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  • Adati S (1958) Studies on the Miscanthus genus with special reference to the Japanese species suitable for breeding purposes as fodder crops. Bulletin of the Faculty of Agriculture, Mie University, 12, 1112 (in Japanese with English summary).
  • Adati S, Shiotani I (1962) The cytotaxonomy of the genus Miscanthus and its phylogenic status. Bulletin of the Faculty of Agriculture, Mie University, 25, 124.
  • Al-Janabi SM, McClelland M, Petersen C, Sobral BWS (1994) Phylogenetic analysis of organellar DNA-sequences in the Andropogoneae: Saccharinae. Theoretical and Applied Genetics, 88, 933944.
  • An G-H, Miyakawa S, Kawahara A, Osaki M, Ezawa T (2008) Community structure of arbuscular mycorrhizal fungi associated with pioneer grass species Miscanthus sinensis in acid sulfate soils: habitat segregation along pH gradients. Soil Science & Plant Nutrition, 54, 517528.
  • Anten NPR, Hirose T (1999) Interspecific differences in above-ground growth patterns result in spatial and temporal partitioning of light among species in a tall-grass meadow. Journal of Ecology, 87, 583597.
  • Aonuma K (1970) On the competition between planted trees and Japanese pampas grass (Miscanthus sinensis Anderss) I. The growth of sugi (Cryptomeria japonica D. Don) forest trees according to the invasion of Japanese pampas grass, and the response to fertilization. Journal of the Japanese Forestry Society, 2, 3540 (in Japanese with English summary).
  • APHIS, United States Department of Agriculture (2006) Federal noxious weed list. Available at http://www.aphis.usda.gov/plant_health/plant_pest_info/weeds/downloads/weedlist2006.pdf. Accessed 31 March 2009.
  • Arduini I, Masoni A, Mariotti M, Ercoli L (2004) Low cadmium application increase miscanthus growth and cadmium translocation. Environmental and Experimental Botany, 52, 89100.
  • Arduini I, Ercoli L, Mariotti M, Masoni A (2006a) Response of miscanthus to toxic cadmium applications during the period of maximum growth. Environmental and Experimental Botany, 55, 2940.
  • Arduini I, Masoni A, Ercoli L (2006b) Effects of high chromium applications on miscanthus during the period of maximum growth. Environmental and Experimental Botany, 58, 234243.
  • Artnzen S (1997) The Kagero Diary. University of Michigan Press, Ann Arbor, MI.
  • Aso T (1976) Studies on the germination of seeds of Miscanthus sinensis Anderss. Science Reports of the Yokohama National University. Section II, Biological and Geological sciences, 23, 2737.
  • Atienza SG, Satovic Z, Petersen KK, Dolstra O, Martin A (2002) Preliminary genetic linkage map of Miscanthus sinensis with RAPD markers. Theoretical and Applied Genetics, 105, 946952.
  • Azuma S (1976) Biological studies of the sugar cane cicada, Mogannia minuta Matsumura, with special reference to its occurrence in relation to changes of commercial sugar cane varieties in Okinawa. The Science Bulletin of the Faculty of Agriculture, University of the Ryukyus, 23, 125140 (in Japanese with English summary).
  • Barney JN, DiTomaso JM (2008) Nonnative species and bioenergy: are we cultivating the next invader? Bioscience, 58, 6470.
  • Beale CV, Long SP (1995) Can perennial C4 grasses attain high efficiencies of radiant energy conversion in cool climates? Plant, Cell & Environment, 18, 641650.
  • Beale CV, Long SP (1997) Seasonal dynamics of nutrient accumulation and partitioning in the perennial C4-grasses Miscanthus×giganteus and Spartina cynosuroides. Biomass & Bioenergy, 12, 419428.
  • Bellamy PE, Croxton PJ, Heard MS et al. (2009) The impact of growing miscanthus for biomass on farmland bird populations. Biomass & Bioenergy, 33, 191199.
  • Beuch S, Boelcke B, Belau L (2000) Effect of the organic residues of Miscanthus×giganteus on the soil organic matter level of arable soils. Journal of Agronomy and Crop Science, 184, 111119.
  • Böhm W (1979) Methods of Studying Root Systems. Springer-Verlag, Berlin.
  • Bremner J (1997) Sources of nitrous oxide in soils. Nutrient Cycling in Agroecosystems, 49, 716.
  • Cadotte MW, Mai DV, Jantz S, Collins MD, Keele M, Drake JA (2006) On testing the competition-colonization trade-off in a multispecies assemblage. American Naturalist, 168, 704709.
  • Castellanos EM, Figueroa ME, Davy AJ (1994) Nucleation and facilitation in saltmarsh succession: interactions between Spartina maritima and Arthrocnemum perenne. Journal of Ecology, 82, 239248.
  • Chen SL, Renvoize SA (2006) Miscanthus. Flora of China, 22, 581583.
  • Chiang Y-C, Schaal BA, Chou C-H, Huang S, Chiang T-Y (2003) Contrasting selection modes at the Adh1 locus in outcrossing Miscanthus sinensis vs. inbreeding Miscanthus condensatus (Poaceae). American Journal of Botany, 90, 561570.
  • Chiba S (1969) Stomach analysis of Japanese woodpeckers. Journal of the Yamashina Institute for Ornithology, 5, 487510 (in Japanese with English summary).
  • Chou CH, Lee RT (1991) An ecological study on Miscanthus in Yangmingshan National Park. Construction and Planning Administration, Ministry of the Interior, Taipei, Taiwan.
  • Chou C-H, Chiang Y-C, Chiang T-Y (1999) Within- and between-individual length heterogeneity of the rDNA-IGS in Miscanthus sinensis var. glaber (Poaceae): phylogenetic analyses. Genome, 42, 10881093.
  • Chou C-H, Chiang Y-C, Chiang T-Y (2000) Genetic variability and phytogeography of Miscanthus sinensis var. condensatus, an apomictic grass, based on RAPD fingerprints. Canadian Journal of Botany, 78, 12621268.
  • Christian DG, Yates NE, Riche AB (2003) Evaluating Grasses as a Long-Term Energy Resource. Department of Trade and Industry, Oxfordshire, UK.
  • Christian DG, Yates NE, Riche AB (2005) Establishing Miscanthus sinensis from seed using conventional sowing methods. Industrial Crops and Products, 21, 109111.
  • Christian DG, Poulton PR, Riche AB, Yates NE, Todd AD (2006) The recovery over several seasons of 15N -labelled fertilizer applied to Miscanthus×giganteus ranging from 1 to 3 years old. Biomass & Bioenergy, 30, 125133.
  • Christian DG, Riche AB, Yates NE (2008) Growth, yield and mineral content of Miscanthus×giganteus grown as a biofuel for 14 successive harvests. Industrial Crops and Products, 28, 320327.
  • Chung C, Sugawara K, Nishiwaki A, Ito I (1991) Study of phosphorus in wild grassland: differences of P-cycle between perennial and annual plants. Proceedings of the Japanese Journal of Grassland Science, 37, 5354 (in Japanese).
  • Clifton-Brown JC, Lewandowski I (2002) Screening Miscanthus genotypes in field trials to optimise biomass yield and quality in Southern Germany. European Journal of Agronomy, 16, 97110.
  • Clifton-Brown JC, Lewandowski I, Andersson B et al. (2001) Performance of 15 Miscanthus genotypes at five sites in Europe. Agronomy Journal, 93, 10131019.
  • Clifton-Brown JC, Lewandowski I, Bangerth F, Jones MB (2002) Comparative responses to water stress in stay-green, rapid- and slow senescing genotypes of the biomass crop, Miscanthus. New Phytologist, 154, 335345.
