* Koike, Takayoshi [#o217602b]
 #contents
 ** Speciality [#j9dc3d92]
 - Forest Ecophysiology, Forest Rehabilitation;~
 +Photosynthesis of woody plants with special refenences to leaf anatomical structure
 Please refer to the contents of our research activities in English publication &ref(KoikeEngPub20180311.pdf);~
 and [[Research Gate>https://www.researchgate.net/profile/Takayoshi_Koike3]]
  
 - From April2017, I cannot accept any master and PhD course students due to my retirement;~
 
 #content
 ** Specialty [#j9dc3d92]
 - Forest Ecophysiology, Forest Rehabilitation; CV is referred to &ref(CV-Koike2017.pdf);~
 +Analysis on the acclimation mechanisms of woody plants to elevated O3,CO2 and high N loading
 +Physiological ecology of plant-insects interactions under changing environment
 +Photosynthesis of woody plants with special references to leaf anatomical structure
 +Physiological ecology of forest succession
 +Analysis on the acclimation mechanisms of woody plants to global warming. 
 +Physiological ecology of plant-insects interactions under changing environment
 **Teaching activities [#z6997313]
 Title of the Doctor Thesis, Mac Thesis and Bs Thesis is listed in the &ref(thesis.-Eng.pdf);
 -Title of the Doctor Thesis and Mac Thesis is listed in here: &ref(Thesis 1998~.pdf);~
 -I cannot accept master and PhD course students from April 2017, except short-term visit of researchers and overseas' 
 students (due to my job period by March 2019). 
 -Lectures for graduate school and undergraduate school are listed in the &ref(Lectures 2014.pdf);
 ** Contact [#e08526ff]
 - Fax:;+81-11-706-2517
 - Email:tkoike@for.agr.hokudai.ac.jp
 - 〒060-8589 N350, Deaprtment of Forest Science, Hokkaido University
 - Email:tkoike AT for.agr.hokudai.ac.jp, AT=@
 - 〒060-8589 N350, Department of Forest Science, Hokkaido University
 **Research Activities [#ye932f9b]
 ***International Cooperative stuidies [#cfbed030]
 We have been making cooperative research based on a bilateral agreement as follows;~
 -[[Russia>http://www.sgp.hokudai.ac.jp/SGPRussia-E.html]] (V.N.Sukachev Institute of Forest, in Krasnoyarsk; Far East State Agriculture University, Blagoveshchensk, Amur) 
 -[[China>http://www.sgp.hokudai.ac.jp/SGPChina-E.html]] (Noreast Forestry University, Harbin),
 -[[Korea>http://www.sgp.hokudai.ac.jp/SGPKorea-E.html]] (Kangwaon National University, School of Forestry Science),
 -[[Malaysia>http://www.sgp.hokudai.ac.jp/SGPMalaysia-E.html]] (Forestry Department of Sarawak);~
 These studies are dedicated to the Sustainability Governance Project (2005 - 2009), Hokkaido University, [[SGP>http://www.sgp.hokudai.ac.jp/SGP-E.html]]
 ***Selected papers [#ce547f2c]
 (1) Koike, T. (1987) Photosynthesis and expansion in leaves of the early, mid, and late successional tree species, birch, ash and maple. Photosynthetica 21:503-508.
 - [[Google scholar Citation>https://scholar.google.com/citations?user=aFd6414AAAAJ&hl=ja]]
 - ISAM: International Symposium on Agr. Mete. 2014, "J. Agr. Meteol. Vol. 71(2015) No. 3: 
 [[Special issue "Sustainable forest and crop resources production affected by air pollution: Asian perspectives>https://www.jstage.jst.go.jp/browse/agrmet/-char/ja]]"
 - Review and Boreal Forest research &ref(Koike-Review and BFS201703.pdf);~
 
 (2) Koike, T. (1988) Leaf structure and photosynthetic performance as related to the forest succession of deciduous broad-leaved trees. Plant Species Biol., 3:77-87.
 ***Research and education activities within Hokkaido University [#h9f3d244]
 Most of our research activities are carried out in Hokkaido University Forests &ref(HUF brief 014.pdf); 
 Our main activities are supported by [[IUFRO 07.00>https://www.iufro.org/science/divisions/division-7/70000/70100/noticeboard/]]. T.Koike received an [[Award of 07.00>https://www.iufro.org/science/divisions/division-7/70000/70100/70105/activities/]] of 2017
  
