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Bruce A. Hungate
Researcher at Northern Arizona University
Publications - 278
Citations - 24596
Bruce A. Hungate is an academic researcher from Northern Arizona University. The author has contributed to research in topics: Ecosystem & Soil carbon. The author has an hindex of 71, co-authored 257 publications receiving 19942 citations. Previous affiliations of Bruce A. Hungate include University of Exeter & Smithsonian Institution.
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Journal ArticleDOI
A general biodiversity–function relationship is mediated by trophic level
Mary I. O'Connor,Andrew Gonzalez,Jarrett E. K. Byrnes,Bradley J. Cardinale,J. Emmett Duffy,Lars Gamfeldt,John N. Griffin,David U. Hooper,Bruce A. Hungate,Alain Paquette,Patrick L. Thompson,Laura E. Dee,Kristin L. Dolan +12 more
TL;DR: This research highlights the need to understand more fully the role of plasticity in the marine environment and investigates its role in the response to climate change.
Journal ArticleDOI
Phylogenetic organization of bacterial activity.
Ember M. Morrissey,Rebecca L. Mau,Egbert Schwartz,J. Gregory Caporaso,Paul Dijkstra,Natasja van Gestel,Benjamin J. Koch,Cindy M. Liu,Cindy M. Liu,Cindy M. Liu,Michaela Hayer,Theresa A. McHugh,Jane C. Marks,Lance B. Price,Lance B. Price,Bruce A. Hungate +15 more
TL;DR: Advanced stable isotope probing with 13C and 18O is used to show that evolutionary history has ecological significance for in situ bacterial activity and sets the stage for characterizing the functional attributes of bacterial taxonomic groups.
Journal ArticleDOI
Labile carbon input determines the direction and magnitude of the priming effect
Xiao Jun Allen Liu,Jingran Sun,Rebecca L. Mau,B. K. Finley,Zacchaeus G. Compson,Zacchaeus G. Compson,Natasja van Gestel,Natasja van Gestel,Jamie R. Brown,Egbert Schwartz,Paul Dijkstra,Bruce A. Hungate +11 more
TL;DR: In this article, the authors observed a positive linear relationship between C input and priming in all soils and concluded that priming increased with the rate of labile C input, once that rate exceeds a threshold, but the magnitude of increase varies among soils.
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Plant Species Mediate Changes in Soil Microbial N in Response to Elevated CO2
TL;DR: The results suggest that plant species composition will partly determine the direction of changes in soil N cycling in response to elevated CO2, and that there was no trade-off in N uptake between plants and microbes.
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Accounting for risk in valuing forest carbon offsets
TL;DR: It is shown that incorporating wildfire risk reduces the value of forest carbon depending on the location and condition of the forest, a general trend of decreasing risk-scaled forest carbon value moving from the northern toward the southern continental U.S.