Please click underlined text for a link to the paper.
LAP members are bolded,
Corresponding authors from LAP noted with an asterisk [*].
・Fujino M, Suzuki K, Harada N, Asiloglu R*, 2023: Protists modulate active bacterial community composition in paddy field soils. Biology and Fertility of Soils.
・Murase J & Asiloglu R, 2023: Protists: The hidden ecosystem players in a wetland rice field soil. Biology and Fertility of Soils.
・Asiloglu R*, 2022: Biochar–microbe interaction: more protist research is needed Biochar, 4, 72.
・Asiloglu R*, Shiroishi K, Suzuki K, Turgay OC, Harada N 2021: Soil properties have more significant effects on the community composition of protists than the rhizosphere effect of rice plants in alkaline paddy field soils. Soil Biology and Biochemistry , 161, 108397.
・Asiloglu R*, Kobayashi K, Samuel SO, Sevilir B, Murase J, Suzuki K, Harada N 2021: Top-down effects of protists are greater than bottom-up effects of fertilisers on the formation of bacterial communities in a paddy field soil. Soil Biology and Biochemistry, 156, 108186.
・Asiloglu R*, Sevilir B, Samuel SO, Aycan M, Akca MO, Suzuki K, Murase J, Turgay OC, Harada N 2021: Effect of protists on rhizobacterial community composition and rice plant growth in a biochar amended soil. Biology and Fertility of Soils, 57, 293-304
・Asiloglu R*, Samuel SO, Sevilir B, Akca MO, Bozkurt PA, Suzuki K, Murase J, Turgay OC, Harada N 2021: Biochar affects taxonomic and functional community composition of protists. Biology and Fertility of Soils, 57, 15-29.
・Asiloglu R*, Shiroishi K, Suzuki K, Turgay OC, Murase J, Harada N 2020: Protist-enhanced survival of a plant growth promoting rhizobacteria, Azospirillum sp. B510, and the growth of rice (Oryza sativa L.) plants. Applied Soil Ecology, 154, 103599.