 ** Selected papers [#ge8ed560]
 +Koike, T., et al.(2012) [[Growth and photosynthetic responses of cuttings of a hybrid larch ('''Larix gmelinii''' var. '''japonica''' x '''L. kaempferi''') to elevated ozone and/or carbon dioxide. Asian Journal of Atmospheric Environment 6:104-110>http://www.google.co.jp/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&ved=0CCoQFjAA&url=http%3A%2F%2Fasianjae.org%2Fdownload_jnr.php%3Fno%3D98&ei=oQdJU8inJM_e8AWHqYH4Cw&usg=AFQjCNFaWHfdFM0bqM7Q5QYPhTdOTlw-XA&sig2=qdT4pl6zhTaHnvpQYVl1Mw&bvm=bv.64542518,d.dGc]].
 +Koike, T. (2009) A trial of revegetation practices with larch species under changing environment. Landscape and Ecological Engineering 5: 97-98 (-167). [[LEE Special issure>http://www.agr.hokudai.ac.jp/fres/silv/index.php?LEE%20special%20issue]]
 +Koike, T. et al. (2006) Defense characteristics of seral deciduous broad-leaved tree seedlings grown under differing levels of CO2 and nitrogen. Population Ecology 48: 23-29.
 +Kitaoka, S. and Koike, T. (2004) Invasion of broadleaf tree species into a larch plantation: Seasonal light environment, photosynthesis, and nitrogen allocation.Physiol. Plant., 121: 604-611. 
 +Koike, T., Kitao, M., Maruyama, Y., Mori, S., and Lei, T.T. (2001) Leaf morphology and photosynthetic adjustments among deciduous broad-leaved trees within the vertical canopy profile. Tree Physiol., 21: 951-958.
 +Kitao, M., Lei, T.T., Koike, T., Tobita, H. and Maruyama, Y. (2000) Susceptibility to photoinhibition of three deciduous broadleaf tree species with different successional traits raised under various light regimes. Plant Cell Environ., 23: 81-89.
 +Rousi, M., Mattson, W.J., Tahvanainen, J., Koike, T., and Uotila, I. (1996) Growth and hare resistance of birches: testing defense theories. Oikos 77:20-30. 
 +Koike, T. (1995) Effects of CO2 in interaction with temperature and soil fertility on the foliar phenology of alder, birch, and maple seedlings. Can. J. Bot., 73 :149-157.
 +Koike, T.(1990) Autumn coloring, photosynthetic performance and leaf development of deciduous broad-leaved trees in relation to forest succession. Tree Physiol., 7:21-32.
 +Koike, T. (1988) Leaf structure and photosynthetic performance as related to the forest succession of deciduous broad-leaved trees. Plant Species Biol., 3:77-87.
 +Koike, T. (1987) Photosynthesis and expansion in leaves of the early, mid, and late successional tree species, birch, ash and maple. Photosynthetica 21:503-508.
 
