Bo Zheng
School of Agriculture, Food and Wine
Faculty of Sciences, Engineering and Technology
Bo Zheng is a post-doctoral researcher at the University of Adelaide. Her work focuses on increasing soil potential to achieve higher crop yield through new soil fertilizers or amendments formulation use more sustainable approach.
Bo Zheng is a post-doctoral researcher at the University of Adelaide. Her work focuses on increasing soil potential to achieve higher crop yield through new soil fertilizers or amendments formulation use more sustainable approach.
-
Appointments
Date Position Institution name 2024 - ongoing Grant-Funded Researcher University of Adelaide -
Language Competencies
Language Competency Chinese (Mandarin) Can read, write, speak, understand spoken and peer review English Can read, write, speak, understand spoken and peer review -
Education
Date Institution name Country Title 2017 - 2023 University of Adelaide Australia Doctor of Philosophy 2016 - 2016 University of Adelaide Australia Honour of Soil science 2013 - 2015 University of Adelaide Australia Bachelor of Agricultural sciences
-
Journals
Year Citation 2023 Zheng, B., Degryse, F., Andelkovic, I. B., Baird, R., & McLaughlin, M. J. (2023). Agronomic Comparison of Mechanochemically Synthesized Zinc Borate and Other Boron Sources Granulated with Macronutrient Fertilizers. Journal of Soil Science and Plant Nutrition, 23(4), 6407-6417.
2022 Marschner, P., & Zheng, B. (2022). Direction and magnitude of the change in water content between two periods influence soil respiration, microbial biomass and nutrient availability which can be modified by intermittent air-drying. Soil Biology and Biochemistry, 166, 1-12.
Scopus4 WoS12021 Zheng, B., Kabiri, S., Andelkovic, I. B., Degryse, J., Coqui da Silva, R., Baird, R., . . . McLaughlin, M. J. (2021). Mechanochemical Synthesis of Zinc Borate for Use as a Dual-Release B Fertilizer. ACS Sustainable Chemistry & Engineering, 9(47), 15995-16004.
Scopus8 WoS72017 Zheng, B., & Marschner, P. (2017). Previous residue addition rate and C/N ratio influence nutrient availability and respiration rate after the second residue addition. Geoderma, 285, 217-224.
Scopus23 WoS212017 Zheng, B., & Marschner, P. (2017). Residue addition frequency influences respiration, microbial biomass and nutrient availability in soil amended with high and low C/N residue. Journal of Soil Science and Plant Nutrition, 17(1), 1-13.
Scopus9 WoS102017 Zheng, B., Dang, T., & Marschner, P. (2017). Prior exposure to diurnal heating influences soil respiration and N availability upon rewetting. Biology and Fertility of Soils, 53(7), 715-721.
Scopus4 WoS4
Connect With Me
External Profiles