Roland C Wilhelm
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Explore the profile of Roland C Wilhelm including associated specialties, affiliations and a list of published articles.
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29
Citations
344
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Recent Articles
1.
Simpson A, Wood-Charlson E, Smith M, Koch B, Beilsmith K, Kimbrel J, et al.
Gigascience
. 2024 Oct;
13.
PMID: 39399973
DNA/RNA-stable isotope probing (SIP) is a powerful tool to link in situ microbial activity to sequencing data. Every SIP dataset captures distinct information about microbial community metabolism, process rates, and...
2.
Calcium promotes persistent soil organic matter by altering microbial transformation of plant litter
Shabtai I, Wilhelm R, Schweizer S, Hoschen C, Buckley D, Lehmann J
Nat Commun
. 2023 Oct;
14(1):6609.
PMID: 37857604
Calcium (Ca) can contribute to soil organic carbon (SOC) persistence by mediating physico-chemical interactions between organic compounds and minerals. Yet, Ca is also crucial for microbial adhesion, potentially affecting colonization...
3.
Mahmoudi N, Wilhelm R
Environ Microbiol
. 2023 Jul;
25(12):3011-3018.
PMID: 37431673
Climate change is an urgent environmental issue with wide-ranging impacts on ecosystems and society. Microbes are instrumental in maintaining the balance between carbon (C) accumulation and loss in the biosphere,...
4.
Wilhelm R, Amsili J, Kurtz K, van Es H, Buckley D
ISME Commun
. 2023 Apr;
3(1):35.
PMID: 37081196
No abstract available.
5.
Wilhelm R, Amsili J, Kurtz K, van Es H, Buckley D
ISME Commun
. 2023 Apr;
3(1):1.
PMID: 37081121
Soil microbiomes are sensitive to current and previous soil conditions, and bacterial 'bioindicators' of biological, physical, and chemical soil properties have considerable potential for soil health assessment. However, the lack...
6.
Wilhelm R, Munoz-Ucros J, Weikl F, Pritsch K, Goebel M, Buckley D, et al.
Sci Total Environ
. 2023 Feb;
873:162266.
PMID: 36822431
Mixed forest stands tend to be more resistant to drought than species-specific stands partially due to complementarity in root ecology and physiology. We asked whether complementary differences in the drought...
7.
Wilhelm R, DeRito C, Shapleigh J, Madsen E, Buckley D
ISME Commun
. 2023 Jan;
1(1):4.
PMID: 36717596
Plant-derived phenolic acids are catabolized by soil microorganisms whose activity may enhance the decomposition of soil organic carbon (SOC). We characterized whether phenolic acid-degrading bacteria enhance SOC mineralization in forest...
8.
Wilhelm R, Barnett S, Swenson T, Youngblut N, Koechli C, Bowen B, et al.
Appl Environ Microbiol
. 2022 Oct;
88(22):e0083922.
PMID: 36300927
Tracking the metabolic activity of whole soil communities can improve our understanding of the transformation and fate of carbon in soils. We used stable isotope metabolomics to trace C from...
9.
Sridhar B, Lawrence G, Debenport S, Fahey T, Buckley D, Wilhelm R, et al.
Environ Microbiol
. 2022 Jul;
24(12):6184-6199.
PMID: 35799501
Soil microbial community composition routinely correlates with pH, reflecting both direct pH effects on microbial physiology and long-term biogeochemical feedbacks. We used two watershed-scale liming experiments to identify short- (2 ...
10.
Sridhar B, Wilhelm R, Debenport S, Fahey T, Buckley D, Goodale C
Glob Chang Biol
. 2022 Jun;
28(18):5399-5415.
PMID: 35770362
Microbial community structure and function regularly covary with soil pH, yet effects of these interactions on soil carbon are rarely tested experimentally within natural ecosystems. We investigated the enduring (25 ...