  • Clifton-Brown JC, Breur J, Jones MB (2007) Carbon mitigation by the energy crop, Miscanthus. Global Change Biology, 13, 22962307.
  • Clifton-Brown J, Chiang Y-C, Hodkinson TR (2008) Miscanthus: genetic resources and breeding potential to enhance bioenergy production. In: Genetic Improvement of Bioenergy Crops (ed. VermerrisW), pp. 273294. Springer, New York.
  • Cook J, Beyea J (2000) Bioenergy in the United States: progress and possibilities. Biomass & Bioenergy, 18, 441455.
  • D'Antonio CM, Vitousek PM (1992) Biological invasions by exotic grasses, the grass/fire cycle, and global change. Annual Review of Ecology and Systematics, 23, 6387.
  • Daniels J, Roach BT (1987) Taxonomy and evolution. In: Sugarcane improvement through breeding (ed. HeinzDJ), pp. 784. Elsevier, Amsterdam.
  • Daubenmire R (1968) Ecology of fire in grasslands. Advances in Ecological Research, 5, 209266.
  • De Deyn GB, Raaijmakers CE, Zoomer HR et al. (2003) Soil invertebrate fauna enhances grassland succession and diversity. Nature, 422, 711713.
  • Endo S, Eguchi N, Saito T, Shoji T (1985) Ecology and control of the rice water weevil, Lissorhoptrus oryzophilus Kuschel, in Yamagata prefecture. 3. Research on the host plants of the rice water weevil, and behavior of the adult in the paddy field. Bulletin of the Yamagata Agricultural Experiment Station, 19, 6166 (in Japanese).
  • Ezaki B, Nagao E, Yamamoto Y, Nakashima S, Enomoto T (2008) Wild plants, Andropogon virginicus L. and Miscanthus sinensis Anders, are tolerant to multiple stresses including aluminum, heavy metals and oxidative stresses. Plant Cell Reports, 27, 951961.
  • Farrell AD, Clifton-Brown JC, Lewandowski I, Jones MB (2006) Genotypic variation in cold tolerance influences the yield of Miscanthus. Annals of Applied Biology, 149, 337345.
  • Foereid B, De Neergaard A, Hogh-Jensen H (2004) Turnover of organic matter in a Miscanthus field: effect of time in Miscanthus cultivation and inorganic nitrogen supply. Soil Biology & Biochemistry, 36, 10751085.
  • Fujita K (1977) Wing form composition in the field population of the two species of lygaeid bugs, Dimorphopterus pallipes and D. japonicus, and its relation to environmental conditions. Japanese Journal of Ecology, 27, 263267 (in Japanese with English summary).
  • FukuiE (ed.) (1977) The Climate of Japan. Elsevier Science, Amsterdam.
  • Funatsu Y (2006) A study of the role of arbuscular mycorrhizae on a coastal sand dune and a solfatara field. Journal of the Graduate School of Biosphere Science, Hiroshima University, 45, 9899 (in Japanese).
  • Gatsuk LE, Smirnova OV, Vorontzova LI, Zaugolnova LB, Zhukova LA (1980) Age states of plants of various growth forms: a review. Journal of Ecology, 68, 675696.
  • Hallam A, Anderson IC, Buxton DR (2001) Comparative economic analysis of perennial, annual, and intercrops for biomass production. Biomass & Bioenergy, 21, 407424.
  • Hansen EM, Christensen BT, Jensen LS, Kristensen K (2004) Carbon sequestration in soil beneath long-term Miscanthus plantations as determined by 13C abundance. Biomass & Bioenergy, 26, 97105.
  • Hara H (1938) Preliminary report on the flora of southern Hidaka, Hokkaido (Tezo) XXIX. The Botanical Magazine, 52, 283290.
  • Hartmann HT, Kester DE, Davies FT, Geneve RL (2002) Hartmann and Kester's Plant Propagation: Principles and Practices. Prentice Hall, Upper Saddle River, NJ.
  • Hasegawa H (1978) Recent observations of the short-tailed albatross Diomedea albatrus on Torishima. Journal of the Yamashina Institute for Ornithology, 10, 5869.
  • Haugen AO, Fitch FW Jr. (1955) Seasonal availability of certain bush lespedeza and partridge pea seed as determined from ground samples. The Journal of Wildlife Management, 19, 297301.
  • Hayashi I (1979) The autecology of some grassland species. In: Ecology of Grasslands and Bamboolands in the World (ed. NumataM), pp. 141152. VEB Gustav Fischer Verlag, Jena, Germany.
  • Hayashi I (1994) Experimental community ecology in Miscanthus sinensis grassland – change of species composition according to mowing frequency. Japanese Journal of Ecology, 44, 161170 (in Japanese with English summary).
  • Hayashi K, Isawa T (1975) A study on the grazing capacity of Miscanthus sinensis grassland in the Kawatabi Farm. In: Ecological Studies in Japanese Grasslands with Special Reference to the IBP Area. Productivity of Terrestrial Communities (ed. NumataM), pp. 172177. University of Tokyo Press, Tokyo.
  • Hayashi I, Numata M (1971) Viable buried-seed population in the Miscanthus- and Zoysia type grasslands in Japan – ecological studies on the buried-seed population in the soil related to plant succession IV. Japanese Journal of Ecology, 20, 243252.
  • Hayashi K, Shimada Y, Izawa T, Ojima K (1968) Studies on beef production from pasture. V. Dynamics of vegetation in native grassland by grazing. Japanese Society of Animal Science, 39, 200205 (in Japanese with English summary).
  • Hayashi I, Hishinuma Y, Yamasawa T (1981) Structure and functioning of Miscanthus sinensis grassland in Sugadaira, central Japan. Vegetatio, 48, 1725.
  • Heaton E, Voigt T, Long SP (2004) A quantitative review comparing the yields of two candidate C4 perennial biomass crops in relation to nitrogen, temperature and water. Biomass & Bioenergy, 27, 2130.
  • Heaton EA, Dohleman FG, Long SP (2008) Meeting US biofuel goals with less land: the potential of Miscanthus. Global Change Biology, 14, 20002014.
  • Hill J, Nelson E, Tilman D, Polasky S, Tiffany D (2006) Environmental, economic, and energetic costs and benefits of biodiesel and ethanol biofuels. Proceedings of the National Academy of Sciences, 103, 1120611210.
  • Himken M, Lammel J, Neukirchen D, Czypionka-Krause U, Olfs HW (1997) Cultivation of Miscanthus under West European conditions: seasonal changes in dry matter production, nutrient uptake and remobilization. Plant and Soil, 189, 117126.
  • Hirata M, Hasegawa N, Nobami K, Sonoda T (2007) Evaluation of forest grazing as a management practice to utilize and control Miscanthus sinensis in a young tree plantation in southern Kyushu, Japan. Grassland Science, 53, 181191.
  • Hirayoshi I, Nishikawa K, Kato R (1955) Cytogenetical studies on forage plants. (IV) Self-incompatability in Miscanthus. Japanese Journal of Breeding, 5, 167170 (in Japanese with English summary).
  • Hirayoshi I, Nishikawa K, Hakura A (1960) Cytogenetical studies on forage plants. VIII. 3x- and 4x-hybrids arisen from the cross, Miscanthus sinensis var. condensatus×M. sacchariflorus. Research Bulletin of the Faculty of Agriculture, Gifu University, 12, 8288 (in Japanese with English summary).
  • Honda M (1939) New report of plants in Japan XXXVIII. The Botanical Magazine, 53, 144 (in Japanese).
  • Horie H, Nemoto M (1990) Effects of soil pH and aluminium on the growth of Miscanthus sinensis. Weed Research, Japan, 35, 292295 (in Japanese).
  • Hoshino S (1978) Futurity of Miscanthus use for crops and its role in field utilization. Journal of the Niigata Agricultural Research Institute, 27, 19.
