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Biochar Stability in a Highly Weathered Sandy Soil under Four Years of Continuous Corn Production

Author

Listed:
  • Jeffrey Michael Novak

    (Coastal Plain Soil, Water and Plant Research Center, United States Department of Agriculture (USDA), Agricultural Research Service (ARS), 2611 West Lucas Street, Florence, SC 29501, USA)

  • Donald William Watts

    (Coastal Plain Soil, Water and Plant Research Center, United States Department of Agriculture (USDA), Agricultural Research Service (ARS), 2611 West Lucas Street, Florence, SC 29501, USA)

  • Gilbert C. Sigua

    (Coastal Plain Soil, Water and Plant Research Center, United States Department of Agriculture (USDA), Agricultural Research Service (ARS), 2611 West Lucas Street, Florence, SC 29501, USA)

  • William Tillman Myers

    (Coastal Plain Soil, Water and Plant Research Center, United States Department of Agriculture (USDA), Agricultural Research Service (ARS), 2611 West Lucas Street, Florence, SC 29501, USA)

  • Thomas F. Ducey

    (Coastal Plain Soil, Water and Plant Research Center, United States Department of Agriculture (USDA), Agricultural Research Service (ARS), 2611 West Lucas Street, Florence, SC 29501, USA)

  • Hannah C. Rushmiller

    (Coastal Plain Soil, Water and Plant Research Center, United States Department of Agriculture (USDA), Agricultural Research Service (ARS), 2611 West Lucas Street, Florence, SC 29501, USA)

Abstract

Biochar is being considered a climate change mitigation tool by increasing soil organic carbon contents (SOC), however, questions remain concerning its longevity in soil. We applied 30,000 kg ha −1 of biochars to plots containing a Goldsboro sandy loam (Fine-loamy, siliceous, sub-active, thermic Aquic Paleudults) and then physically disked all plots. Thereafter, the plots were agronomically managed under 4 years (Y) of continuous corn ( Zea Mays , L.) planting. Annually, incremental soil along with corresponding bulk density samples were collected and SOC concentrations were measured in topsoil (down to 23-cm). The biochars were produced from Lodgepole pine ( Pinus contorta ) chip (PC) and Poultry litter (PL) feedstocks. An untreated Goldsboro soil (0 biochar) served as a control. After four years, SOC contents in the biochar treated plots were highest in the top 0–5 and 5–10 cm depth suggesting minimal deeper movement. Declines in SOC contents varied with depth and biochar type. After correction for SOC declines in controls, PL biochar treated soil had a similar decline in SOC (7.9 to 10.3%) contents. In contrast, the largest % SOC content decline (20.2%) occurred in 0–5 cm deep topsoil treated with PC biochar. Our results suggest that PC biochar had less stability in the Goldsboro soil than PL biochar after 4 years of corn grain production.

Suggested Citation

  • Jeffrey Michael Novak & Donald William Watts & Gilbert C. Sigua & William Tillman Myers & Thomas F. Ducey & Hannah C. Rushmiller, 2021. "Biochar Stability in a Highly Weathered Sandy Soil under Four Years of Continuous Corn Production," Energies, MDPI, vol. 14(19), pages 1-13, September.
    • Handle: RePEc:gam:jeners:v:14:y:2021:i:19:p:6157-:d:644222
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    References listed on IDEAS

    as
    1. Thomas F. Ducey & Jeffrey M. Novak & Mark G. Johnson, 2015. "Effects of Biochar Blends on Microbial Community Composition in Two Coastal Plain Soils," Agriculture, MDPI, vol. 5(4), pages 1-16, November.
    2. Rattan Lal, 2014. "Climate Strategic Soil Management," Challenges, MDPI, vol. 5(1), pages 1-32, February.
    3. Jeffrey M. Novak & James R. Frederick & Don W. Watts & Thomas F. Ducey & Douglas L. Karlen, 2021. "Corn Stover Removal Responses on Soil Test P and K Levels in Coastal Plain Ultisols," Sustainability, MDPI, vol. 13(8), pages 1-11, April.
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