TY - JOUR
T1 - Ride the dust
T2 - linking dust dispersal and spatial distribution of microorganisms across an arid landscape
AU - Schiro, Gabriele
AU - Chen, Yongjian
AU - Blankinship, Joseph C.
AU - Barberán, Albert
N1 - Funding Information: We thank Samuel J. Rathke for help in soil chemical analyses, Adalee Martinez for fieldwork assistance and members of the Barberán lab for providing constructive comments on this manuscript. An allocation of computer resources from the UA Research High‐Performance Computing (HPC) is gratefully acknowledged. This research was partially funded by the British Ecological Society (BES) Small Research (SR20/1161) grant. Funding Information: We thank Samuel J. Rathke for help in soil chemical analyses, Adalee Martinez for fieldwork assistance and members of the Barberán lab for providing constructive comments on this manuscript. An allocation of computer resources from the UA Research High-Performance Computing (HPC) is gratefully acknowledged. This research was partially funded by the British Ecological Society (BES) Small Research (SR20/1161) grant. Publisher Copyright: © 2022 Society for Applied Microbiology and John Wiley & Sons Ltd.
PY - 2022/9
Y1 - 2022/9
N2 - 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.
AB - 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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U2 - https://doi.org/10.1111/1462-2920.15998
DO - https://doi.org/10.1111/1462-2920.15998
M3 - Article
C2 - 35384241
SN - 1462-2912
VL - 24
SP - 4094
EP - 4107
JO - Environmental microbiology
JF - Environmental microbiology
IS - 9
ER -