Chowdhury, S.; Lange, M.; Malik, A. A.; Goodall, T.; Huang, J.; Griffiths, R. I.; Gleixner, G.: Plants with arbuscular mycorrhizal fungi efficiently acquire Nitrogen from substrate additions by shaping the decomposer community composition and their net plant carbon demand. Plant and Soil 475, pp. 473 - 490 (2022)
Huang, J.; Hammerbacher, A.; Gershenzon, J.; van Dam, N. M.; Sala, A.; McDowell, N. G.; Chowdhury, S.; Gleixner, G.; Trumbore, S. E.; Hartmann, H.: Storage of carbon reserves in spruce trees is prioritized over growth in the face of carbon limitation. Proceedings of the National Academy of Sciences of the United States of America 118 (33), e2023297118 (2021)
Malik, A. A.; Puissant, J.; Buckeridge, K. M.; Goodall, T.; Jehmlich, N.; Chowdhury, S.; Gweon, H. S.; Peyton, J. M.; Mason, K. E.; van Agtmaal, M.et al.; Blaud, A.; Clark, I. M.; Whitaker, J.; Pywell, R. F.; Ostle, N.; Gleixner, G.; Griffiths, R. I.: Land use driven change in soil pH affects microbial carbon cycling processes. Nature Communications 9, 3591 (2018)
Kumbhare, S. V.; Kumar, H.; Chowdhury, S.; Dhotre, D. P.; Endo, A.; Mättö, J.; Ouwehand, A. C.; Rautava, S.; Joshi, R.; Patil, N. P.et al.; Patil, R. H.; Isolauri, E.; Bavdekar, A. R.; Salminen, S. .; Shouche, Y. S.: A cross-sectional comparative study of gut bacterial community of Indian and Finnish children. Scientific Reports 7, 10555 (2017)
Chowdhury, S.: Effect of plant inputs and nutrient acquisition strategies on soil microbial community. Dissertation, Friedrich Schiller University Jena, Jena (2021)
A new study shows a natural solution to mitigate the effects of climate change such as extreme weather events. Researchers found that a diverse plant community acts as a buffer against fluctuations in soil temperature. This buffer, in turn, can have a decisive influence on important ecosystem processes.
The Deutsche Forschungsgemeinschaft (DFG) is to fund a Research Unit in the Jena Experiment for a further four years with around five million euros. The new focus is on the stabilising effect of biodiversity against extreme climate events such as heat, frost or heavy rainfall.
Microorganisms decompose falling leaves, thus improving soil quality and counteracting climate change. But how do these single-celled organisms coordinate their distribution of tasks? An international research team has investigated this hitherto poorly understood process.