Biocide-containing facades alter culture-based bacterial and fungal community composition and resistance patterns to Octylisothiazolinone
Ciok, Michal; Diener, Julia; Otte, Franziska; Nichterlein, Moritz; Kalkhof, Stefan; Noll, Matthias (2025)
Ciok, Michal; Diener, Julia; Otte, Franziska; Nichterlein, Moritz; Kalkhof, Stefan...
MDPI Microorganisms 2025 (13), 2284.
DOI: 10.3390/microorganisms13102284
Open Access Peer Reviewed
The enrichment of nitrogen-fixing bacteria on biodegradable plastics during the early stage of degradation under agricultural soil conditions and changing climate.
Tanunchai, Benjawan; Nonthijun, Parada; Schädler , M.; Disayathanoowat, Terd; Noll, Matthias (2025)
Tanunchai, Benjawan; Nonthijun, Parada; Schädler , M.; Disayathanoowat, Terd...
Journal of Hazardous Materials Advances 2025 (vgaf156).
DOI: 10.1016/j.hazadv.2025.100793
Peer Reviewed
To address the issue of plastic pollution, biodegradable plastics have been developed as an alternative to conventional
non-biodegradable plastics. Nitrogen(N)-fixing bacteria have been shown to play a pivotal role in the
microbial degradation of biodegradable plastics. However, little is known about how N-fixing bacteria respond to
plastic degradation in agricultural practice. Therefore, this study aimed to (i) provide insights into the N-fixing
bacteria associated with biodegradable plastics during the early stage of degradation (after 60 days of exposure),
and (ii) examine the impact of agricultural practices and climate simulations on the enrichment of N-fixing
bacteria across various plastic types: poly(butylene succinate) (PBS), polybutylene adipate terephthalate (PBAT),
and polyethylene (PE) as a reference. Our findings revealed that N-fixing bacterial genera, particularly Sphingomonas,
Hymenobacter, Massilia, and Methylobacterium-Methylorubrum, outcompete other N-fixing bacteria in the
plastisphere at the early degradation stage, while they are almost absent in the initial soils. These bacterial
groups have been previously linked to plastic degradation and the production of plastic-degrading enzymes.
Moreover, our results indicate that agricultural practices and climate conditions did not significantly affect the
enrichment of N-fixing bacteria. Instead, this study explored the enrichment of these bacteria on biodegradable
plastics, particularly PBAT and PBS, under changing climate and land use conditions during the early degradation
phase. Additionally, we identified soil-associated minor N-fixing bacteria that dominate these N-poor
plastics in both conventional and organic farming systems. Identifying plastic-preferring microbial groups is
crucial for understanding the microbial plastic degradation process under the real world’s scenario.
Encapsulated biocides in façade materials impact leaching and UV stability, resulting in lower aquatic toxicity of the eluates
Nichterlein, Moritz; Kiefer, Nadine; Hohner, Jenny; Stapf, D.; Schatz, Madeleine; Noll, Matthias; Kalkhof, Stefan (2025)
Nichterlein, Moritz; Kiefer, Nadine; Hohner, Jenny; Stapf, D.; Schatz, Madeleine...
Environmental Science and Pollution Research 2025 (32), 16324-16339.
DOI: 10.1093/etojnl/vgaf156
Peer Reviewed
Does future climate and agricultural farming system affect the fungal plastisphere of different biodegradable plastics at the early stage of field degradation?
Tanunchai, Benjawan; Schädler , M.; Noll, Matthias (2025)
Environmental Science Europe 2025 (37), 23.
DOI: 10.1186/s12302-025-01051-7
Peer Reviewed
Feels like home: A biobased and biodegradable plastic offers a novel habitat for diverse plant pathogenic fungi in temperate forest ecosystems
Nonthijun, Parada; Tanunchai, Benjawan; Schroeter , Simon Andreas; Wahdan, S. F. M.; Alves , G. E.; Hilke , Ines; Buscot, F.; Schulze, Ernst-Detlef ; Disayathanoowat, Terd; Purahong, W.; Noll, Matthias (2024)
Nonthijun, Parada; Tanunchai, Benjawan; Schroeter , Simon Andreas; Wahdan, S. F. M....
Microbial Ecology 2024 (87), 155.
DOI: 10.1007/s00248-024-02466-0.
Open Access Peer Reviewed
Extrinsic rather than intrinsic factors determine microbial colonization of deadwood
Moll, Julia; Bässler, C.; Buscot, F.; Hoppe, B.; Jehmlich, N.; Kellner, H.; Muszynski, Sarah; Noll, Matthias (2024)
Moll, Julia; Bässler, C.; Buscot, F.; Hoppe, B.; Jehmlich, N.; Kellner, H....
Soil Biology and Biochemistry 2024 (199), 109608.
DOI: 10.1016/j.soilbio.2024.109608
Measurement and simulation of distribution, degradation, maximal soil concentrations and ecotoxic effects of biocides released from building facades
Kiefer, Nadine; Reiß, Fabienne; Klein, Judith; Klein, Michael; Noll, Matthias; Kalkhof, Stefan (2023)
Kiefer, Nadine; Reiß, Fabienne; Klein, Judith; Klein, Michael; Noll, Matthias...
SETAC EUROPE 33rd ANNUAL MEETING, 30 APRIL - 4 MAY 2023, DUBLIN.
Prof. Dr. Matthias Noll
Hochschule Coburg
Fakultät Angewandte Naturwissenschaften und Gesundheit (FNG)
Friedrich-Streib-Str. 2
96450 Coburg
T 09561317645 matthias.noll[at]hs-coburg.de