  • Hung KH, Chiang T-Y, Chiu CT, Hsu TW, Ho CW (2008) Isolation and characterization of microsatellite loci from a potential biofuel plant Miscanthus sinensis (Poaceae). Conservation Genetics, doi: DOI: 10.1007/s10592-008-9699-6.
  • Hurek T, Reinhold-Hurek B (2003) Azoarcus sp. strain BH72 as a model for nitrogen-fixing grass endophytes. Journal of Biotechnology, 106, 169178.
  • Hütsch BW, Webster CP, Powlson DS (1993) Long-term effects of nitrogen-fertilization on methane oxidation in soil of the broadbalk wheat experiment. Soil Biology & Biochemistry, 25, 13071315.
  • Igarashi R (1975) Arthropod fauna. In: Ecological Studies in Japanese Grasslands with Special Reference to the IBP Area. Productivity of Terrestrial Communities (ed. NumataM), pp. 227237. University of Tokyo Press, Tokyo.
  • Iketani Y, Ida H (2008) Flora of the grassland producing roof material in northern Nagano Prefecture, central Japan. Bulletin of the Institute of Nature Education in Shiga Heights, Shinshu University, 45, 16 (in Japanese with English summary).
  • Imura O, Shi K (2004) Conservation of biodiversity in grasslands with special reference to butterflies. Agriculture and Horticulture, 79, 352357 (in Japanese).
  • Inoue T (2003) Chronosequential change in a butterfly community after clear-cutting of deciduous forests in a cool temperate region of central Japan. Entomological Science, 6, 151163.
  • Itano S, Tsutsumi M, Sakanoue S, Nakagami K, Sawamura A, Sumida N, Inoue H (2008) Vegetation succession and production of Miscanthus sinensis grassland at Fujinita Experimental Station in the northern Kanto District of Japan. Study on the movement in grassland, 7th interim report (in Japanese).
  • Ito Y, Shiotani I (2007) A variety of Gramineae airborne pollens in the middle area in Mie Prefecture. (3) The sources of grass pollen in late summer and autumn. Japanese Journal of Palynology, 53, 1928 (in Japanese with English abstract).
  • Ito S, Ishigami S, Mizoue N, Buckley GP (2006) Maintaining plant species composition and diversity of understory vegetation under strip-clearcutting forestry in conifer plantations in Kyushu, southern Japan. Forest Ecology and Management, 231, 234241.
  • Itow S (1962) Grassland vegetation in uplands of western Honshu, Japan. Part I. Distribution of grassland. Japanese Journal of Ecology, 12, 123129.
  • Iwaki H, Midorikawa B (1964) Biomass in Miscanthus sinensis grassland in Nishime Village. Grassland Ecology, 5, 2952 (in Japanese).
  • Iwaki H, Midorikawa B (1968) Principles for estimating root production in herbaceous perennials. In: Methods of Productivity Studies in Root Systems and Rhizosphere Organisms (ed. GhilarovMS), pp. 7278. Nauka, Leningrad.
  • Iwaki H, Midorikawa B, Hogetsu K (1964) Studies on the productivity and nutrient element circulation in Kiragamine Grassland, central Japan. II. Seasonal change in standing crop. Botanical Magazine, Tokyo, 77, 447457.
  • Iwata E (1971) Ecological studies on the secondary vegetation of Kitakami Mountain Range, with special reference to grassland vegetation. Research Bulletin of the Faculty of Agriculture, Gifu University, 30, 288430 (in Japanese with English summary).
  • Iwata H, Kamijo T, Tsumura Y (2005) Genetic structure of Miscanthus sinensis ssp. condensatus (Poaceae) on Miyake Island: implications for revegetation of volcanically devastated sites. Ecological Research, 20, 233238.
  • Jinno N, Umeno M (1995) Soil properties at habitats of gramineous plants (Phragmites communis, P. japonica, Phacelurus latifolius, Miscanthus sacchariflorus, M. sinensis) on Honmyo River water system in Isahaya City, Nagasaki Prefecture. Science Bulletin of the Faculty of Education, Nagasaki University, 53, 1926 (in Japanese).
  • JonesMB, WalshM (eds) (2001) Miscanthus for Energy and Fibre. James & James, London.
  • Jørgensen U (1997) Genotypic variation in dry matter accumulation and content of N, K and Cl in Miscanthus in Denmark. Biomass & Bioenergy, 12, 155169.
  • Jørgensen U, Muhs HJ (2001) Miscanthus breeding and improvement. In: Miscanthus for Energy and Fibre (eds JonesMB, WalshM), pp. 6885. James & James, London.
  • Jørgensen RN, Jørgensen BJ, Nielsen NE, Maag M, Lind A-M (1997) N2O emission from energy crop fields of Miscanthus“Giganteus” and winter rye. Atmospheric Environment, 31, 28992904.
  • Kahle P, Beuch S, Boelcke B, Leinweber P, Schulten HR (2001) Cropping of Miscanthus in Central Europe: biomass production and influence on nutrients and soil organic matter. European Journal of Agronomy, 15, 171184.
  • Kaseda Y (1983a) Seasonal changes in the home range and the size of harem groups of Misaki horses. Japanese Journal of Zootechnology Science, 54, 254262.
  • Kaseda Y (1983b) Seasonal changes in time spent grazing and resting of Misaki horses. Japanese Society of Animal Science, 7, 464469.
  • Kawakami T (1900) A list of plants collected in the Island of Rishiri. The Botanical Magazine, 14, 106109.
  • Kawamura K (1950) On soil classification. Agriculture and Horticulture, 25, 1114 (in Japanese).
  • Kawana A, Katori M, Sugiura T, Tanaka S (1966) Study on the chemical control of weeds and trees. V. Early spring application of DPA, ATA, and TCA on susuki (Miscanthus sinensis). Journal of the Japanese Forestry Society, 48, 16 (in Japanese with English summary).
  • Kawana A, Sugimoto B, Sugiura T (1967) Study of the chemical control of weeds and trees (XIV): treatment with DPA on susuki (Miscanthus sinensis). Journal of the Japanese Forestry Society, 49, 187191 (in Japanese with English summary).
  • Kawanabe Y (1973) Artificial grassland. In: Ecology of grassland (ed. NumataM), pp. 92106. Tsukigishokan, Tokyo (in Japanese).
  • Kawazu K, Setokuchi O, Kohno K, Takahashi K, Yoshiyasu Y, Tatsuki S (2001) Sex pheromone of the rice leaffolder moth, Cnaphalocrocis medinalis (Lepidoptera: Crambidae): synthetic Indian and Philippine blends are not attractive to male C. medinalis, but are attractive to C. pilosa in the South-Western islands in Japan. Applied Entomology and Zoology, 36, 471474.
  • Kayama M (2001) Comparison of the aluminum tolerance of Miscanthus sinensis Anderss. and Miscanthus sacchariflorus Bentham in hydroculture. International Journal of Plant Sciences, 162, 10251031.
  • Kayama R, Okajima T, Yokota H, Ohshima M (1993) Productivity in Miscanthus sinensis grassland in Tonomine. Grassland Ecology, 30, 711 (in Japanese).
  • Khanna M, Dhungana B, Clifton-Brown J (2008) Costs of producing miscanthus and switchgrass for bioenergy in Illinois. Biomass & Bioenergy, 32, 482493.
  • Kitahara M, Sei K (2001) A comparison of the diversity and structure of butterfly communities in semi-natural and human-modified grassland habitats at the foot of Mt. Fuji, central Japan. Biodiversity and Conservation, 10, 331351.
  • Knecht P (2007) Rice: representations and reality. Asian Folklore Studies, 66, 525.