 (3) Koike, T.(1990) Autumn coloring, photosynthetic performance and leaf development of deciduous broad-leaved trees in relation to forest succession. Tree Physiol., 7:21-32.
 **Contributions to book chapter in English[#la4ba565]
 All contributions &ref(EngBook chapter.pdf);~  
 +Koike T, Hikosaka K, Kitao M, Agthokleous E, Watanabe Y, Yoko Watanabe Y,Watanabe M, Eguchi N, Funada R (2018)
 Morphological and photosynthetic responses to increasing CO2, In  William W Adams III and Ichiro Terashima (eds)
 The Leaf:  A Platform for Performing Photosynthesis and Feeding the Plant, (in press) 
 +Yamaguchi, T., Watanabe, M., Noguchi, I. and Koike, T. (2017) Tree decline at the somma of Lake Mashu in northern Japan. Air pollution impacts on plant in East Asia (Izuta, T. ed.), Springer Japan, Tokyo, 135-150. DOI: 10.1007/978-4-431-56438-6_9;~
 +Watanabe, M., Hoshika, Y., Koike, T. and Izuta, T. (2017) Combined effects of ozone and other environmental factors on Japanese trees. Air pollution impacts on plant in East Asia (Izuta, T. ed.), Springer Japan, Tokyo, 101-110. DOI: 10.1007/978-4-431-56438-6_6;~
 +Watanabe, M., Hoshika, Y., Koike, T. and Izuta, T. (2017) Effects of ozone on Japanese trees. Air pollution impacts on plant in East Asia (Izuta, T. ed.), Springer Japan, Tokyo, 73-100. DOI: 10.1007/978-4-431-56438-6_5
 +Koike, T., Watanabe, M., Hoshika, Y., et al.(2013) Effects of ozone on forest ecosystems in Easr and Southeast Asia. In: Matyssek, R., -- E. Paoletti eds.) Climate Change, Air Pollution and Global Challenges. Elsevier Pub. 371-390.
 +Koike, T. (2012) Silviculture and Forest ecology in a changing environment. In: Agricultural Sciences for Human Sustainability, Kaiseisha, Ohtsu, 121-122.
 +Koike, T. et al. (2010) Photosynthetic characteristics of trees and shrubs grown at north- and south-facing slopes in central Siberia. , 273-288, (eds. A. Osawa et al.), Springer-V. [[Permafrost Ecosystem>http://www.springer.com/life+sciences/ecology/book/978-1-4020-9692-1]];~
 Others 5 chapters. (Seasonal changes in stem radial growth of Larix gmelinii in central Siberia in relation to its climate responses, Characteristics of larch forests in Daxingan Mountains, Northeast China. Carbondynamics of larch plantations in northeastern China and Japan, The role of ectomycorrhiza in boreal forest ecosystem, Effects of elevated CO2 on ecophysiological responses of larch species native to Northeast Eurasia.)
 +Koike, T., Matsuki, S., Tobita, H., Shibata, T., Kitao, M., Qu. L.Y., Choi, D.S., Konno, K., ns Maruyama, Y. (2006)  “Defense characteristics of seedlings of '''Betula platyphylla''' var. '''japonica''' grown under different levels of CO2 and soil fertility” In:Tree Sap III, Terazawa, M. ed. Hokkaido University Press, Sapporo, 133-140.
 +Yazaki, K., Maruyama, Y., Mori, S., Koike, T. and Funada, R. (2005) Effects of elevated carbon dioxide concentration on wood structure and formation in trees, Plant responses to air pollution and global change. (eds. Omasa, K. Nouchi, I. De Kok, L J.), Springer Tokyo, pp 89-97.
 +Koike, T., Kitaoka, S., Ichie, T., Lei, T.T. and Kitao, M. (2004) Photosynthetic characteristics of mixed broadleaf forests from leaf to stand.  In: Shiomi, M. and Kawahata, H. eds. Global Environmental Change in the Ocean and on land. TerraPub, Tokyo 453-472.
 +Koike, T. (2004) Autumn coloration, carbon acquisition, and leaf senescence. Eds: L.D. Nooden: Plant Cell Death Processes. Elsevier-Academic Press. Amsterdam, San Diego. 245-258.
 +Schulze, E-D., Bazzaz, F.A., Nadelhoffer, K., Koike, T. and Takatsuki, S. (1996) SCOPE Series. Functional roles of biodiversity: A global perspective. Mooney, H.A., Cushman, J.H., Medina, E., eds. “Biodiversity and ecosystem function of temperate deciduous broad-leaved forests” Jone Wiler & Sons, Chichester, New York, Shingapore,. 71-98.
 +Reich, P.B., Koike, T, Gower, S.T. and Schoetlle, A (1995) Ecophysiology of coniferous forests. W.K. Smith and T.M. Hinkley eds. “Causes and consequences of variation in conifer leaf life-span”, Academic Press, San Diego, 225-254.
 +Koike, T. (1995) Vegetation Science in Forestry: Global Perspective based on Forest Ecosystems of East & Southeast Asia. E.O. Box et al. eds., “Physiological ecology of the growth characteristics of Japanese mountain birch in northern Japan: a comparison with Japanese mountain white birch”, Kluwer Academic Publishers, The Netherlands, 409-422.
 
