ProfessorsProfessors of Northern Arizona UniversityBruce Hungate

Bruce Hungate

Northern Arizona University

H-index: 87

North America-United States

About Bruce Hungate

Bruce Hungate, With an exceptional h-index of 87 and a recent h-index of 66 (since 2020), a distinguished researcher at Northern Arizona University, specializes in the field of soil microbial ecology, biogeochemistry, stable isotopes, ecosystem science, global change.

His recent articles reflect a diverse array of research interests and contributions to the field:

Shifts in soil ammonia‐oxidizing community maintain the nitrogen stimulation of nitrification across climatic conditions

The path from root input to mineral-associated soil carbon is dictated by habitat-specific microbial traits and soil moisture

Reply to “Beyond microbial carbon use efficiency”

Priorities, opportunities, and challenges for integrating microorganisms into Earth system models for climate change prediction

Reply to: Model uncertainty obscures major driver of soil carbon

Nitrogen deposition affects microbial functional capacities, including carbon utilization

Effects of warming on bacterial growth rates in a peat soil under ambient and elevated CO2

A meta-evaluation of the quality of reporting and execution in ecological meta-analyses

Bruce Hungate Information

University	Northern Arizona University
Position	Regents' Professor
Citations(all)	31516
Citations(since 2020)	15535
Cited By	21298
hIndex(all)	87
hIndex(since 2020)	66
i10Index(all)	221
i10Index(since 2020)	188
Email	Access Email
University Profile Page	Northern Arizona University
Google Scholar	View Google Scholar Profile

Bruce Hungate Skills & Research Interests

soil microbial ecology

biogeochemistry

stable isotopes

ecosystem science

global change

Top articles of Bruce Hungate

Title	Journal	Author(s)	Publication Date
Shifts in soil ammonia‐oxidizing community maintain the nitrogen stimulation of nitrification across climatic conditions	Global Change Biology	Yong Zhang Xiaoli Cheng Kees Jan van Groenigen Pablo García‐Palacios Junji Cao ...	2024
The path from root input to mineral-associated soil carbon is dictated by habitat-specific microbial traits and soil moisture	Soil Biology and Biochemistry	Noah W Sokol Megan M Foley Steven J Blazewicz Amrita Bhattacharyya Nicole DiDonato ...	2024/6/1
Reply to “Beyond microbial carbon use efficiency”	National Science Review	Feng Tao Johannes Lehmann Ying-Ping Wang Lifen Jiang Bernhard Ahrens ...	2024/4
Priorities, opportunities, and challenges for integrating microorganisms into Earth system models for climate change prediction		Jay T Lennon RZ Abramoff SD Allison Rachel M Burckhardt KM DeAngelis ...	2024/3/25
Reply to: Model uncertainty obscures major driver of soil carbon	Nature	Feng Tao Benjamin Z Houlton Serita D Frey Johannes Lehmann Stefano Manzoni ...	2024/3/7
Nitrogen deposition affects microbial functional capacities, including carbon utilization		Xingyu Ma Tengxu Wang Zhou Shi Nona R Chiariello Kathryn Docherty ...	2023/4/14
Effects of warming on bacterial growth rates in a peat soil under ambient and elevated CO2	Soil Biology and Biochemistry	Sheryl L Bell Amy E Zimmerman Bram W Stone Christine H Chang Madison Blumer ...	2023/3/1
A meta-evaluation of the quality of reporting and execution in ecological meta-analyses	PLOS ONE	Paula Pappalardo Chao Song Bruce A. Hungate Craig W. Osenberg	2023
Hyperactive nanobacteria with host-dependent traits pervade Omnitrophota	Nature microbiology	Cale O Seymour Marike Palmer Eric D Becraft Ramunas Stepanauskas Ariel D Friel ...	2023/4
Edaphic controls on genome size and GC content of bacteria in soil microbial communities	Soil Biology and Biochemistry	Peter F Chuckran Cody Flagg Jeffrey Propster William A Rutherford Ella T Sieradzki ...	2023/3/1
Microbial growth under drought is confined to distinct taxa and modified by potential future climate conditions	Nature Communications	Dennis Metze Jörg Schnecker Alberto Canarini Lucia Fuchslueger Benjamin J Koch ...	2023/9/22
Rapid growth rate responses of terrestrial bacteria to field warming on the Antarctic Peninsula	The ISME Journal	Alicia M Purcell Paul Dijkstra Bruce A Hungate Kelly McMillen Egbert Schwartz ...	2023/12
Carbon acquisition ecological strategies to connect soil microbial biodiversity and carbon cycling	Soil Biology and Biochemistry	Ember M Morrissey Jennifer Kane Binu M Tripathi Md Shafiul Islam Rion Bruce A Hungate ...	2023/2/1
Life history strategies among soil bacteria—dichotomy for few, continuum for many	The ISME Journal	Bram WG Stone Paul Dijkstra Brianna K Finley Raina Fitzpatrick Megan M Foley ...	2023/4
Long‐term elevated precipitation induces grassland soil carbon loss via microbe‐plant–soil interplay	Global change biology	Mengmeng Wang Xin Sun Baichuan Cao Nona R Chiariello Kathryn M Docherty ...	2023/9
The predictive power of phylogeny on growth rates in soil bacterial communities	ISME communications	Jeth Walkup Chansotheary Dang Rebecca L Mau Michaela Hayer Egbert Schwartz ...	2023/12
Active populations and growth of soil microorganisms are framed by mean annual precipitation in three California annual grasslands	Soil Biology and Biochemistry	Megan M Foley Steven J Blazewicz Karis J McFarlane Alex Greenlon Michaela Hayer ...	2023/2/1
Microbial carbon use efficiency promotes global soil carbon storage	Nature	Feng Tao Yuanyuan Huang Bruce A Hungate Stefano Manzoni Serita D Frey ...	2023/6/29
Distinct growth responses of tundra soil bacteria to short-term and long-term warming	Applied and Environmental Microbiology	Jeffrey R Propster Egbert Schwartz Michaela Hayer Samantha Miller Victoria Monsaint-Queeney ...	2023/3/29
Resource partitioning and amino acid assimilation in a terrestrial geothermal spring	The ISME Journal	Dengxun Lai Brian P Hedlund Rebecca L Mau Jian-Yu Jiao Junhui Li ...	2023/11