  • Knops JMH, Tilman D, Haddad NM et al. (1999) Effects of plant species richness on invasion dynamics, disease outbreaks, insect abundances and diversity. Ecology Letters, 2, 286293.
  • Kobayashi K (1981) Studies on the growth and maintenance of patch of Miscanthus sinensis Andress. Formation process of the patch and its ecological characteristics in a warm region. Journal of the Japanese Society of Grassland Science, 27, 7178 (in Japanese with English summary).
  • Kobayashi K (1983) Breeding ecology of the fantail warbler Cisticola juncidis in Hyogo Prefecture. Journal of the Yamashina Institute for Ornithology, 15, 7286 (in Japanese with English summary).
  • Kobayashi K, Yokoi Y (2001) Decreasing shoot density of isolated Miscanthus sinensis patches in the warm-temperate region of Japan. Grassland Science, 47, 460470.
  • Kobayashi K, Yokoi Y (2003a) Shoot population dynamics of persisting clones of Miscanthus sinensis in the warm-temperate region of Japan. Journal of Plant Research, 116, 443453.
  • Kobayashi K, Yokoi Y (2003b) Spatiotemporal patterns of shoots within an isolated Miscanthus sinensis patch in the warm-temperate region of Japan. Ecological Research, 18, 4151.
  • Koike K, Shoji S, Yoshida S (1975) Aboveground biomass and litter in the Miscanthus sinensis community. In: Ecological Studies in Japanese Grasslands with Special Reference to the IBP Area. Productivity of Terrestrial Communities (ed. NumataM), pp. 141147. University of Tokyo Press, Tokyo.
  • Kojima N, Noki K, Nishimiya K, Kuranaka S, Mori M (1994) Complete Works of Japanese Literature: Nihon Shoki (ed. WatanabeS), Shogokukan Inc., Tokyo (in Japanese).
  • Kojima T, Hayashi H, Saito M (2007) Community of arbuscular mycorrhizal fungi in Japanese semi-natural grassland dominated by Pleioblastus chino and Miscanthus sinensis. Grassland Science, 53, 111119.
  • Konno Y (2004) Artificial diets for the rice grasshopper, Oxya yezoensis Shiraki (Orthoptera: Catantopidae). Applied Entomology and Zoology, 39, 631634.
  • Koyama T (1987) Grasses of Japan and Its Neighboring Regions: An Identification Manual. Kodansha Ltd, Tokyo.
  • Koyanagi T, Kusumoto Y, Yamamoto S, Ohkuro T, Ide M, Takeuchi K (2007) Comparison of the species compositions between past and present semi-natural Miscanthus sinensis grassland in the Kanto Plain. Journal of the Japanese Institute of Landscape Architecture, 70, 439444 (in Japanese with English summary).
  • Koyanagi T, Kusumoto Y, Yamamoto S, Takeuchi K (2008) Comparison of the relationships between seed bank and species compositions of Miscanthus sinensis grassland located on different topographical conditions. Journal of the Japanese Institute of Landscape Architecture, 71, 589592 (in Japanese with English summary).
  • Kusano S (1903) Notes on Aeginetia indica, Linn. The Botanical Magazine, 195, 8184.
  • Lafferty J, Lelley T (1994) Cytogenetic studies of different Miscanthus species with potential for agricultural use. Plant Breeding, 113, 246249.
  • Lee YN (1964) Taxonomic studies on the genus Miscanthus II. Anatomical patterns of leaves. Botanical Magazine, Tokyo, 77, 122130.
  • Lee I-S, Kim OK, Chang Y-Y, Bae B, Kim HH, Baek KH (2002) Heavy metal concentrations and enzyme activities in soil from a contaminated Korean shooting range. Journal of Bioscience and Bioengineering, 94, 406411.
  • LewandowskiI, Clifton-BrownJC (eds) (2000) European Miscanthus Improvement project, FAIR3 CT-96-1392, 260 pp.
  • Lewandowski I, Schmidt U (2006) Nitrogen, energy and land use efficiencies of miscanthus, reed canary grass and triticale as determined by the boundary line approach. Agriculture, Ecosystems & Environment, 112, 335346.
  • Lewandowski I, Clifton-Brown JC, Scurlock JMO, Huisman W (2000) Miscanthus: European experience with a novel energy crop. Biomass & Bioenergy, 19, 209227.
  • Lewandowski I, Scurlock JMO, Lindvall E, Christou M (2003) The development and current status of perennial rhizomatous grasses as energy crops in the US and Europe. Biomass and Bioenergy, 25, 335361.
  • Li SG, Lai CT, Yokoyama T, Oikawa T (2003) Carbon dioxide and water vapor exchange over a Miscanthus-type grassland: effects of development of the canopy. Ecological Research, 18, 661675.
  • Lieth H, Numata M, Suganuma T (1973) Studies of the grassland vegetation in the Kawatabi Special Research Area of the Japanese IBP. Phytosociological analysis and computer simulation of the table arrangement. Vegetatio, 28, 4156.
  • Lockwood DR, Lockwood JA (2008) Grasshopper population ecology: catastrophe, criticality, and critique. Ecology and Society, 13, 18.
  • Longworth JW (1983) Beef in Japan. University of Queensland Press, Brisbane.
  • Martin JH, Waldren RP, Stamp DL (2006) Principles of Field Crop Production. Pearson Prentice Hall, Upper Saddle River, NJ.
  • Matsumoto T (1971) Estimation of population productivity of Parapleurus alliaceus Germar (Orthoptera: Acridiidae) on a Miscanthus sinensis Anders grassland. II. Population productivity in terms of dry weight. Oecologia, 7, 1625.
  • Matsumura M, Iwata E, Nakajima N (1975) Fundamental studies on artificial propagation by seeding useful wild grassed in Japan. VII. Field experiments on the seeding practices of Miscanthus sinensis and M. tinctorius, and some illustrations concerning the actual utilization of these grassed by artificial seeding. Research Bulletin of the Faculty of Agriculture, Gifu University, 38, 351357 (in Japanese).
  • Matsuo B (1996) Basho's Narrow Road: Spring and Autumn Passages. Stone Bridge Press, Berkeley.
  • Matumura M (1997) Autecology of major forage grass (15) Basic study for sustainable use. Animal Husbandry, 51, 7682 (in Japanese).
  • Matumura M (1998a) Autecology of major forage grass (18): basic study for sustainable use. Animal Husbandry, 52, 7482 (in Japanese).
  • Matumura M (1998b) Autecology of major forage grass (21): basic study for sustainable use. Animal Husbandry, 52, 717725 (in Japanese).
  • Matumura M, Iwata E (1976) Using practice of wild grass – mainly about Miscanthus sinensis. In: Study of susuki: Professor Isao Hirayoshi Memorial Volume. pp. 117121. Gifu University, Gifu, Japan (in Japanese).
  • Matumura M, Yukimura T (1975) Fundamental studies on artificial propagation by seeding useful wild grasses in Japan. VI. Germination behaviors of three native species of genus Miscanthus; M. sacchariflorus, M. sinensis, and M. tinctorius. Research Bulletin of the Faculty of Agriculture, Gifu University, 38, 339349 (in Japanese with English summary).
  • Matumura M, Hasegawa T, Saijoh Y (1985) Ecological aspects of Miscanthus sinensis var. condensatus, M. sacchariflorus, and their 3x-, 4x-hybrids (1) Process of vegetative spread. Research Bulletin of the Faculty of Agriculture, Gifu University, 50, 423433 (in Japanese with English summary).
  • Matumura M, Hakumura Y, Saijoh Y (1986) Ecological aspects of Miscanthus sinensis var. condensatus, M. sacchariflorus, and their 3x-, 4x-hybrids (2) Growth behaviour of the current year's rhizomes. Research Bulletin of the Faculty of Agriculture, Gifu University, 51, 347362 (in Japanese with English summary).
