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Matthias C Rillig

Explore the profile of Matthias C Rillig including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 286
Citations 5995
Followers 0
Related Specialties
Biology
Environmental Health
Microbiology
Top 10 Co-Authors
Anika Lehmann
Stavros D Veresoglou
Stefan Hempel
Masahiro Ryo
Julien Roy
Yong-Guan Zhu
Carlos A Aguilar-Trigueros
Fernando T Maestre
Tessa Camenzind
Tancredi Caruso
Published In
New Phytol
Environ Sci Technol
Glob Chang Biol
Nat Commun
Front Microbiol
Affiliations
Soon will be listed here.
Recent Articles
1.
A global estimate of multiecosystem photosynthesis losses under microplastic pollution
Zhu R, Zhang Z, Zhang N, Zhong H, Zhou F, Zhang X, et al.
Proc Natl Acad Sci U S A . 2025 Mar; 122(11):e2423957122. PMID: 40063820
Understanding how ecosystems respond to ubiquitous microplastic (MP) pollution is crucial for ensuring global food security. Here, we conduct a multiecosystem meta-analysis of 3,286 data points and reveal that MP...
2.
Ten simple rules for fostering creativity in research labs
Rillig M
PLoS Comput Biol . 2025 Feb; 21(2):e1012788. PMID: 39951462
Research lab groups are hotspots for the education of the next generation of scientists, and making these units work as creatively as possible is essential for solving pressing issues in...
3.
Hormesis as a Hidden Hand in Global Environmental Change?
Rillig M, Lehmann A, Bi M
Environ Sci Technol . 2025 Feb; 59(6):2887-2890. PMID: 39905903
No abstract available.
4.
Concurrent common fungal networks formed by different guilds of fungi
Rillig M, Lehmann A, Mounts I, Bock B
New Phytol . 2025 Jan; 246(1):33-38. PMID: 39834013
No abstract available.
5.
Correction: Increased methane production associated with community shifts towards Methanocella in paddy soils with the presence of nanoplastics
He Z, Hou Y, Li Y, Bei Q, Li X, Zhu Y, et al.
Microbiome . 2025 Jan; 13(1):7. PMID: 39799361
No abstract available.
6.
Increasing pesticide diversity impairs soil microbial functions
Ni B, Xiao L, Lin D, Zhang T, Zhang Q, Liu Y, et al.
Proc Natl Acad Sci U S A . 2025 Jan; 122(2):e2419917122. PMID: 39786931
Pesticide application is essential for stabilizing agricultural production. However, the effects of increasing pesticide diversity on soil microbial functions remain unclear, particularly under varying nitrogen (N) fertilizer management practices. In...
7.
Microplastics Generate Less Mineral Protection of Soil Carbon and More CO Emissions
Shi J, Tanentzap A, Sun Y, Wang J, Xing B, Rillig M, et al.
Adv Sci (Weinh) . 2024 Dec; 12(7):e2409585. PMID: 39739674
Microplastic pollution in terrestrial ecosystems threatens to destabilize large soil carbon stocks that help to mitigate climate change. Carbon-based substrates can release from microplastics and contribute to terrestrial carbon pools,...
8.
Tire Wear Particles Exposure Enhances Denitrification in Soil by Enriching Labile DOM and Shaping the Microbial Community
Wei Z, Ma X, Chai Y, Senbayram M, Wang X, Wu M, et al.
Environ Sci Technol . 2024 Dec; 59(2):1209-1221. PMID: 39725382
Tire wear particles (TWP) are emerging contaminants in the soil environment due to their widespread occurrence and potential threat to soil health. However, their impacts on soil biogeochemical processes remain...
9.
Increased methane production associated with community shifts towards Methanocella in paddy soils with the presence of nanoplastics
He Z, Hou Y, Li Y, Bei Q, Li X, Zhu Y, et al.
Microbiome . 2024 Dec; 12(1):259. PMID: 39707478
Background: Planetary plastic pollution poses a major threat to ecosystems and human health in the Anthropocene, yet its impact on biogeochemical cycling remains poorly understood. Waterlogged rice paddies are globally...
10.
Corrigendum to "Atmospheric microplastic input into wetlands: Spatiotemporal patterns, drivers, and unique ecological impacts" [Water Research, 268 (2025): 122601]
Xu L, Tian X, Bai X, Li K, Zhang G, Zhang M, et al.
Water Res . 2024 Dec; 271():122862. PMID: 39647308
No abstract available.