Andreas Richter
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Explore the profile of Andreas Richter including associated specialties, affiliations and a list of published articles.
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Articles
227
Citations
6134
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Recent Articles
1.
Leyrer V, Blum J, Marhan S, Kandeler E, Zimmermann T, Berauer B, et al.
Glob Chang Biol
. 2025 Feb;
31(2):e70070.
PMID: 39936174
Droughts affect soil microbial abundance and functions-key parameters of plant-soil carbon (C) allocation dynamics. However, the impact of drought may be modified by the mean climatic conditions to which the...
2.
Canarini A, Fuchslueger L, Schnecker J, Metze D, Nelson D, Kahmen A, et al.
Nat Commun
. 2024 Nov;
15(1):10410.
PMID: 39613745
Microbial growth is central to soil carbon cycling. However, how microbial communities grow under climate change is still largely unexplored. Here we use a unique field experiment simulating future climate...
3.
Scherer V, Bellin L, Schwenkert S, Lehmann M, Rinne J, Witte C, et al.
Plant J
. 2024 Sep;
120(3):1064-1078.
PMID: 39323000
Arabidopsis uracil phosphoribosyltransferase (UPP) is an essential enzyme and plants lacking this enzyme are strongly compromised in chloroplast function. Our analysis of UPP amiRNA mutants has confirmed that this vital...
4.
Tang Y, Sahlstedt E, Rissanen K, Back J, Schiestl-Aalto P, Angove C, et al.
Plant Cell Environ
. 2024 Aug;
47(12):5411-5423.
PMID: 39189985
Understanding the dynamics of δC and δO in modern resin is crucial for interpreting (sub)fossilized resin records and resin production dynamics. We measured the δC and δO offsets between resin...
5.
Schmider T, Hestnes A, Brzykcy J, Schmidt H, Schintlmeister A, Roller B, et al.
Nat Commun
. 2024 May;
15(1):4151.
PMID: 38755154
Atmospheric methane oxidizing bacteria (atmMOB) constitute the sole biological sink for atmospheric methane. Still, the physiological basis allowing atmMOB to grow on air is not well understood. Here we assess...
6.
Yang L, Canarini A, Zhang W, Lang M, Chen Y, Cui Z, et al.
Glob Chang Biol
. 2024 May;
30(5):e17311.
PMID: 38742695
The soil microbial carbon pump (MCP) is increasingly acknowledged as being directly linked to soil organic carbon (SOC) accumulation and stability. Given the close coupling of carbon (C) and nitrogen...
7.
Sollinger A, Ahlers L, Borg Dahl M, Sigurdsson P, Le Noir de Carlan C, Bhattarai B, et al.
ISME J
. 2024 May;
18(1).
PMID: 38722823
Physiological responses of soil microorganisms to global warming are important for soil ecosystem function and the terrestrial carbon cycle. Here, we investigate the effects of weeks, years, and decades of...
8.
Imminger S, Meier D, Schintlmeister A, Legin A, Schnecker J, Richter A, et al.
Nat Commun
. 2024 Apr;
15(1):3056.
PMID: 38632260
Microbial activity in drylands tends to be confined to rare and short periods of rain. Rapid growth should be key to the maintenance of ecosystem processes in such narrow activity...
9.
Gargallo-Garriga A, Sardans J, Llusia J, Peguero G, Ayala-Roque M, Courtois E, et al.
BMC Plant Biol
. 2024 Apr;
24(1):278.
PMID: 38609866
Background: The availability of soil phosphorus (P) often limits the productivities of wet tropical lowland forests. Little is known, however, about the metabolomic profile of different chemical P compounds with...
10.
Metze D, Schnecker J, Le Noir de Carlan C, Bhattarai B, Verbruggen E, Ostonen I, et al.
Sci Adv
. 2024 Feb;
10(8):eadk6295.
PMID: 38394199
Soil microorganisms control the fate of soil organic carbon. Warming may accelerate their activities putting large carbon stocks at risk of decomposition. Existing knowledge about microbial responses to warming is...