  • McLaughlin SB, Walsh ME (1998) Evaluating environmental consequences of producing herbaceous crops for bioenergy. Biomass & Bioenergy, 14, 317324.
  • Midorikawa B (1959) Growth-analytical study of altherbosa on Mt. Hakkoda, north-east Japan. Ecological Review, 15, 83117 (in Japanese).
  • Midorikawa B (1972) Production of underground part in perennial forage grass community. In: The Study of Production and Conservation of Grassland Ecosystem (ed. NumataM), pp. 102111 (in Japanese).
  • Midorikawa B (1978) Method to determine primary production. In: Handbook of Grassland Investigation (ed. NumataM), pp. 6177. University of Tokyo Press, Tokyo (in Japanese).
  • Midorikawa B, Iwaki H (1962) Net primary production in Miscanthus sinensis community in Kirigamine. Grassland Ecology, 1, 56 (in Japanese).
  • Minagawa N (1986) Description of Verutus mesoangustus n. sp. (Tylenchida, Heteroderidae) from Japan. Applied Entomology and Zoology, 21, 277282.
  • Minamizawa K (1997) Moriculture: Science of Mulberry Cultivation. CRC Press, Boca Raton, FL.
  • Ministry of Agriculture and Forestry (1959) Methods of Surveying and Measuring the Semi-Natural Grassland Vegetation. Agricultural Research Council, Tokyo (in Japanese).
  • Miyabuchi Y, Sugiyama S (2006) A 30,000-year phytolith record of a tephra sequence, east of Aso Caldera, southwestern Japan. The Quaternary Research, 45, 1528 (in Japanese with English summary).
  • Miyabuchi Y, Sugiyama S (2008) A 30,000-year phytolith record of a tephra sequence at the southwestern foot of Aso volcano, Japan. Journal of Geography, 117, 704717 (in Japanese with English summary).
  • Miyamoto T, Kawahara M, Minamisawa K (2004) Novel endophytic nitrogen-fixing clostridia from the grass Miscanthus sinensis as revealed by terminal restriction fragment length polymorphism analysis. Applied and Environmental Microbiology, 70, 65806586.
  • Mo W, Nishimura N, Soga Y, Yamada K, Yoneyama T (2004) Distribution of C3 and C4 plants and changes in plant and soil carbon isotope ratios with altitude in the Kirigamine Grassland, Japan. Grassland Science, 50, 243254.
  • Mohamed KI, Papes M, Williams R, Benz BW, Peterson AT (2006) Global invasive potential of 10 parasitic witchweeds and related Orobanchaceae. Ambio, 35, 281288.
  • Mori T (1939) Aluminum tolerance of plant. Study of Ecology, 5, 4154 (in Japanese).
  • Mori A, Enoki N, Shinozuka K, Nishino C, Fukushima M (1987) Antifungal activity of fatty acids against Pyricularia oryzae related to antifungal constituents of Miscanthus sinensis. Agricultural and Biological Chemistry, 51, 34033405.
  • Moriya A, Kondo A (1950) Cytological studies of forage plants, I. Grasses. Japanese Journal of Genetics, 25, 126131.
  • Mosier AR, Parton WJ, Valentine DW, Ojima DS, Schimel DS, Heinemeyer O (1997) CH4 and N2O fluxes in the Colorado shortgrass steppe. 2. Long-term impact of land use change. Global Biogeochemical Cycles, 11, 2942.
  • Murakoshi T, Tojo M, Walker C, Saito M (1998) Arbuscular mycorrhizal fungi on adjacent semi-natural grasslands with different vegetation in Japan. Mycoscience, 39, 455462.
  • Mutoh N, Yoshida KH, Yokoi Y, Kimura M, Hogetsu K (1968) Studies on the production processes and net production of Miscanthus sacchariflorus community. Japanese Journal of Botany, 20, 6792.
  • Mutoh N, Kimura M, Oshima Y, Iwaki H (1985) Species diversity and primary productivity in Miscanthus sinensis grasslands. 1. Diversity in relation to stand structure and dominance. Botanical Magazine, Tokyo, 98, 159170.
  • Naidu SL, Moose SP, AL-Shoaibi AK, Raines CA, Long SP (2003) Cold tolerance of C4 photosynthesis in Miscanthus×giganteus: adaptation in amounts and sequence of C4 photosynthetic enzymes. Plant Physiology, 132, 16881697.
  • Naito K, Nakagoshi N (1995) The conservation ecology of Iris rossii Baker (Iridaceae), a threatened plant in rural Japan. Journal of Plant Research, 108, 477482.
  • Nakagami K, Ide Y, Saito Y, Shimoda K (2008) Changes in vegetation and biomass in Miscanthus sinensis grassland in Kirigamine, Japan. Study on the movement in grassland, 7680 (in Japanese).
  • Nakagoshi N (1984) Buried viable seed populations in forest communities on the Hiba Mountains, southwestern Japan. Journal of Science of Hiroshima University, Series B, Division 2, 19, 156.
  • Nakamura T (1981) The breeding behaviours and territorial dispersion of Japanese reed bunting Emberiza yessoensis. Journal of the Yamashina Institute for Ornithology, 13, 79119 (in Japanese with English summary).
  • Nakamura T (1984) Seed dispersal on a landslide scar on the upper reaches of the Oi River, central Japan. Journal of the Japanese Forestry Society, 66, 375379.
  • Nakamura K, Ito Y, Nakamura M, Matsumoto T, Hayakawa K (1971) Estimation of population productivity of Parapleurus alliaceus Germar (Orthoptera: Acridiidae) on a Miscanthus sinensis Anders. grassland. I. Estimation of population parameters. Oecologia, 7, 115.
  • Nakamura K, Nakamura M, Matsumoto T, Ito Y (1975) Fluctuations of grasshopper populations on a Miscanthus sinensis grassland. Research on Population Ecology, 16, 198206.
  • Nakase T, Suzuki M (1987) Studies on ballistospore-forming yeasts from the dead leaves of Miscanthus sinensis with descriptions of the new species Sporobolomyces miscanthi, Sporobolomyces subroseus, and Sporobolomyces weijmanii. Journal of Applied and General Microbiology, 33, 177196.
  • Nechiporenko NN, Godovikova VA, Shumny VK (1997) Physiological and genetical basis for selection of Miscanthus. Aspects of Applied Biology, 49, 251254.
  • Negoro K (1943) Study of solfatara plants. In: Advance of Biology (eds NomuraS, YamahaG), pp. 151192. Kyoritsu, Tokyo (in Japanese).
  • New Energy Foundation (2009) Electric power business using grass – first in Japan! Available at http://www.asiabiomass.jp/english/topics/090216_06.html Accessed 27 March 2009.
  • Nielsen PN (1990) Elefantengrassanbau in Dänemark – Praktikerbericht. Pflug und Spaten, 3, 14 (in German).
  • Nishikawa K, Kubono M, Kamiya M (1958) Morphological characters and chromosome conjugation in Miscanthus ogiformis. Japanese Journal of Breeding, 8, 49 (in Japanese).
  • Nishimura N, Kirita H, Saito Y, Ohga N, Shoji S, Nishiguchi S, Akama T (1982) Vegetation of Miscanthus sinensis grassland in Kawatabi. Grassland Ecology, 20, 3946 (in Japanese).
  • Nishimura N, Soga Y, Tsuda S (1997) Altitudinal variation in the species composition of main grasses in the Kirigamine subalpine grassland, central Japan. Grassland Science, 42, 324334 (in Japanese with English summary).
  • Nishiwaki A, Sugawara K (1997) The temperature-germination rate response of Miscanthus sinensis seeds. Grassland Science, 43, 6263 (in Japanese).
