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. 2023 Feb 7;205(3):84.
doi: 10.1007/s00203-023-03421-2.

Soil organic carbon, aggregation and fungi community after 44 years of no-till and cropping systems in the Central Great Plains, USA

James S Lin  1 Marcos V M Sarto  2   3 Tiffany L Carter  4 Dallas E Peterson  1 Colleen Gura  1 Laura Mino  1 Megan Rohrs  1 Hallie Lucas  1 Jamie Clark  1 Charles W Rice  1
Affiliations

Soil organic carbon, aggregation and fungi community after 44 years of no-till and cropping systems in the Central Great Plains, USA

James S Lin et al. Arch Microbiol. .

Abstract

Implementing sustainable agricultural land management practices such as no-till (NT) and diversified crops are important for maintaining soil health properties. This study focuses on the soil health of three long-term (44 years) tillage systems, NT, reduced tillage (RT), and conventional tillage (CT), in monoculture winter wheat-fallow (W-F) (Triticum aestivum L.) and wheat-soybean (W-S) (Glycine max (L.) Merrill) rotation. Soil organic carbon (C) was higher in NT than CT in the surface 0-5 cm, but not different in the 5-15 cm, demonstrating SOC stratification on the soil profile. The soil water content was higher in NT followed by RT and CT in the top 0-5 cm. We found an association between increased carbon, aggregation, and AMF biomass. Greater soil aggregation, carbon and AMF were observed in NT at 0-5 cm soil depth. The W-S cropping system had greater soil microbial community composition based on fungi biomass, AMF and fungal to bacteria ratio from phospholipid fatty acid analysis (PLFA). Large macroaggregates were positively correlated with total C and N, microbial biomass, Gram + , and AMF. Soil water content was positively correlated with macroaggregates, total C and N, and AC. No-till increased soil carbon content even after 44 years of cultivation. By implementing conservation tillage systems and diversified crop rotation, soil quality can be improved through greater soil organic C, water content, greater soil structure, and higher AMF biomass than CT practice in the Central Great Plains.

Keywords: Crop diversification; Monoculture; PLFA; Soil health; Tillage.

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References

    1. Abid M, Lal R (2009) Tillage and drainage impact on soil quality: II. tensile strength of aggregates, moisture retention and water infiltration. Soil Tillage Res 103:364–372. https://doi.org/10.1016/j.still.2008.11.004 - DOI
    1. Acosta-Martínez V, Lascano R, Calderón F, Booker JD, Zobeck TM, Upchurch DR (2011) Dryland cropping systems influence the microbial biomass and enzyme activities in a semiarid sandy soil. Biol Fertil Soils 47:655–667. https://doi.org/10.1007/s00374-011-0565-1 - DOI
    1. Alhameid A, Ibrahim M, Kumar S, Sexton P, Schumacher T (2017) Soil organic carbon changes impacted by crop rotational diversity under no-till farming in South Dakota, USA. Soil Sci Soc Am J 81:868–877. https://doi.org/10.2136/sssaj2016.04.0121 - DOI
    1. Al-Kaisi MM, Douelle A, Kwaw-Mensah D (2014) Soil microaggregate and macroaggregate decay over time and soil carbon change as influenced by different tillage systems. J of Soil Water Cons 69:574–580. https://doi.org/10.2489/jswc.69.6.574 - DOI
    1. Alvarez R, Steinbach HS (2009) A review of the effects of tillage systems on some soil physical properties, water content, nitrate availability and crops yield in the Argentine pampas. Soil Tillage Res 104:1–15. https://doi.org/10.1016/j.still.2009.02.005 - DOI

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