Research theme for competitive and other funds (5):
2015 - 2018 Elucidation of the mechanism of rhizospheric hypoxia stress of trees for environmental reforestation in tropical wetland
2007 - 2008 Flooding tolerance of swamp trees - Dynamics of oxygen from shoot through root probed by a micro oxygen electrode
2006 - 2008 Environmental Reforestation Techniques and Carbon Sequestration Potential of Restored Forest on Degraded Tropical Peat Swamp
2006 - 2008 Metabolic regulation in tree roots by environmental stress
2005 - 2008 Carbon Sink Potential of Degraded Lands in Tropical Peat Swamp Area
Papers (17):
Hong-Duck Sou, Masaya Masumori, Takashi Yamanoshita, Takeshi Tange. Primary and secondary aerenchyma oxygen transportation pathways of Syzygium kunstleri (King) Bahadur & R. C. Gaur adventitious roots in hypoxic conditions. Scientific Reports. 2021. 11. 1
Kogawara, S, Yamanoshita, T, Norisada, M, Kojima, K. Steady sucrose degradation is a prerequisite for tolerance to root hypoxia. Tree Physiology. 2014. 34. 229-240
Nagano, T, Osawa, K, Ishida, T, Sakai, K, Vijarnsorn, P, Jongskul, A, Phetsuk, S, Waijaroen, S, Yamanoshita, T, Norisada, M, et al. Subsidence and soil CO2 efflux in tropical peatland in southern Thailand under various water table and management conditions. Mires and Peat. 2013. 11. 1-20
Norisada Mariko, Yamanoshita Takashi, Kojima Katsumi. Methane emissions from Melaleuca cajuputi trees growing in tropical peat swamp. The Japanese Forest Society Congress. 2011. 123. Pa008-Pa008
Tanaka Kazuo, Masumori Masaya, Yamanoshita Takashi, Tange Takeshi. Aerenchyma Development in Melaleuca cajuputi under submergence. The Japanese Forest Society Congress. 2011. 123. Pb189-Pb189
Planting performance of tropical trees on acid sulfate soil and their responses to aluminum and low pH stresses
(the Final International Meeting for 21st Century Center of Excellence (COE) Program “Development of New Bioremediation Systems of Acid Sulfate Soil for Agriculture and Forestry” 2008)