Fungal communities from geothermal soils in Yellowstone National Park

Geothermal soils offer unique insight into the way extreme environmental factors shape communities of organisms. However, little is known about the fungi growing in these environments and in particular how localized steep abiotic gradients affect fungal diversity. We used metabarcoding to characterize soil fungi surrounding a hot spring-fed thermal creek with water up to ~85 C and pH ~10 in Yellowstone National Park. No soil variable we measured determined fungal community composition. However, soils with pH >8 had lower fungal richness and different fungal assemblages when compared to less extreme soils. Saprotrophic fungi community profile followed more closely overall community patterns while ectomycorrhizal fungi did not, highlighting potential differences in the factors that structure these different fungal trophic guilds. In addition, in vitro growth experiments in four target fungal species revealed a wide range of tolerances to pH levels but not to heat. Overall, our results documenting fungal communities within a few hundred meters suggest stronger statistical power and wider sampling are needed to untangle so many co-varying environmental factors affecting such diverse species communities.

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GEOSTATISTICAL CHARACTERIZATION OF FLUID PATHWAY CONNECTION IN HOT SPRING CLUSTERS IN THE LOWER GEYSER BASIN, YELLOWSTONE NATIONAL PARK, WYOMING

10.1130/abs/2016rm-276205 ◽

2016 ◽

Author(s):

Cary R. Lindsey ◽

◽

Megan M. Aunan ◽

Jerry P. Fairley ◽

Peter B. Larson

Keyword(s):

Yellowstone National Park ◽

National Park ◽

Hot Spring ◽

Fluid Pathway

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Pyrobaculum yellowstonensis Strain WP30 Respires on Elemental Sulfur and/or Arsenate in Circumneutral Sulfidic Geothermal Sediments of Yellowstone National Park

Applied and Environmental Microbiology ◽

10.1128/aem.01095-15 ◽

2015 ◽

Vol 81 (17) ◽

pp. 5907-5916 ◽

Cited By ~ 13

Author(s):

Z. J. Jay ◽

J. P. Beam ◽

A. Dohnalkova ◽

R. Lohmayer ◽

B. Bodle ◽

...

Keyword(s):

Yellowstone National Park ◽

National Park ◽

Elemental Sulfur ◽

De Novo ◽

Hot Spring ◽

Content Type ◽

Physiological Attributes ◽

And Function ◽

Metagenome Sequence

ABSTRACTThermoproteales(phylumCrenarchaeota) populations are abundant in high-temperature (>70°C) environments of Yellowstone National Park (YNP) and are important in mediating the biogeochemical cycles of sulfur, arsenic, and carbon. The objectives of this study were to determine the specific physiological attributes of the isolatePyrobaculum yellowstonensisstrain WP30, which was obtained from an elemental sulfur sediment (Joseph's Coat Hot Spring [JCHS], 80°C, pH 6.1, 135 μM As) and relate this organism to geochemical processes occurringin situ. Strain WP30 is a chemoorganoheterotroph and requires elemental sulfur and/or arsenate as an electron acceptor. Growth in the presence of elemental sulfur and arsenate resulted in the formation of thioarsenates and polysulfides. The complete genome of this organism was sequenced (1.99 Mb, 58% G+C content), revealing numerous metabolic pathways for the degradation of carbohydrates, amino acids, and lipids. Multiple dimethyl sulfoxide-molybdopterin (DMSO-MPT) oxidoreductase genes, which are implicated in the reduction of sulfur and arsenic, were identified. Pathways for thede novosynthesis of nearly all required cofactors and metabolites were identified. The comparative genomics ofP. yellowstonensisand the assembled metagenome sequence from JCHS showed that this organism is highly related (∼95% average nucleotide sequence identity) toin situpopulations. The physiological attributes and metabolic capabilities ofP. yellowstonensisprovide an important foundation for developing an understanding of the distribution and function of these populations in YNP.

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Temporal and Seasonal Variations of the Hot Spring Basin Hydrothermal System, Yellowstone National Park, USA

Remote Sensing ◽

10.3390/rs5126587 ◽

2013 ◽

Vol 5 (12) ◽

pp. 6587-6610 ◽

Cited By ~ 3

Author(s):

Cheryl Jaworowski ◽

Henry Heasler ◽

Christopher Neale ◽

Sivarajan Saravanan ◽

Ashish Masih

Keyword(s):

Seasonal Variations ◽

Hydrothermal System ◽

Yellowstone National Park ◽

National Park ◽

Hot Spring

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Whole-Genome Sequence of a Unique Elioraea Species Strain Isolated from a Yellowstone National Park Hot Spring

Microbiology Resource Announcements ◽

10.1128/mra.00907-19 ◽

2019 ◽

Vol 8 (44) ◽

Author(s):

Sydney Robertson ◽

Robert F. Ramaley ◽

Terry Meyer ◽

John A. Kyndt

Keyword(s):

New Species ◽

Genome Sequence ◽

Yellowstone National Park ◽

National Park ◽

Photosynthetic Bacteria ◽

Hot Spring ◽

Whole Genome Sequence ◽

Whole Genome ◽

Anoxygenic Photosynthetic Bacteria

The genus Elioraea has only one species characterized microbiologically and two genomes sequenced. We have sequenced the genome of a unique Elioraea strain isolated from Yellowstone National Park and found it to be a distinct new species. Elioraea is suggested to be a member of the aerobic anoxygenic photosynthetic bacteria.

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Characteristics of Pocket Gopher Populations in Relation to Selected Environmental Factors in Pelican Valley, Yellowstone National Park

The UW National Parks Service Research Station Annual Reports ◽

10.13001/uwnpsrc.1979.2179 ◽

1979 ◽

Vol 3 ◽

pp. 133-137

Author(s):

C. Youmans ◽

R. Moore

Keyword(s):

Environmental Factors ◽

Yellowstone National Park ◽

National Park ◽

Ursus Arctos ◽

Water Levels ◽

Specific Information ◽

Pocket Gopher ◽

Pocket Gophers ◽

Thomomys Talpoides ◽

Ursus Arctos Horribilis

Several important environmental factors which affect the dynamics of pocket gopher populations have been identified: water content at peak snowpack and depth of snow in spring (Hansen and Ward, 1966; Reid, 1973); weather and Its influence on annual food supplies and cover (Howard and Childs, 1959); production of annual and perennial forbs (Keith et al., 1959; Tietjen et al., 1967); and ground water levels and snow depths (Ingles, 1949; Hansen, 1962). A need for specific information on pocket gophers in Pelican Valley, Yellowstone National Park arose from interest in interactions between grizzly bears (Ursus arctos horribilis) and northern pocket gophers (Thomomys talpoides). Mealey (1975) and Graham (1978) suggested that pocket gophers and their caches may serve as seasonally important food items for grizzlies in Yellowstone National Park.

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