 (4) Koike, T. (1995) Effects of CO2 in interaction with temperature and soil fertility on the foliar phenology of alder, birch, and maple seedlings. Can. J. Bot., 73 :149-157.
 ** [[go to top>http://www.agr.hokudai.ac.jp/fres/silv/index.php?index_e]] [#z9d07831]
 
 (5) Rousi, M., Mattson, W.J., Tahvanainen, J., Koike, T., and Uotila, I. (1996) Growth and hare resistance of birches: testing defense theories. Oikos 77:20-30. 
 
 (6) Koike, T., Tabuchi, R., Mori. S., Takahashi, K.. and Lei, T.T. (1998) Characteristics of the light response in seedlings and saplings of two mid successional species, ash and kalopanax, during the early stage of regeneration in a mature forest. J. Sustanable For., 6: 73-84
 
 (7) Kitao, M., Lei, T.T., Koike, T., Tobita, H. and Maruyama, Y. (2000) Susceptibility to photoinhibition of three deciduous broadleaf tree species with different successional traits raised under various light regimes. Plant Cell Environ., 23: 81-89.
 
 (8) Koike, T., Kitao, M., Maruyama, Y., Mori, S., and Lei, T.T. (2001) Leaf morphology and photosynthetic adjustments among deciduous broad-leaved trees within the vertical canopy profile. Tree Physiol., 21: 951-958.
 
 (9) Kitaoka, S. and Koike, T. (2004) Invasion of broadleaf tree species into a larch plantation: Seasonal light environment, photosynthesis, and nitrogen allocation.Physiol. Plant., 121: 604-611. 
 
 (10) Koike, T. et al. (2006) Defense characteristics of seral deciduous broad-leaved tree seedlings grown under differing levels of CO2 and nitrogen. Population Ecology 48: 23-29.
 
 - List of Publication (English) &ref(KoikeEngPub.pdf);:
 
 
 ***Contributions to book chapter [#la4ba565]
 (1) Koike, T. (1995) Vegetation Science in Forestry: Global Perspective based on Forest Ecosystems of East & Southeast Asia. E.O. Box et al. eds., “Physiological ecology of the growth characteristics of Japanese mountain birch in northern Japan: a comparison with Japanese mountain white birch”, Kluwer Academic Publishers, The Netherlands, 409-422.
 
 (2) Reich, P.B., Koike, T, Gower, S.T. and Schoetlle, A (1995) Ecophysiology of coniferous forests. W.K. Smith and T.M. Hinkley eds. “Causes and consequences of variation in conifer leaf life-span”, Academic Press, San Diego, 225-254.
 
 (3) Schulze, E-D., Bazzaz, F.A., Nadelhoffer, K., Koike, T. and Takatsuki, S. (1996) SCOPE Series. Functional roles of biodiversity: A global perspective. Mooney, H.A., Cushman, J.H., Medina, E., eds. “Biodiversity and ecosystem function of temperate deciduous broad-leaved forests” Jone Wiler & Sons, Chichester, New York, Shingapore,. 71-98.
 
 (4) Koike, T. (2004) Autumn coloration, carbon acquisition, and leaf senescence. Eds: L.D. Nooden: Plant Cell Death Processes. Elsevier-Academic Press. Amsterdam, San Diego. 245-258.
 
 (5) Koike, T., Kitaoka, S., Ichie, T., Lei, T.T. and Kitao, M. (2004) Photosynthetic characteristics of mixed broadleaf forests from leaf to stand.  In: Shiomi, M. and Kawahata, H. eds. Global Environmental Change in the Ocean and on land. TerraPub, Tokyo 453-472.
 
 (6) Yazaki, K., Maruyama, Y., Mori, S., Koike, T. and Funada, R. (2005) Effects of elevated carbon dioxide concentration on wood structure and formation in trees, Plant responses to air pollution and global change. (eds. Omasa, K. Nouchi, I. De Kok, L J.), Springer Tokyo, pp 89-97.
 
 (7) Koike, T., Matsuki, S., Tobita, H., Shibata, t., Kitao, m., Qu. L.Y., Choi, D.S., Konno, K., ns Maruyama, Y. (2006)  “Defense characteristics of seedlings of '''Betula platyphylla''' var. '''japonica''' grown under different levels of CO2 and soil fertility” In:Tree Sap III, Terazawa, M. ed. Hokkaido University Press, Sapporo, 133-140.
 

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Koike Takayoshi のバックアップの現在との差分(No.6)