Articles with public access mandates - Thomas Kuyper - National Natural Science Foundation of ChinaLearn more
Not available based on mandate: 4
Nitrogen availability mediates the priming effect of soil organic matter by preferentially altering the straw carbon-assimilating microbial community
S Bei, X Li, TW Kuyper, DR Chadwick, J Zhang
Science of the Total Environment 815, 152882, 2022
Mycorrhizal impacts on root trait plasticity of six maize varieties along a phosphorus supply gradient
XX Wang, H Li, Q Chu, G Feng, TW Kuyper, Z Rengel
Plant and Soil 448, 71-86, 2020
Common mycorrhizal networks asymmetrically improve chickpea N and P acquisition and cause overyielding by a millet/chickpea mixture
C Li, H Li, E Hoffland, F Zhang, J Zhang, TW Kuyper
Plant and Soil 472 (1), 279-293, 2022
Maize varieties can strengthen positive plant-soil feedback through beneficial arbuscular mycorrhizal fungal mutualists
XX Wang, E Hoffland, L Mommer, G Feng, TW Kuyper
Mycorrhiza 29, 251-261, 2019
Available based on mandate: 15
Syndromes of production in intercropping impact yield gains
C Li, E Hoffland, TW Kuyper, Y Yu, C Zhang, H Li, F Zhang, ...
Nature Plants 6 (6), 653-660, 2020
Yield gain, complementarity and competitive dominance in intercropping in China: A meta-analysis of drivers of yield gain using additive partitioning
C Li, E Hoffland, TW Kuyper, Y Yu, H Li, C Zhang, F Zhang, ...
European Journal of Agronomy 113, 125987, 2020
High microbial diversity stabilizes the responses of soil organic carbon decomposition to warming in the subsoil on the Tibetan Plateau
M Xu, X Li, TW Kuyper, M Xu, X Li, J Zhang
Global Change Biology 27 (10), 2061-2075, 2021
Arbuscular mycorrhizal fungi negatively affect nitrogen acquisition and grain yield of maize in a N deficient soil
XX Wang, X Wang, Y Sun, Y Cheng, S Liu, X Chen, G Feng, TW Kuyper
Frontiers in microbiology 9, 418, 2018
Phosphate uptake from phytate due to hyphae-mediated phytase activity by arbuscular mycorrhizal maize
XX Wang, E Hoffland, G Feng, TW Kuyper
Frontiers in plant science 8, 684, 2017
Field performance of different maize varieties in growth cores at natural and reduced mycorrhizal colonization: yield gains and possible fertilizer savings in relation to …
XX Wang, W van der Werf, Y Yu, E Hoffland, G Feng, TW Kuyper
Plant and Soil 450, 613-624, 2020
Testing for complementarity in phosphorus resource use by mixtures of crop species
C Li, TW Kuyper, W van der Werf, J Zhang, H Li, F Zhang, E Hoffland
Plant and Soil 439, 163-177, 2019
Arbuscular mycorrhizal symbiosis increases phosphorus uptake and productivity of mixtures of maize varieties compared to monocultures
XX Wang, E Hoffland, G Feng, TW Kuyper
Journal of Applied Ecology 57 (11), 2203-2211, 2020
Rhizoplane bacteria and plant species co-determine phosphorus-mediated microbial legacy effect
M Lang, S Bei, X Li, TW Kuyper, J Zhang
Frontiers in microbiology 10, 2856, 2019
Mycorrhiza-mediated recruitment of complete denitrifying Pseudomonas reduces N2O emissions from soil
X Li, R Zhao, D Li, G Wang, S Bei, X Ju, R An, L Li, TW Kuyper, P Christie, ...
Microbiome 11 (1), 45, 2023
Complementarity and facilitation with respect to P acquisition do not drive overyielding by intercropping
C Li, E Hoffland, W van der Werf, J Zhang, H Li, J Sun, F Zhang, ...
Field Crops Research 265, 108127, 2021
Breeding against mycorrhizal symbiosis: Modern cotton (Gossypium hirsutum L.) varieties perform more poorly than older varieties except at very high phosphorus supply levels
XX Wang, M Zhang, JD Sheng, F Gu, TW Kuyper
Journal of Integrative Agriculture 22 (3), 701-715, 2023
A conceptual framework and an empirical test of complementarity and facilitation with respect to phosphorus uptake by plant species mixtures
LI Chunjie, TW Kuyper, W Van der Werf, J Zhang, LI Haigang, F Zhang, ...
Pedosphere 32 (2), 317-329, 2022
A trade-off between space exploration and mobilization of organic phosphorus through associated microbiomes enables niche differentiation of arbuscular mycorrhizal fungi on the …
J Zhou, TW Kuyper, G Feng
Science China Life Sciences 66 (6), 1426-1439, 2023
Common Mycorrhizal Networks Asymmetrically Contribute to Increased N and P Acquisition by Millet/Chickpea Mixture
C Li, H Li, E Hoffland, F Zhang, J Zhang, TW Kuyper
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