  • Nishiwaki A, Ito I, Sugawara K (1987) The effect of the genet density to the seed set percentage of Miscanthus sinensis. Proceedings of the Japanese Journal of Grassland Science, 33, 3233 (in Japanese).
  • Nishiwaki A, Sugawara K, Ito I (1996) The effect of cattle grazing on seed production in Miscanthus sinensis Anderss. Grassland Science, 42, 4751 (in Japanese with English summary).
  • Nishizono H, Ichikawa H, Suziki S, Ishii F (1987) The role of the root cell wall in the heavy metal tolerance of Athyrium yokoscense. Plant and Soil, 101, 1520.
  • Nogami K (1993) Grazed plants by Wagyu cattle and weeding of Miscanthus sinensis by grazing in young Cryptomeria japonica and Chamaecyparis obtusa plantation. Bulletin of the Faculty of Agriculture, Miyazaki University, 40, 113119 (in Japanese with English summary).
  • Numata M (1961) Ecology of grasslands in Japan. Journal of the College of Arts and Sciences, Chiba University, 3, 327342 (in Japanese).
  • Numata M (1969) Progressive and retrogressive gradient of grassland vegetation measured by degree of succession – Ecological judgement of grassland condition and trend IV. Plant Ecology, 96127.
  • Numata M (1970) Geographical distribution and ecology of Miscanthus sinensis. New Pesticide, 24, 816 (in Japanese).
  • Numata M (1971) Quaternary history of grasslands – particularly on relationships of climate to grasses and grassland types and on human role in development of grassland formations on the earth. Bulletin of the Biogeographical Society of Japan, 26, 2127 (in Japanese).
  • Numata M (1974) Grassland vegetation. In: The Flora and Vegetation of Japan (ed. NumataM), pp. 125149. Kodansha, Tokyo.
  • Numata M (1975) Introduction: process and results of the Japanese grassland project. In: Ecological Studies in Japanese Grasslands with Special Reference to the IBP Area. Productivity of Terrestrial Communities (ed. NumataM), pp. 17. University of Tokyo Press, Tokyo.
  • Numata M (1988) Stage and phase dynamics in early dynamics of secondary succession. Shukutoku University Bulletin, 22, 1724.
  • Numata M, Mitsudera M (1969) Efficient environmental factors in relation to the growth and production of the Miscanthus sinensis meadows in Japan. Japanese Journal of Botany, 20, 135151.
  • O'Neill NR, Farr DF (1996) Miscanthus blight, a new foliar disease of ornamental grasses and sugarcane incited by Leptosphaeria sp, and its anamorphic state Stagonospora sp. Plant Disease, 80, 980987.
  • Obara M (1967) Development, fertilization, and utilization of grassland. Animal Husbandry, 11, 96100 (in Japanese).
  • Ogata N, Nagatomo Y (1971) A few suggestion to the object of weeds control on the Japanese plume-grass (Miscanthus sinensis Anderss) community and its ecological aspect in silviculture. Journal of Weed Science and Technology, 12, 5254 (in Japanese).
  • Ogura J, Yamamoto S, Ikeka A (2002) The origin of the grassland of Aso region, Kyushu Japan, by microscopic charcoal analysis. Summaries of Research Using AMS at Nagoya University, 13, 236240 (in Japanese with English summary).
  • Ohtsuka T, Sakura T, Ohsawa M (1993) Early herbaceous succession along a topographical gradient on forest clear-felling sites in mountainous terrain, central Japan. Ecological Research, 8, 329340.
  • Okamura S, Yamane S (1994) Seasonal abundance of an aphid, Melanaphis yasumatsui (Homoptera), occurring on Miscanthus on the Taisho lava of the Sakurajima volcano, southern Japan, with reference to the relation with ant community. Japanese Journal of Entomology, 62, 607615 (in Japanese with English summary).
  • Okano S (1989) Utilization and palatability of forage plants by livestocks in rangeland. Bulletin of the Forestry and Forest Products Research Institute, 353, 177211 (in Japanese).
  • Ondopa J, Takahashi Y, Kikuchi A, Nakagoshi N (2006) Plant species response against mowing in southwestern Japan. Journal of International Development and Cooperation, 12, 1124.
  • Oohara H, Yoshida N, Fukunaga K, Furuya M, Oohara Y (1968) Ecological studies of vegetation on natural grassland in Hokkaido. I. Natural vegetation on Naitai Grassland, Kamishihoro Town, Hokkaido. Research Bulletin of Obihiro University, 5, 561616 (in Japanese with English summary).
  • Otaki N (1997) Grassland and people's life. History of Ichinomiya Town. In: Nature and Culture Anthology in Aso (ed. Editorial Board Committee of Ichinomiya Town). pp. 4245. Ichinomiya, Japan (in Japanese).
  • Otaki N (1999) Aso grassland for a thousand years. Burning stopped, grassland endangered. Environmental Research Quarterly, 114, 3136 (in Japanese with English summary).
  • Pimentel D, Patzek TW (2005) Ethanol production using corn, switchgrass, and wood; biodiesel production using soybean and sunflower. Natural Resources Research, 14, 6576.
  • Raghu S, Anderson RC, Daehler CC, Davis AS, Wiedenmann RN, Simberloff D, Mack RN (2006) Adding biofuels to the invasive species fire? Science, 313, 1742.
  • Rosenblueth M, Martinez-Romero E (2006) Bacterial endophytes and their interactions with hosts. Molecular Plant-Microbe Interactions, 19, 827837.
  • Royle DJ, Ostry ME (1995) Disease and pest control in the bioenergy crops poplar and willow. Biomass & Bioenergy, 9, 6979.
  • Saito K (1976) Ecological studies on the solfatara vegetation in Mt Zao, northeast Japan. Bulletin of the Yamagata University, Natural Science, 9, 91111 (in Japanese with English abstract).
  • Saito Y (1990) Two new spider mite species of the Schizotetranychus celarius complex (Acari, Tetranychidae). Applied Entomology and Zoology, 25, 389396.
  • Saito A, Minamisawa K (2006) Evaluation of the nitrogen-fixing ability of endophytic clostridia based on acetylene reduction and reverse transcription-PCR targeting the nifH transcript and ribosomal RNA. Microbes and Environments, 21, 2335.
  • Saito K, Nishiwaki A, Sugawara K (2000) DNA extraction from arbuscular mycorrhizal roots of Miscanthus sinensis Anderss. collected in the native grassland. Grassland Science, 46, 182184.
  • Saito K, Suyama Y, Sato S, Sugawara K (2004) Defoliation effects on the community structure of arbuscular mycorrhizal fungi based on 18S rDNA sequences. Mycorrhiza, 14, 363373.
  • Saitou T (1976) Breeding biology of the eastern great reed warbler, Acrocephalus arundinaceus orientalis. Journal of the Yamashina Institute for Ornithology, 8, 135156.
  • Sakagami SF, Maeta Y (1977) Some presumably presocial habits of Japanese Ceratina bees, with notes on various social types in Hyemenoptera. Insectes Sociaux, 24, 319343.
  • Sakanoue S (2001) Long-term trends in Miscanthus sinensis grassland vegetation: a 20-year field observation. Grassland Science, 47, 430435 (in Japanese).
  • Sakura T, Numata M (1973) Recovery of vegetation in the area of mountain landslide in the south-east part of the Boso Peninsula. Journal of the Japanese Forestry Society, 12, 361367 (in Japanese with English summary).
  • Sasaki R, Hirata T, Nakasuji F, Fujisaki K (2002a) Decreased number of nymphal stadia in the lygaeid bug, Dimorphopterus japonicus (Heteroptera: Lygaeidae). Applied Entomology and Zoology, 37, 335340.
