Kazuo Isobe
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Explore the profile of Kazuo Isobe including associated specialties, affiliations and a list of published articles.
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31
Citations
500
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Recent Articles
1.
Wang H, Wang H, Crowther T, Isobe K, Reich P, Tateno R, et al.
ISME Commun
. 2024 Nov;
4(1):ycae128.
PMID: 39507397
There is growing awareness of the need for regenerative practices in the fight against biodiversity loss and climate change. Yet, we lack a mechanistic understanding of how microbial community composition...
2.
Rodriguez C, Isobe K, Martiny J
mSystems
. 2024 May;
9(6):e0013324.
PMID: 38742890
Importance: Our study is an example of the power of synthesizing and reanalyzing 16S rRNA microbiome data from many intervention studies. Despite high inter-individual variation of the composition of the...
3.
Rodriguez C, Isobe K, Martiny J
Res Sq
. 2023 Sep;
PMID: 37674721
Background: The composition of the human gut microbiome varies tremendously among individuals, making the effects of dietary or treatment interventions difficult to detect and characterize. The consumption of fiber is...
4.
Taniguchi T, Isobe K, Imada S, Eltayeb M, Akaji Y, Nakayama M, et al.
Sci Total Environ
. 2023 Jul;
899:165524.
PMID: 37467971
Dryland ecosystems experience seasonal cycles of severe drought and moderate precipitation. Desert plants may develop symbiotic relationships with root endophytic microbes to survive under the repeated wet and extremely dry...
5.
Enright D, Frangioso K, Isobe K, Rizzo D, Glassman S
Mol Ecol
. 2022 Feb;
31(8):2475-2493.
PMID: 35152495
Mega-fires of unprecedented size, intensity and socio-economic impacts have surged globally due to climate change, fire suppression and development. Soil microbiomes are critical for post-fire plant regeneration and nutrient cycling,...
6.
Wei W, Isobe K, Shiratori Y, Yano M, Toyoda S, Koba K, et al.
Environ Pollut
. 2021 Jun;
287:117494.
PMID: 34182387
Nitrous oxide (NO), an ozone-depleting greenhouse gas, is generally produced by soil microbes, particularly NH oxidizers and denitrifiers, and emitted in large quantities after N fertilizer application in croplands. NO...
7.
Shen H, Shiratori Y, Ohta S, Masuda Y, Isobe K, Senoo K
ISME J
. 2021 Mar;
15(8):2427-2439.
PMID: 33664432
Nitrous oxide (NO) is an important greenhouse gas and an ozone-depleting substance. Due to the long persistence of NO in the atmosphere, the mitigation of anthropogenic NO emissions, which are...
8.
Nojiri Y, Kaneko Y, Azegami Y, Shiratori Y, Ohte N, Senoo K, et al.
Microbes Environ
. 2020 Oct;
35(4).
PMID: 33028782
Nitrification-denitrification processes in the nitrogen cycle have been extensively examined in rice paddy soils. Nitrate is generally depleted in the reduced soil layer below the thin oxidized layer at the...
9.
Isobe K, Bouskill N, Brodie E, Sudderth E, Martiny J
Philos Trans R Soc Lond B Biol Sci
. 2020 Mar;
375(1798):20190242.
PMID: 32200749
Soil bacterial communities are altered by anthropogenic drivers such as climate change-related warming and fertilization. However, we lack a predictive understanding of how bacterial communities respond to such global changes....
10.
Fujimura R, Azegami Y, Wei W, Kakuta H, Shiratori Y, Ohte N, et al.
Microbes Environ
. 2020 Jan;
35(1).
PMID: 31996500
Recent studies demonstrated that phylogenetically more diverse and abundant bacteria and fungi than previously considered are responsible for denitrification in terrestrial environments. We herein examined the effects of land-use types...