a kind potential to improve soil
health and counteract global climate change. Its distinct qualities, such as high carbon
content and the potential to promote soil health, make it an efficient, environmentally
friendly and cost-effective material for overcoming global food security and increasing
temperatures. Biochar can be produced using a variety of biomass materials and at
various temperatures, resulting in a wide range of variations in the final product.
Because of variations in its physicochemical attributes, such as microporosity, surface
area and pH, biochar can be customized for specific applications. The pyrolysis
temperature, heating rate, residence time, and biomass used during production all have
a strong influence on the structural configuration and elemental composition of
biochar. According to research, biochar produced at high pyrolysis temperatures has
high ash, phosphorus, and potassium concentrations. Furthermore, many important
macro and micronutrients, such as calcium, magnesium, iron, and zinc, have been
found to be positively associated with increasing temperature. Biochar produced at low
pyrolysis temperatures, on the other hand, provides relatively more available nutrients
in the soil and can help to reduce carbon dioxide emissions. Biochar produced at high
pyrolysis temperatures has a stronger affinity for organic contaminants due to its
increased surface area, hydrophobicity, microporosity, high pH, and low dissolved
organic carbon. It is important to note that the properties of biochar should be thoroughly assessed before application due to the wide variability of biomass
resources and pyrolysis conditions. Furthermore, biochar production should be tailored
to the intended application in soil to maximize its efficacy.
Keywords: Biochar production, Biomass materials, Crop productivity, Carbon sequestration, Elemental composition, Microporosity, Macro and micronutrients, Nutritional properties, Organic pollutants, Pyrolysis temperature, Soil fertility, Surface area, Structural configuration.