  • Sasaki R, Nakasuji F, Fujisaki K (2002b) Environmental factors determining wing form in the lygaeid bug, Dimorphopterus japonicus (Heteroptera: Lygaeidae). Applied Entomology and Zoology, 37, 329333.
  • Sase T, Hosono M (1996) Vegetation histories of Holocene volcanic ash soils in Japan and New Zealand: relationship between genesis of melanic volcanic ash soils and human impact. Earth Science, 50, 466482.
  • Sase T, Kato Y (1976) The study on phytogenic particles, especially, on plant opals, in humic horizons of present and buried volcanic ash soils (Part I): the problem on the source of plant opals. The Quaternary Research, 15, 2132 (in Japanese with English summary).
  • Sase T, Kondo R (1974) The study of opal phytoliths in humus horizons of buried volcanic ash soils in Hokkaido. The Research Bulletin of Obihiro Zootechnical University, 8, 465483 (in Japanese).
  • Sato T, Yamane I (1970) Studies on the solfatara soils in the northeastern Japan. Bulletin of the Institute for Agricultural Research, Tohoku University, 21, 133162 (in Japanese with English summary).
  • Sato T, Sakai H, Sato K (1975) Influences of fertilization and cutting frequency on the kinds of herbs of Miscanthus sward. Journal of Japanese Society of Grassland Science, 21, 271279 (in Japanese with English summary).
  • Sato Y, Saito Y, Sakagami T (2003) Rules for nest sanitation in a social spider mite, Schizotetranychus miscanthi Saito (Acari: Tetranychidae). Ethology, 109, 713724.
  • Sato Y, Saito Y, Chittenden AR (2008) The parapatric distribution and contact zone of two forms showing different male-to-male aggressiveness in a social spider mite, Stigmaeopsis miscanthi (Acari: Tetranychidae). Experimental and Applied Acarology, 44, 265276.
  • Schwarz H (1993) Miscanthus sinensis‘Giganteus’ production on several sites in Austria. Biomass & Bioenergy, 5, 413419.
  • Seki T (1934) On the characteristics of the brown earths, especially those in the field. Journal of Science of Soil and Manure, 8, 318 (in Japanese with English summary).
  • Semere T, Slater FM (2007) Ground flora, small mammal and bird species diversity in miscanthus (Miscanthus×giganteus) and reed canary-grass (Phalaris arundinacea) fields. Biomass & Bioenergy, 31, 2029.
  • Shimada Y, Iwaki H, Midorikawa B, Ohga N (1975) Primary productivity of the Miscanthus sinensis community at the Kawatabi IBP Area. In: Ecological Studies in Japanese Grasslands with Special Reference to the IBP Area. Productivity of Terrestrial Communities (ed. NumataM), pp. 110114. University of Tokyo Press, Tokyo.
  • Shimada T, Hara K, Koike M (1992) Adaptation of cold district and distribution limit of Miscanthus sinensis. Japanese Journal of Grassland Science, 38, 78 (in Japanese).
  • Shimizu M (1951) The synecological investigation of weeds on tertiary acid soil at Kashii in Fukuoka Prefecture. Japanese Journal of Crop Science, 19, 275278 (in Japanese with English summary).
  • Shimizu M, Marutani S, Desyatkin AR, Jin T, Hata H, Hatano R (2009) The effect of manure application on carbon dynamics and budgets in a managed grassland of Southern Hokkaido, Japan. Agriculture, Ecosystems & Environment, 130, 3140.
  • Shimoda K (1997) Regeneration of Miscanthus sinensis in Kirigamine: temporal variation of seed production and regeneration of seed. Japanese Journal of Grassland Science, 43 (Suppl), 1011 (in Japanese).
  • Shimoda S, Oikawa T (2006) Temporal and spatial variations of canopy temperature over a C3-C4 mixture grassland. Hydrological Processes, 20, 35033516.
  • Shindo H, Matsui Y, Higashi T (1986) A possible source of humic acids in volcanic ash soils in Japan – charred residue of Miscanthus sinensis. Soil Science, 141, 8487.
  • Shoji S, Kurebayashi T, Yamada I (1990) Growth and chemical composition of Japanese pampas grass (Miscanthus sinensis) with special reference to the formation of dark-colored andisols in northeastern Japan. Soil Science & Plant Nutrition, 36, 105120.
  • Shoji A, Kohyama K, Sasaki H (2001) Optimum area of semi-natural grassland to maintain maximum butterfly and avian species richness in Japan. In: XIX International Grassland Conference. Sao Paolo, Brazil.
  • Shoji A, Hirano K, Nakanishi Y (2005) Seasonal productivity and coarse protein content in Miscanthus sacchariflorus: one of the Japanese native graminoids. Kyushu Agricultural Research, 67, 117 (in Japanese).
  • Simberloff D (2008) Invasion biologists and the biofuels boom: cassandras or colleagues. Weed Science, 56, 867872.
  • Simona C, Ariangelo DPR, John G, Nina N, Ruben M, Jose SJ (2004) Nitrous oxide and methane fluxes from soils of the Orinoco savanna under different land uses. Global Change Biology, 10, 19471960.
  • Snyder CS, Slaton NA (2001) Rice production in the United States – an overview. Better Crops, 85, 37.
  • Stehfest E, Bouwman L (2006) N2O and NO emission from agricultural fields and soils under natural vegetation: summarizing available measurement data and modeling of global annual emissions. Nutrient Cycling in Agroecosystems, 74, 207228.
  • Stewart OC (1951) Burning and natural vegetation in the United States. Geographical Review, 41, 317320.
  • Strobel G, Daisy B, Castillo U, Harper J (2004) Natural products from endophytic microorganisms. Journal of Natural Products, 67, 257268.
  • Sugimoto Y (2002) Forest-pastoral systems: studies in Morotuka Village, Miyazaki Prefecture. Journal of Japanese Society of Grassland Science, 47, 644651 (in Japanese).
  • Sugimura K, Sato S, Yamada F, Abe S, Hirakawa H, Handa Y (2000) Distribution and abundance of the Amami rabbit Pentalagus furnessi in the Amami and Tokuno Islands, Japan. Oryx, 34, 198206.
  • Suwa H, Suzuki Y, Zhang YH, Murofushi N, Takeuchi Y (1995) Endogenous gibberellins in Aeginetia indica, a parasitic plant, and its host, Miscanthus sinensis. Bioscience, Biotechnology, and Biochemistry, 59, 17121715.
  • Suzuki T (1958) Prairies des régions d'Aso et de Kuzyû, Japon. Journal of the Japanese Forestry Society, 40, 299304 (in Japanese with French summary).
  • Takahashi Y (2001a) Conservation of semi-natural grassland in the Mount Sanbe area. Agriculture and Horticulture, 76, 249256 (in Japanese).
  • Takahashi Y (2001b) The importance of cattle grazing in land resource management: the case of the Mt. Sanbe grassland in southwestern Japan. In: Natural Environment Management and Applied System Analysis (eds MakowskiM, NakayamaH), pp. 277293. International Institute for Applied Systems Analysis, Laxenburg, Austria.
  • Takahashi Y, Naito K (2006) Vegetational characteristics of a habitat of Swertia pseudochinensis at the foot of Mount Sanbe: a preliminary study for planning restored vegetation management. Grassland Science, 52, 3739.
  • Takakai F, Morishita T, Hashidoko Y et al. (2006) Effects of agricultural land-use change and forest fire on N2O emission from tropical peatlands, Central Kalimantan, Indonesia. Soil Science & Plant Nutrition, 52, 662674.
  • Takakai F, Desyatkin AR, Lopez CML, Fedorov AN, Desyatkin RV, Hatano R (2008) Influence of forest disturbance on CO2, CH4 and N2O fluxes from larch forest soil in the permafrost taiga region of eastern Siberia. Soil Science & Plant Nutrition, 54, 938949.
