分野ゼミ
Lunchon seminar †
We intriduce the target papers and/or the content before the presentation.
080509 Makoto Kobayashi [Series of the role of fires in forest ecosystem] †
1) Concept of the presentation
A series of works by � Dr. Thomas H DeLuca
2) References:
- Wildfire-produced charcoal directly influences nitrogen cycling in ponderosa pine forests(2006)
SSSAJ 70: 448-453
- Charcoal and shrubs modify soil processes in ponderosa pine forests of western Montana(2006)
Plant and Soil 287: 257-266
- Frequent fire alters nitrogen transformations in ponderosa pine stands of the inland northwest(2006)
Ecology 87: 2511-2522
080516 Koike Takayoshi [Research topics on Black locust] †
- Feng, Z., J. Dyckmans and H. Flessa (2004) Effects of elevated carbon dioxide concentration on growth and N2 fixation of young Robinia pseudoacacia. Tree Physiology 24: 323–330.
080523 Koharyu Ryu[Please refer to the topics of nitrogen saturation in ecosystem!] †
- Tatsuro Nakaji, Motohiro Fukami, Yukiko Dokiya and Takeshi Izuta(2001)Effects of high nitrogen load on growth, photosynthesis and nutrient status of Cryptomeria japonica and Pinus densiflora seedlings, Trees 15:453-461;
080530 Hiroshi Marugami [Re-consideration of aerenchyma of hiher plants! Flooding tolerance] †
- Seago James L. Jr, Marsh Leland C., Stevens Kevin J., Soukup Ales, Votrubova Olga, Enstone Daryl E.(2005)
A Re-examination of the Root Cortex in Wetland Flowering Plants With Respect to Aerenchyma, Annals of Botany. Flooding Stress. 96(4):565-579
080602 Koike Takayoshi [Is Japanese lacrh C4 plant!] †
- Responses of grwoth of larch species to the changing environment・・・A schok of report in 1976, A 30 years had pased!
- Fry, D.J. and Phillips, I.D.J. (1976) Photosynthesis of conifers in relation to annual growth cycles and dry matter production, 1: Some C4 characteristics in photosynthesis of Japanese Larch (Larix leptolepis). Physiologia Plantarum 37: 185-190.
- Richards, J. H. and J. A. Teeri (1982) Re-evaluation of proposed C4 photosynthetic characteristics in the genus Larix. Physiologia Plantarum 55:117-120.
- Eguchi, N., et al. (2004) Changes in morphology, anatomy and photosynthetic capacity of needles of Japanese larch (Larix kaempferi) seedlings grown in high CO2 concentrations. Photosynthetica 42: 173-178. (Larix leptolepis=Larix kaempferi)
- Qu, Laiye et al. (2004) Allocation of 14C-Carbon in two species of larch seedlings infected with ectomycorrhizal fungi. Tree Physiology 24: 1369-1376.
- Choi, D.S. (2008) Ecophysiological study of the growth of conifers in Korea in acidified soil with elevated CO2: The role of ectomycorrhizal infection. Eurasian J For Res 11: 1-39.
080611 Makoto Watanabe [Plantation paractics may induce global warming?! Topics of Methane emission] †
- Frank Keppler, John T. G. Hamilton, Marc Braβ and Thomas Rockmann (2006) Methane emissions from terrestrial plants under aerobic conditions. Nature 439: 187-191.
- Frank Keppler, John T. G. Hamilton, W. Colin McRoberts?, Ivan Vigano, Marc Braß and Thomas Rockmann (2008)
Methoxyl groups of plant pectin as a precursor of atmospheric methane: evidence from deuterium labelling studies. New phytol 178: 808-814.
080620 Satoshi Kitaoka [Nitrogen utilization in conifers] †
- Warren and Adams(2004)Evergreen trees do not maximize instantaneous photosynthesis, Trends in Plant Science 9:270-274
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