Andreas Schindlbacher
Overview
Explore the profile of Andreas Schindlbacher including associated specialties, affiliations and a list of published articles.
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Articles
14
Citations
261
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0
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Recent Articles
1.
Liu X, Tian Y, Heinzle J, Salas E, Kwatcho-Kengdo S, Borken W, et al.
Glob Chang Biol
. 2024 Jul;
30(6):e17379.
PMID: 39031669
Microbial necromass carbon (MNC) accounts for a large fraction of soil organic carbon (SOC) in terrestrial ecosystems. Yet our understanding of the fate of this large carbon pool under long-term...
2.
Liu X, Heinzle J, Tian Y, Salas E, Kwatcho Kengdo S, Borken W, et al.
Plant Cell Environ
. 2024 Jun;
47(11):4212-4226.
PMID: 38935880
Climate warming poses major threats to temperate forests, but the response of tree root metabolism has largely remained unclear. We examined the impact of long-term soil warming (>14 years, +4°C)...
3.
Tian Y, Shi C, Malo C, Kwatcho Kengdo S, Heinzle J, Inselsbacher E, et al.
Nat Commun
. 2023 Feb;
14(1):864.
PMID: 36792624
Phosphorus (P) is an essential and often limiting element that could play a crucial role in terrestrial ecosystem responses to climate warming. However, it has yet remained unclear how different...
4.
Shi C, Urbina-Malo C, Tian Y, Heinzle J, Kwatcho Kengdo S, Inselsbacher E, et al.
Glob Chang Biol
. 2023 Jan;
29(8):2188-2202.
PMID: 36622092
Increasing global temperatures have been reported to accelerate soil carbon (C) cycling, but also to promote nitrogen (N) and phosphorus (P) dynamics in terrestrial ecosystems. However, warming can differentially affect...
5.
Kwatcho Kengdo S, Ahrens B, Tian Y, Heinzle J, Wanek W, Schindlbacher A, et al.
Sci Total Environ
. 2022 Sep;
855:158800.
PMID: 36116665
Fine root litter represents an important carbon input to soils, but the effect of global warming on fine root turnover (FRT) is hardly explored in forest ecosystems. Understanding tree fine...
6.
Kwatcho Kengdo S, Persoh D, Schindlbacher A, Heinzle J, Tian Y, Wanek W, et al.
Glob Chang Biol
. 2022 Mar;
28(10):3441-3458.
PMID: 35253326
Climate warming is predicted to affect temperate forests severely, but the response of fine roots, key to plant nutrition, water uptake, soil carbon, and nutrient cycling is unclear. Understanding how...
7.
Zehetgruber B, Kobler J, Dirnbock T, Jandl R, Seidl R, Schindlbacher A
Plant Soil
. 2017 Dec;
420(1):239-252.
PMID: 29225378
Aims: Slow or failed tree regeneration after forest disturbance is increasingly observed in the central European Alps, potentially amplifying the carbon (C) loss from disturbance. We aimed at quantifying C...
8.
Lu H, Liu S, Wang H, Luan J, Schindlbacher A, Liu Y, et al.
Sci Rep
. 2017 Nov;
7(1):15099.
PMID: 29118364
Changing precipitation patterns could affect soil carbon (C) cycling in China's forests. A throughfall reduction (TFR) experiment was conducted in a warm-temperate oak forest in central China to examine effects...
9.
Schnecker J, Borken W, Schindlbacher A, Wanek W
Soil Biol Biochem
. 2017 Jan;
103:300-307.
PMID: 28042178
Rising temperatures enhance microbial decomposition of soil organic matter (SOM) and thereby increase the soil CO efflux. Elevated decomposition rates might differently affect distinct SOM pools, depending on their stability...
10.
Graham E, Knelman J, Schindlbacher A, Siciliano S, Breulmann M, Yannarell A, et al.
Front Microbiol
. 2016 Mar;
7:214.
PMID: 26941732
Microorganisms are vital in mediating the earth's biogeochemical cycles; yet, despite our rapidly increasing ability to explore complex environmental microbial communities, the relationship between microbial community structure and ecosystem processes...