Surface Stability in Drylands Is Influenced by Dispersal Strategy of Soil Bacteria

Elliott, David R.; Thomas, Andrew D.; Strong, Craig; Bullard, Joanna E.

doi:10.1029/2018jg004932

Cited by 16 publications

(14 citation statements)

References 57 publications

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“…Their greater abundance in dust might suggest an association between the potential for dust dispersal and shifts along the copiotroph/oligotroph continuum, as previously suggested by Elliott et al . (2019). For Fungi, we observed an increase in Dothideomycetes and a decrease in Sordariomycetes with decreasing particle size (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…3C). These genera have been reported as members of fugitive dust (Elliott et al ., 2019), members of dust and airborne communities worldwide (Weon et al ., 2008; Fahlgren et al ., 2011; Favet et al ., 2013; Itani and Smith, 2016; Behzad et al ., 2018; Marizcurrena et al ., 2019), and associated with stress resistance (Denner et al ., 2006; Marizcurrena et al ., 2019; Li et al ., 2020a). ASVs related to Rubellimicrobium , as well as members of genera like Blastococcus and Geodermatophilus , were found differentially more abundant also in all dust sampling types (WT and LP) compared to soil (Fig.…”

Section: Resultsmentioning

confidence: 99%

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Ride the dust: linking dust dispersal and spatial distribution of microorganisms across an arid landscape

Schiro

Chen

Blankinship

et al. 2022

Environmental Microbiology

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Summary In arid ecosystems, where the soil is directly exposed to the action of the wind due to sparse vegetation, dust aerosolization is a consequence of soil degradation and concomitantly, a major vector of microbial dispersal. Disturbances such as livestock grazing or fire can exacerbate wind erosion and dust production. Here, we sampled surface soils in 29 locations across an arid landscape in southwestern USA and characterized their prokaryotic and fungal communities. At four of these locations, we also sampled potential fugitive dust. By comparing the composition of soil and dust samples, we determined the role of dust dispersal in structuring the biogeography of soil microorganisms across the landscape. For Bacteria/Archaea, we found dust associated taxa to have on average, higher regional occupancies compared to soil associated taxa. Complementarily, we found dust samples to harbour a higher amount of widely distributed taxa compared to soil samples. Overall, our study shows how dust dispersal plays a role in the spatial distribution of soil Bacteria/Archaea, but not soil Fungi, and might inform indicators of soil health and stability in arid ecosystems.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Ride the dust: linking dust dispersal and spatial distribution of microorganisms across an arid landscape

Schiro

Chen

Blankinship

et al. 2022

Environmental Microbiology

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“…Dispersal routes include aerial movement from wind and rain ( Bottos et al, 2014 ) or active movement through the soil matrix ( Yang and van Elsas, 2018 ), with both likely happening in our system. Microbial cells can be transported via wind-blown dust at local and regional scales, with distance traveled dependent on wind direction, speed, and soil type ( Sabacká et al, 2012 ; Acosta-Martínez et al, 2015 ; Elliott et al, 2019 ). The Great Plains are persistently windy, so it would not be unexpected for aeolian deposition to move microbes around the landscape.…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, as large herbivores like bison move around the landscape, they may serve as vectors to disperse microbial cells via dung deposition. Concurrently, dispersal of microbial cells via aerial deposition and through water films in soil pores is also likely ( Finlay and Clarke, 1999 ; Bottos et al, 2014 ; Yang and van Elsas, 2018 ; Elliott et al, 2019 ), and fire and grazing could influence how readily airborne cells reach the soil, since both create bare soil patches open to aerial inputs ( Bakker et al, 2003 ; Henry et al, 2006 ). Further, fire can promote aerial dispersal of microbes, by aerosolizing viable soil microbial cells and spores ( Kobziar et al, 2018 ; Moore et al, 2020 ).…”

Section: Introductionmentioning

confidence: 99%

Microbial Dispersal, Including Bison Dung Vectored Dispersal, Increases Soil Microbial Diversity in a Grassland Ecosystem

Hawkins

Zeglin

2022

Front. Microbiol.

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Microbial communities display biogeographical patterns that are driven by local environmental conditions and dispersal limitation, but the relative importance of underlying dispersal mechanisms and their consequences on community structure are not well described. High dispersal rates can cause soil microbial communities to become more homogenous across space and therefore it is important to identify factors that promote dispersal. This study experimentally manipulated microbial dispersal within different land management treatments at a native tallgrass prairie site, by changing the relative openness of soil to dispersal and by simulating vector dispersal via bison dung addition. We deployed experimental soil bags with mesh open or closed to dispersal, and placed bison dung over a subset of these bags, to areas with three different land managements: active bison grazing and annual fire, annual fire but no bison grazing, and no bison grazing with infrequent fire. We expected microbial dispersal to be highest in grazed and burned environments, and that the addition of dung would consistently increase overall microbial richness and lead to homogenization of communities over time. Results show that dispersal rates, as the accumulation of taxa over the course of the 3-month experiment, increase taxonomic richness similarly in all land management treatments. Additionally, bison dung seems to be serving as a dispersal and homogenization vector, based on the consistently higher taxon richness and increased community similarity across contrasting grazing and fire treatments when dung is added. This finding also points to microbial dispersal as an important function that herbivores perform in grassland ecosystems, and in turn, as a function that was lost at a continental scale following bison extermination across the Great Plains of North America in the nineteenth century. This study is the first to detect that dispersal and vector dispersal by grazing mammals promote grassland soil microbial diversity and affect microbial community composition.

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“…Various ecological studies on the development and ecosystem functioning of BSCs have been conducted during the last three decades (Belnap and Lange, 2003;Breckle et al, 2008;Weber et al, 2016). The nexus of science related to BSCs and aerobiology strongly suggests that BSCs can become established or re-established via naturally occurring processes (Condon et al, 2020), as BSC propagules are found naturally in the atmosphere (Elliott et al, 2019), and can be transported very long distances between hemispheres, continents, and climates (Warren et al, 2019). Even after drastic disturbances, like fires, the relatively fast recovery of microorganisms can be observed (Dümig et al, 2014;Aanderud et al;Chamizo et al, 2020).…”

Section: Editorial On the Research Topic Ecological Development And Functioning Of Biological Soil Crusts After Natural And Human Disturbmentioning

confidence: 99%

Editorial: Ecological Development and Functioning of Biological Soil Crusts After Natural and Human Disturbances

et al. 2021

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Surface Stability in Drylands Is Influenced by Dispersal Strategy of Soil Bacteria

Cited by 16 publications

References 57 publications

Ride the dust: linking dust dispersal and spatial distribution of microorganisms across an arid landscape

Ride the dust: linking dust dispersal and spatial distribution of microorganisms across an arid landscape

Microbial Dispersal, Including Bison Dung Vectored Dispersal, Increases Soil Microbial Diversity in a Grassland Ecosystem

Editorial: Ecological Development and Functioning of Biological Soil Crusts After Natural and Human Disturbances

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