Maik Lucas
Maik Lucas
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Cited by
Soil structure formation along an agricultural chronosequence
M Lucas, S Schlüter, HJ Vogel, D Vetterlein
Geoderma 350, 61-72, 2019
Roots compact the surrounding soil depending on the structures they encounter
M Lucas, S Schlüter, HJ Vogel, D Vetterlein
Scientific reports 9 (1), 16236, 2019
Revealing pore connectivity across scales and resolutions with X‐ray CT
M Lucas, D Vetterlein, HJ Vogel, S Schlüter
European Journal of Soil Science 72 (2), 546-560, 2021
Root growth, function and rhizosphere microbiome analyses show local rather than systemic effects in apple plant response to replant disease soil
M Lucas, A Balbín-Suárez, K Smalla, D Vetterlein
PLoS One 13 (10), e0204922, 2018
Initial soil formation in an agriculturally reclaimed open-cast mining area-the role of management and loess parent material
E Pihlap, M Vuko, M Lucas, M Steffens, M Schloter, D Vetterlein, ...
Soil and Tillage Research 191, 224-237, 2019
Combination of imaging infrared spectroscopy and X-ray computed microtomography for the investigation of bio-and physicochemical processes in structured soils
M Lucas, E Pihlap, M Steffens, D Vetterlein, I Kögel-Knabner
Frontiers in Environmental Science 8, 42, 2020
Exploring microbial determinants of apple replant disease (ARD): a microhabitat approach under split-root design
A Balbín-Suárez, M Lucas, D Vetterlein, SJ Sørensen, T Winkelmann, ...
FEMS Microbiology Ecology 96 (12), fiaa211, 2020
Cover crop influence on pore size distribution and biopore dynamics: Enumerating root and soil faunal effects
M Lucas, LTT Nguyen, A Guber, AN Kravchenko
Frontiers in Plant Science 13, 928569, 2022
Perspectives from the Fritz‐Scheffer Awardee 2020—The mutual interactions between roots and soil structure and how these affect rhizosphere processes#
M Lucas
Journal of Plant Nutrition and Soil Science 185 (1), 8-18, 2022
The soil pore structure encountered by roots affects plant‐derived carbon inputs and fate
M Lucas, JP Santiago, J Chen, A Guber, A Kravchenko
New Phytologist 240 (2), 515-528, 2023
Changes in soil pore structure generated by the root systems of maize, sorghum and switchgrass affect in situ N2O emissions and bacterial denitrification
M Lucas, J Gil, GP Robertson, NE Ostrom, A Kravchenko
Biology and Fertility of Soils, 1-17, 2023
Interactions among soil texture, pore structure, and labile carbon influence soil carbon gains
JH Lee, M Lucas, AK Guber, X Li, AN Kravchenko
Geoderma 439, 116675, 2023
Macroaggregates of loam in sandy soil show little influence on maize growth, due to local adaptations of root architecture to soil heterogeneity
E Lippold, M Lucas, T Fahrenkampf, S Schlüter, D Vetterlein
Plant and Soil 478 (1), 163-175, 2022
Microscale spatiotemporal patterns of water, soil organic carbon, and enzymes in plant litter detritusphere
K Kim, A Kaestner, M Lucas, AN Kravchenko
Geoderma 438, 116625, 2023
X-Ray imaging of root–soil interactions
M Lucas, D Vetterlein
X-Ray imaging of the soil porous architecture, 129-157, 2022
The distribution of particulate organic matter in the heterogeneous soil matrix-balancing between aerobic respiration and denitrification
M Lucas, L Rohe, B Apelt, CF Stange, HJ Vogel, R Well, S Schlüter
bioRxiv, 2024.03. 16.585355, 2024
Porosity and pore-size distribution
JR Nimmo, S Katuwal, M Lucas
Encyclopedia of Soils in the Environment (Second Edition) 5, 16-24, 2023
Roots change the pore structure only if they have to–development of biopores and compaction around roots.
M Lucas, S Schlüter, HJ Vogel, D Vetterlein
Geophysical Research Abstracts 21, 2019
Soil structure formation through the action of plants
M Lucas, S Schlüter, HJ Vogel, D Vetterlein
EGU General Assembly Conference Abstracts, 6367, 2018
The anaerobic soil volume as a controlling factor of denitrification: a review
S Schlüter, M Lucas, B Grosz, O Ippisch, J Zawallich, H He, R Dechow, ...
Biology and Fertility of Soils, 1-23, 2024
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