Georg Guggenberger

Leibniz Universit

Biography

Georg Guggenberger currently working at Institute of Soil Science, Leibniz Universität Hannover, Herrenhäuser Str. 2, 30419 Hannover, Germany. His research work is on Forest Management Influence on the Carbon Flux of Cupressus lusitanica Plantation in the Munessa Forest, Ethiopia.

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Microbial functional changes mark irreversible course of Tibetan grassland degradation

A Breidenbach, PM Schleuss, S Liu, D Schneider, MA Dippold, ...Nature Communications 13 (1), 2681, 2022202

2022

Past, present, and future geo-biosphere interactions on the Tibetan Plateau and implications for permafrost

TA Ehlers, D Chen, E Appel, T Bolch, F Chen, B Diekmann, MA Dippold, ...Earth-Science Reviews, 104197, 2022202

2022

Microbial iron reduction compensates for phosphorus limitation in paddy soils

C Wang, L Thielemann, MA Dippold, G Guggenberger, Y Kuzyakov, ...Science of The Total Environment 83, 155810, 2022202

2022

Can the reductive dissolution of ferric iron in paddy soils compensate phosphorus limitation of rice plants and microorganisms?

C Wang, L Thielemann, MA Dippold, G Guggenberger, Y Kuzyakov, ...Soil Biology and Biochemistry 168, 108653, 2022202

2022

Succession of the soil bacterial community as resource utilization shifts from plant residues to rhizodeposits

Y Fu, Y Luo, C Tang, Y Li, G Guggenberger, J XuSoil Biology and Biochemistry 173, 10878, 2022202

2022

Catch crop mixtures have higher potential for nutrient carry-over than pure stands under changing environments

D Heuermann, N Gentsch, G Guggenberger, B Reinhold-Hurek, ...European Journal of Agronomy 136, 12650, 2022202

2022

Nitrophobic ectomycorrhizal fungi are associated with enhanced hydrophobicity of soil organic matter in a Norway spruce forest

JP Almeida, NP Rosenstock, SK Woche, G Guggenberger, H WallanderBiogeosciences 19 (15), 71-726, 2022202

2022

Reductive dissolution of iron phosphate modifies rice root morphology in phosphorus-deficient paddy soils

C Wang, L Thielemann, MA Dippold, G Guggenberger, Y Kuzyakov, ...Soil Biology and Biochemistry 177, 108904, 030

2023

Process sequence of soil aggregate formation disentangled through multi-isotope labelling

W Amelung, N Meyer, A Rodionov, C Knief, M Aehnelt, SL Bauke, ...Geoderma 49, 1166, 030

2023

The glacial–terrestrial–fluvial pathway: A multiparametrical analysis of spatiotemporal dissolved organic matter variation in three catchments of Lake Nam Co, Tibetan Plateau

P Maurischat, L Lehnert, VHD Zerres, TV Tran, K Kalbitz, Å Rinnan, XG Li, ...Science of The Total Environment 838, 15654, 0

2022

Root exudates with low C/N ratios accelerate CO2 emissions from paddy soil

Root exudates with low C/N ratios accelerate CO emissions from paddy soilG Cai, M Shahbaz, T Ge, Y Hu, B Li, H Yuan, Y Wang, Y Liu, Q Liu, ...Land Degradation & Development 33 (8), 1193-103, 0

2022

Mycorrhizal Mediated Partitioning of Phosphorus: Ectomycorrhizal (Populus x canescens x Paxillus involutus) Potential to Exploit Simultaneously Organic and …

K Schreider, D Hofmann, J Boy, A Andrino, A Fernandes Figueiredo, ...Frontiers in Soil Science , 865517, 0

2022

Residence time of carbon in paddy soils

Y Liu, T Ge, P Wang, KJ van Groenigen, X Xu, K Cheng, Z Zhu, J Wang, ...Journal of Cleaner Production 400, 36707, 2023202

2023

Changes in soil microbial metabolic activity following long‐term forest succession on the central Loess Plateau, China

Y Liu, X Song, K Wang, Z He, Y Pan, J Li, X Hai, L Dong, Z Shangguan, ...Land Degradation & Development 34 (3), 723-735, 2023202

2023

Correction: Identification and validation of early genetic biomarkers for apple replant disease

AD Rohr, J Schimmel, B Liu, L Beerhues, G Guggenberger, ...Plos one 7 (8), e0272900, 2022202

2022

Referred From: https://scholar.google.de/citations?user=4Pcj_EIAAAAJ&hl=de

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Georg Guggenberger

Biography

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