By AUBREY WHITE
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The origins of biochar, a charcoal-based soil amendment, are almost mythic. In the Amazon Basin, a rainforest region with typically infertile soils, some areas have been discovered to have ground that is almost black and rich in nutrients. The soil’s dark color is derived from its high organic matter content, believed to originate from charcoal added to the soil some 2,500 years ago, either intentionally or as a waste product from cooking.
Recently, there has been a growing interest in whether the fertility of these “amazon dark earth soils” can be replicated in modern farming practices. A new UC Davis database helps users and researchers better understand that replicability.
Charcoal, called biochar when used as a soil amendment, can be derived from nearly any biomass, transforming waste products into this unique additive. Increased bio-fuel production and expanding fruit and nut orchards in California produce a growing supply of waste that has rich potential as a nutrient. Wood, chicken manure, the residue of corn plants after harvest, and nut shells are all common candidates for biochar, each cooked down in a low- or no-oxygen environment into brittle charcoal and added to soil.
The claims of biochar’s ability to improve soil are many. Biochar proponents say its addition to soil can increase carbon storage, boost the nutrient and water retention of soils, and reduce the greenhouse gas emissions from soils.
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Sanjai Parikh
“The basic premise of biochar’s benefit is straightforward,” says Sanjai Parikh, assistant professor of soil chemistry in the Department of Land, Air and Water Resources at UC Davis. “You are putting highly condensed carbon in the soil, so that biochar itself has a longer residence time than just putting a piece of wood, or any raw biomass, in the soil. The fact that biochar is a fairly recalcitrant form of carbon means that microbes cannot utilize it easily as food source and carbon dioxide emissions are thus temporarily reduced. However there is also a lot of excitement around the potential of biochar to also provide a host of specific agronomic benefits.”
But as a relatively young avenue of scientific research, conclusive evidence of its benefits is largely inadequate. To drive forward the understanding of biochar, Parikh, along with postdoctoral scholar Fungai Mukome have created the UC Davis Biochar Database — a forum dedicated to comparing the physical and chemical properties of biochar based on the various sources used to make them, and through that generate a broader understanding of the replicable benefits biochar can bring to soil.
“With our database we’re hoping to provide some of the basic data to the biochar community to link these benefits with specific biochar feedstocks and processing temperatures,” Parikh said.
The database, funded in part by the Agricultural Sustainability Institute at UC Davis, can be used as a resource for biochar researchers, manufacturers and users to better understand the effect that different biochars have shown in soil. Users can begin to tailor their biochar systems to better reflect the advantageous results that have been shown in biochar research. And for those studying the benefits of biochar, the database serves as an open source community that biochar researchers can add to in order to develop a comprehensive guide to the research.
“We released the database with 80 entries, and currently have over 300, but our goal is to grow the database to include 1,000 entries within a year,” Parikh said. “There needs to be a place to come to understand the properties of biochar, and opening the forum for community contributions is an important way to expand our knowledge.”
The biochar database can be visited here. It contains instructions on how to download data, and how to contribute to the database by uploading data on biochar chemical and physical properties.
New Database Captures the Benefits of Biochar | KRCB
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