Brandon H. Carpenter scite author profile

Biochar, a carbon-rich material derived from the pyrolysis of organic matter, exhibits beneficial chemical and physical properties when added to a soilless medium. Research on the use of biochar to improve plant productivity and growth has increased over the past decade, and has focused on using biochar as an alternative to sphagnum peatmoss. However, little work has been done to determine whether biochar can be used to partially replace commercially available sphagnum peatmoss–based greenhouse medium in vegetable transplant production. This study investigated the potential for supplementing a greenhouse growing medium with biochar for ‘Paladin’ pepper (Capsicum annuum) transplant production. Biochar was added to a soilless mix at rates of 0%, 20%, 40%, 60%, or 80% (by weight). Pepper seedlings were grown for 56 days in 50-, 72-, or 98-cell transplant trays at each of the five levels of biochar concentration. Germination increased in the 50- and 72- cell trays with 20%, 40%, and 60% biochar; however, biochar had no effect on germination in the 98-cell tray. Seedling height and dry weight decreased as biochar concentration and cell number increased. Seedling stem diameter also decreased with increasing cell number and biochar concentration. Leaf SPAD readings (indirect measurement of chlorophyll) decreased with increasing biochar rate. Medium pH increased with increasing biochar application rates. Higher rates of biochar (60% and 80%) increased pH well beyond 7.0 and negatively affected transplant growth. Overall results indicate positive effect of biochar in sphagnum peatmoss–based growing mix on seedling growth characteristics; although higher biochar concentrations could negatively affect seedling growth. Biochar can successfully replace up to 40% of sphagnum peatmoss–based growing medium and serve as a sustainable alternative medium in vegetable transplant production.

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Biochar's fitness as an amendment in bell pepper transplant and field production

Carpenter¹

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between cell volumes at the 80% biochar treatment level. Indirect estimate of chlorophyll using SPAD readings showed similar trends to the height and dry weight. Nitrate-N in the substrate was leached except in the 60% and 80% biochar mixes, which had more nitrates at the end of the experiment, than in the beginning. These results indicate that biochar can be added to commercial soilless substrate at rates up to 40% without detrimental effects on pepper transplant production.

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Effect of Biochar on Carrot Production

Carpenter

Nair

2014

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Integrating Cover Crops in High Tunnel Crop Production

Nair

Carpenter

Tillman

et al. 2014

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