4.5 Article

Nematode communities indicate diverse soil functioning across a fog gradient in the Namib Desert gravel plains

Journal

ECOLOGY AND EVOLUTION
Volume 12, Issue 6, Pages -

Publisher

WILEY
DOI: 10.1002/ece3.9013

Keywords

anhydrobiosis; biological soil crusts; desert soil; fog; nematode diversity; soil biodiversity

Funding

  1. Fulbright Association
  2. University of Richmond School of Arts Sciences

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Soil nematodes in the Namib Desert gravel plains can utilize fog moisture to survive and can emerge from an anhydrobiotic state during fog events. The presence of biological soil crusts in interplant soils may sustain nematode communities. Variation in fog frequency and soil organic matter does not appear to impact nematode abundance.
Soil nematodes are fundamentally aquatic animals, requiring water to move, feed, and reproduce. Nonetheless, they are ubiquitous in desert soils because they can enter an anhydrobiotic state that allows them to persist when water is biologically unavailable. In the hyper-arid Namib Desert of Namibia, rain is rare, but fog routinely moves inland from the coast and supports plant and animal life. Very little is understood about how this fog may affect soil organisms. We investigated the role of fog moisture in the ecology of free-living, soil nematodes across an 87-km fog gradient in the gravel plains of the Namib Desert. We found that nematodes emerged from anhydrobiosis and became active during a fog event, suggesting that they can utilize fog moisture to survive. Nematode abundance did not differ significantly across the fog gradient and was similar under shrubs and in interplant spaces. Interplant soils harbor biological soil crusts that may sustain nematode communities. As fog declined along the gradient, nematode diversity increased in interplant soils. In areas where fog is rare, sporadic rainfall events can stimulate the germination and growth of desert ephemerals that may have a lasting effect on nematode diversity. In a 30-day incubation experiment, nematode abundance increased when soils were amended with water and organic matter. However, these responses were not evident in field samples, which show no correlations among nematode abundance, location in the fog gradient, and soil organic matter content. Soil nematodes are found throughout the Namib Desert gravel plains under a variety of conditions. Although shown to be moisture- and organic matter-limited and able to use moisture from the fog for activity, variation in fog frequency and soil organic matter across this unique ecosystem may be biologically irrelevant to soil nematodes in situ.

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