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New Soil, Old Plants, and Ubiquitous Microbes: Evaluating the Potential of Incipient Basaltic Soil to Support Native Plant Growth and Influence Belowground Soil Microbial Community Composition

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  • Aditi Sengupta

    (Biosphere 2, University of Arizona, Tucson, AZ 85721, USA
    Author’s current address: Earth and Biological Sciences Directorate, Pacific Northwest National Laboratory, 902 Battelle Boulevard, MSIN J4-18, Richland, Washington, DC 99352, USA.)

  • Priyanka Kushwaha

    (Department of Environmental Science, University of Arizona, Tucson, AZ 85721, USA)

  • Antonia Jim

    (Department of Environment and Sustainability, Fort Lewis College, Durango, CO 81301, USA)

  • Peter A. Troch

    (Biosphere 2, University of Arizona, Tucson, AZ 85721, USA
    Department of Hydrology and Atmospheric Sciences, University of Arizona, Tucson, AZ 85721, USA)

  • Raina Maier

    (Department of Environmental Science, University of Arizona, Tucson, AZ 85721, USA)

Abstract

The plant–microbe–soil nexus is critical in maintaining biogeochemical balance of the biosphere. However, soil loss and land degradation are occurring at alarmingly high rates, with soil loss exceeding soil formation rates. This necessitates evaluating marginal soils for their capacity to support and sustain plant growth. In a greenhouse study, we evaluated the capacity of marginal incipient basaltic parent material to support native plant growth and the associated variation in soil microbial community dynamics. Three plant species, native to the Southwestern Arizona-Sonora region, were tested with three soil treatments, including basaltic parent material, parent material amended with 20% compost, and potting soil. The parent material with and without compost supported 15%, 40%, and 70% germination of Common Bean ( Phaseolus vulgaris L. ‘ Tarahumara Norteño ’), Mesquite ( Prosopis pubescens Benth), and Panic Grass ( Panicum Sonorum Beal), respectively, though germination was lower than in the potting soil. Plant growth was also sustained over the 30 day period, with plants in parent material (with and without amendment) reaching 50% height compared to those in the potting soil. A 16S rRNA gene amplicon sequencing approach showed Proteobacteria to be the most abundant phyla in both parent material and potting soil, followed by Actinobacteria . The potting soil showed Gammaproteobacteria (19.6%) to be the second most abundant class, but its abundance was reduced in the soil + plants treatment (5.6%–9.6%). Within the basalt soil type, Alphaproteobacteria (42.7%) and Actinobacteria (16.3%) had a higher abundance in the evaluated bean plant species. Microbial community composition had strong correlations with soil characteristics, but not plant attributes within a given soil material. Predictive functional potential capacity of the communities revealed chemoheterotrophy as the most abundant metabolism within the parent material, while photoheterotrophy and anoxygenic photoautotrophy were prevalent in the potting soil. These results show that marginal incipient basaltic soil, both with and without compost amendments, can support native plant species growth, and non-linear associations may exist between plant–marginal soil–microbial interactions.

Suggested Citation

  • Aditi Sengupta & Priyanka Kushwaha & Antonia Jim & Peter A. Troch & Raina Maier, 2020. "New Soil, Old Plants, and Ubiquitous Microbes: Evaluating the Potential of Incipient Basaltic Soil to Support Native Plant Growth and Influence Belowground Soil Microbial Community Composition," Sustainability, MDPI, vol. 12(10), pages 1-18, May.
    • Handle: RePEc:gam:jsusta:v:12:y:2020:i:10:p:4209-:d:360965
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    References listed on IDEAS

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    1. Dandan Song & Yuanquan Cui & Dalong Ma & Xin Li & Lin Liu, 2022. "Spatial Variation of Microbial Community Structure and Its Driving Environmental Factors in Two Forest Types in Permafrost Region of Greater Xing′an Mountains," Sustainability, MDPI, vol. 14(15), pages 1-15, July.

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