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Fine root extension in urban forest soil depends on organic mulching
Kuzyakov Yakov, Sun Xiaodan, Zhao Jiahao, Wang Gang, Guan Qingwei
the root morphology and biomass, and root order and soil depth were considerable factors for the fine roots
Norway Spruce Fine Roots and Fungal Hyphae Grow Deeper in Forest Soils After Extended Drought
Isabella, Børja, Douglas L. Godbold, Jan, Světlík, Nina E. Nagy, Roman, Gebauer, Урбан, Йозеф Йозеф, Daniel, Volařík, Lange, H., Paal, Krokene, Petr, Čermák, Toril D. Eldhuset
biomass in deeper soil layers in drought plots. We conclude that both fine roots and fungal hyphae respond
Soil properties and root traits jointly shape fine-scale spatial patterns of bacterial community and metabolic functions within a Korean pine forest
Teng J., Tian J., Yu G., Kuzyakov Y.
) and root biomass emerged as the most important drivers of the bacterial community structure. In contrast
Root and mycorrhizal strategies for nutrient acquisition in forests under nitrogen deposition: A meta-analysis
Ma X., Zhu B., Nie Y., Liu Y., Kuzyakov Y.
nutrient acquisition strategies: the fine root biomass and length decreased significantly in EM trees (−13
Root trait plasticity and plant nutrient acquisition in phosphorus limited soil
Kumar A., Shahbaz M., Koirala M., Blagodatskaya E., Seidel S.J., Kuzyakov Y., Pausch J.
or absence of root hairs, plants produced average root biomass of 0.14 g per plant and exhibited 23% root
Combined biochar and nitrogen application stimulates enzyme activity and root plasticity
Song X., Razavi B.S., Ludwig B., Zamanian K., Zang H., Kuzyakov Y., Dippold M.A., Gunina A.
activities, available N and P, root morphology and plant biomass were analyzed after plant harvest. Plant
Root trait plasticity and plant nutrient acquisition in phosphorus limited soil
Kumar A., Shahbaz M., Koirala M., Blagodatskaya E., Seidel S., Kuzyakov Y., Pausch J.
or absence of root hairs, plants produced average root biomass of 0.14 g per plant and exhibited 23% root
Nitrogen addition influences fine root growth and mycorrhizal symbiosis formation in trees with contrasting root morphology
Ma X., Ni X., Guo Z., Zou X., Chen J., Shen W., Kuzyakov Y.
Nitrogen (N) addition influences fine root growth and mycorrhizal symbiosis formation, the two
Loss of labile organic carbon from subsoil due to land-use changes insubtropical China
Sheng H., Zhou P., Zhang Y., Kuzyakov Y., Zhou Q., Ge T., Wang C.
systems in subtropical China. Decrease in fine root biomass was more pronounced below 20cm than
Loss of labile organic carbon from subsoil due to land-use changes insubtropical China
Sheng H., Zhou P., Zhang Y., Kuzyakov Y., Zhou Q., Ge T., Wang C.
systems in subtropical China. Decrease in fine root biomass was more pronounced below 20cm than

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