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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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Global warming and shifts in cropping systems together reduce China's rice production
Changqing Chen,Kees Jan van Groenigen,Huiyi Yang,Bruce A. Hungate,Bing Yang,Yunlu Tian,Jin Chen,Wenjun Dong,Shan Huang,Aixing Deng,Yu Jiang,Weijian Zhang +11 more
TL;DR: In this article, a meta-analysis of field warming experiments was conducted to show that yield responses to global warming differ strongly between China's rice cropping systems, and that the contribution of these systems to China's total rice production has shifted dramatically over recent decades.
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Characterization of manganese-oxidizing (MnII→MnIV) bacteria from Negev Desert rock varnish: implications in desert varnish formation
TL;DR: The high percentage of manganese-oxidizing bacteria to total cultivable bacteria from the Negev suggests that they are involved in desert varnish formation.
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Retraction Note to: CO2 effects on plant nutrient concentration depend on plant functional group and available nitrogen: a meta-analysis
TL;DR: It is found that elevated CO2 impacts plant nutrient status differently among the nutrient elements, plant functional groups, and among plant tissues, and that differences between plant groups and plant organs, N status, and differences in nutrient chemistry in soils preclude a universal hypothesis.
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High carbon use efficiency in soil microbial communities is related to balanced growth, not storage compound synthesis
Paul Dijkstra,Elena Salpas,D. Fairbanks,Erin Miller,Shannon B. Hagerty,Kees Jan van Groenigen,Bruce A. Hungate,Jane C. Marks,George W. Koch,Egbert Schwartz +9 more
TL;DR: The hypothesis of high CUE in undisturbed soil microbial communities remains viable and worthy of further testing, and the amount of glucose added in this study is too low and the duration of the experiment too short to affect microbial metabolism.
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Increased plant uptake of native soil nitrogen following fertilizer addition – not a priming effect?
Xiao Jun Allen Liu,Xiao Jun Allen Liu,Kees Jan van Groenigen,Kees Jan van Groenigen,Paul Dijkstra,Bruce A. Hungate +5 more
TL;DR: In this paper, the effect of fertilizer addition on mineralization (in the absence of plants) and plant uptake of native soil N was evaluated. But the underlying mechanisms remain elusive, and the effects of fertilizer inputs on plant uptake are unknown.