Investigating a microbial approach to water conservation: Effects of Bacillus subtilis and Surfactin on evaporation dynamics in loam and sandy loam soils

Gutierrez, Moises M.; Cameron-Harp, Micah V.; Chakraborty, Partha Pratim; Stallbaumer-Cyr, Emily M.; Morrow, Jordan A.; Hansen, Ryan R.; Derby, Melanie M.

doi:10.3389/fsufs.2022.959591

Cited by 2 publications

References 70 publications

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Linking microbial community structure with function using amplicon sequencing of NRPS genes associated with wheat roots under drought stress

Guan,

Berne,

Hennessy

et al. 2024

Preprint

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Secondary metabolites are bioactive compounds, diverse in structure with versatile ecological functions including key roles in mediating interactions between microorganisms and plants. Importantly, these compounds can promote the colonization of plant surfaces, such as roots, or modulate root exudates to enhance microbial recruitment and establishment. However, owing to the vast diversity of secondary metabolites, their importance in plant root colonization and in particular under stress conditions such as drought, remains unclear. To determine the involvement in root colonization of some of these secondary metabolites, we used amplicon sequencing targeting the adenylation domain of the NRPSs and the 16S rRNA gene from the rhizoplane of wheat grown in soil under normal and drought stress conditions. Results showed that drought transiently affected the bacterial community composition and the NRPS composition in the rhizoplane. We observed that drought selected for distinct groups of siderophores from different taxonomical groups, enriching for Streptomyces and depleting Pseudomonas siderophores. In addition, drought enriched Pseudomonas-derived NRPS genes encoding viscosin, a cyclic lipopeptide with biosurfactant properties, indicating that compounds linked to motility and colonization provide a competitive advantage during rhizoplane colonization under drought stress condition. This observation was experimentally confirmed using the viscosin producing P. fluorescens SBW25 and its viscosin-deficient mutant. A higher abundance of SBW25 colonized the roots under drought stress conditions compared to the viscosin-deficient mutant. In summary, our work demonstrates the potential for amplicon sequencing of NRPS genes coupled with in planta experiments to elucidate the importance of secondary metabolites in root colonization.

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Linking microbial community structure with function using amplicon sequencing of NRPS genes associated with wheat roots under drought stress

Guan,

Berne,

Hennessy

et al. 2024

Preprint

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The effects of Surfactin on sprayed droplets in flat fan, full cone, and low energy precision application bubbler nozzles: droplet formation and spray breakup

Stallbaumer-Cyr,

Aguilar,

Betz

et al. 2024

Front. Mech. Eng.

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Introduction: Agriculture is the largest user of water globally (i.e., 70% of freshwater use) and within the United States (i.e., 42% of freshwater use); irrigation ensures crops receive adequate water, thereby increasing crop yields. Surfactants have been used in various agricultural spray products to increase spray stability and alter droplet sizes.Methods: The effects of the addition of surfactant (0.1 wt% Surfactin; surface tension of 29.2 mN/m) to distilled water (72.79 mN/m) on spray dynamics and droplet formation were investigated in four flat fan (206.8–413.7 kPa), one full cone (137.9–413.7 kPa), and three LEPA bubbler (41.4–103.4 kPa) nozzles via imaging.Results and discussion: The flat fan and cone nozzles experienced second wind-induced breakup (i.e., unstable wavelengths drive breakup) of the liquid sheets exiting the nozzle; the addition of surfactant resulted in an increased breakup length and a decreased droplet size. The fan nozzles volumetric median droplet diameter decreased with the addition of surfactant (e.g., decreased by 26.3–65.6 μm in one nozzle). The full cone nozzle volumetric median droplet diameter decreased initially with the addition of surfactant (27.8, 14.3, and 13.4 μm at 137.9, 206.8, and 310.3 kPa respectively), but increased at 413.7 kPa (24.3 μm). Sprays from the bubbler nozzles were measured and observed to experience Rayleigh (i.e., the droplets form via capillary pinching at the end of the jet) and first wind-induced breakup (i.e., air impacts breakup along with capillary pinching). The effect of Surfactin on droplet size was minimal for the 41.4 kPa bubbler nozzle. The addition of surfactant increased the diameter of the jet or ligament formed from the bubbler plate, thereby increasing the breakup length and the droplet size at 68.9 and 103.4 kPa (droplet size increased by 750.6 and 4,462.7 μm, respectively).

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Investigating a microbial approach to water conservation: Effects of Bacillus subtilis and Surfactin on evaporation dynamics in loam and sandy loam soils

Cited by 2 publications

References 70 publications

Linking microbial community structure with function using amplicon sequencing of NRPS genes associated with wheat roots under drought stress

Linking microbial community structure with function using amplicon sequencing of NRPS genes associated with wheat roots under drought stress

The effects of Surfactin on sprayed droplets in flat fan, full cone, and low energy precision application bubbler nozzles: droplet formation and spray breakup

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