  • Takatsuki S (1986) Food habits of sika deer on Mt. Goyo, northern Honshu. Ecological Research, 1, 119128.
  • Tang YH, Washitani I, Tsuchiya T, Iwaki H (1988) Fluctuation of photosynthetic photon flux density within a Miscanthus sinensis canopy. Ecological Research, 3, 253266.
  • Tang YH, Washitani I, Tsuchiya T, Iwaki H (1989) Spatial heterogeneity of photosynthetic photon flux density in the canopy of Miscanthus sinensis. Ecological Research, 4, 339349.
  • Tange T, Suzuki M, Yagi H, Sasaki S, Minamikata Y (1993) Influence of the weeding method on the growth of planted trees. Journal of the Japanese Forestry Society, 5, 416423 (in Japanese with English summary).
  • Tilman D, Hill J, Lehman C (2006) Carbon-negative biofuels from low-input high-diversity grassland biomass. Science, 314, 15981600.
  • Togashi K (1938) Eine botanische Untersuchung auf der Yanagawa- Weide aus Anlass einer endemischen Pferdekrankheit. The Botanical Magazine, 52, 627635 (in German).
  • Togashi K (1942) External characters of the ergot. The Botanical Magazine, 56, 7482 (in Japanese with English summary).
  • Toyama M (1999) Adaptive advantages of maternal care and matriphagy in a foliage spider, Chiracanthium japonicum (Araneae: Coubionidae). Journal of Ethology, 17, 3339.
  • Tsuchida K, Numata M (1979) Relationships between successional situation and production of Miscanthus sinensis communities at Kirigamine Heights, central Japan. Vegetatio, 39, 1523.
  • Tsuiki M, Takahashi S, Oku T, Koyama N, Shiomi M (1992) Seasonal variation of net primary production in Miscanthus sinensis grassland. Proceedings of the Japanese Journal of Grassland Science, 38, 3940 (in Japanese).
  • Tsujimura A (1978) The arrangement of the vegetation of solfataras according to pH value and soils. Ecological Review, 19, 5965.
  • Tsuyuzaki S (1991) Present condition and regeneration of ski ground vegetation in Hokkaido: ski grounds which have received land modification. Japanese Journal of Ecology, 41, 8391 (in Japanese with English summary).
  • Tsuyuzaki S (1995) Ski slope vegetation in central Honshu, Japan. Environmental Management, 19, 773777.
  • Tsuyuzaki S (2005) Miscanthus sinensis grassland is an indicator plant community to predict forest regeneration and development on ski slopes in Japan. Ecological Indicators, 5, 109115.
  • Tucker JA (2003) A translation-study of the Kana shôri. Sino-Japanese Studies, 15, 5698.
  • Tyner WE (2008) The US ethanol and biofuels boom: its origins, current status, and future prospects. Bioscience, 58, 646653.
  • Utsunomiya T (1973) The palatability and contribution of native plant species to the forage of beef cattle in the case of forest grazing. Journal of Japanese Society of Grassland Science, 19, 154160 (in Japanese with English summary).
  • Villamil MB, Silvis AH, Bollero GA (2008) Potential miscanthus' adoption in Illinois: information needs and preferred information channels. Biomass & Bioenergy, 32, 13381348.
  • Watanabe M, Maruyama N (1977) Wintering ecology of white wagtail Motacilla alba lugens in the middle stream of Tama River. Journal of the Yamashina Institute for Ornithology, 9, 2043.
  • Watanabe M, Sakagami K, Aoki K, Sugiyama S (1994) Altitudinal distribution of humus properties of andisols in Japan. Geographical Review of Japan, 1, 3649.
  • Watanabe N, Nishiwaki A, Sugawara K (2001) Seed banks in pastures: special reference to a persistent soil seed bank of invading species Carex albata Boott. Grassland Science, 47, 337343.
  • Watanabe T, Jansen S, Osaki M (2006) Al–Fe interactions and growth enhancement in Melastoma malabathricum and Miscanthus sinensis dominating acid sulphate soils. Plant, Cell & Environment, 29, 21242132.
  • Whyte RO (1957) International development of grazing and fodder resources. III. Japan. Grass and Forage Science, 13, 4654.
  • World Forest Institute (2003) The forests of Japan. The World Forestry Center. Available at http://wfi.worldforestry.org/WF-japan.htm Accessed 2 April 2009.
  • Yamagishi S (1978) Social organization and stability of local density of breeders in the Meadow Bunting Emberiza cioides. Journal of the Yamashina Institute for Ornithology, 10, 199299.
  • Yamamoto Y, Saito Y, Kirita H, Hayashi H, Nishimura N (1997) Ordination of vegetation of Miscanthus-type grassland under the some artificial pressure. Grassland Science, 42, 307314 (in Japanese with English summary).
  • Yamane I (1973) The meaning of Miscanthus sinensis in the formation of Kuroboku soil. Pedologist, 17, 1626 (in Japanese with English summary).
  • Yamane I, Sato K (1960) Distribution of organic and inorganic constituents in soil profiles of mountain grassland and their investment from plant to soil. Bulletin of the Agricultural Research Center, Tohoku University, 11, 447458 (in Japanese with English summary).
  • Yamane I, Sato K (1975) Seasonal change of chemical composition in Miscanthus sinensis. In: Ecological Studies in Japanese Grasslands with Special Reference to the IBP Area. Productivity of Terrestrial Communities (ed. NumataM), pp. 160162. University of Tokyo Press, Tokyo.
  • Yamane I, Ito I, Sato K, Kumada D (1958) On the relationship between vegetation and soil at mountain grassland in northeastern Japan. Part 3. Growing process and inorganic and organic constituents of predominant plant species and some characteristics of soil. Science Reports of the Research Institute, Tohoku University, 9, 143.
  • Yamashita H, Kiritani K, Togashi K, Kubota K (2006) Wing dimorphism in three carabid species living in the grasslands of Mt. Omuro, Shizuoka, Japan. Applied Entomology and Zoology, 41, 463470.
  • Yano N, Kayama R (1975) Underground. In: Ecological Studies in Japanese Grasslands with Special Reference to the IBP Area. Productivity of Terrestrial Communities (ed. NumataM), pp. 147160. University of Tokyo Press, Tokyo.
  • Yazaki Y, Mariko S, Koizumi H (2004) Carbon dynamics and budget in a Miscanthus sinensis grassland in Japan. Ecological Research, 19, 511520.
  • Ye B, Saito A, Minamisawa K (2005) Effect of inoculation with anaerobic nitrogen-fixing consortium on salt tolerance of Miscanthus sinensis. Soil Science & Plant Nutrition, 51, 243249.
  • Yi YN (2006) New Flora of Korea. Kyo-Hak Publishing Company, Seoul (in Korean).
  • Yokoyama M, Kaji K, Suzuki M (2000) Food habits of sika deer and nutritional value of sika deer diets in eastern Hokkaido, Japan. Ecological Research, 15, 345355.
  • Yoshida S (1951) Studies on the grassland types and plant succession of bokuya (natural grassland) in Japan. Science Reports of the Research Institute, Tohoku University, 1–2, 2546 (in Japanese).
  • Yoshida S (1953) Improvement of the vegetation of Sasa-stage grassland. Bulletin of the Institute for Agricultural Research, Tohoku University, 4, 279306 (in Japanese with English summary).
  • Yoshida S (1956) Ecological studies on bokuya (natural grassland) in Japan. Science Reports of the Research Institute, Tohoku University, 7, 129156.
  • Yoshida S (1976) Miscanthus sinensis type grassland from the view point of grassland science. In: Study of Susuki. Professor Isao Hirayoshi Memorial Volume, pp. 4568. Gifu University, Gifu, Japan (in Japanese).
  • Yoshida K, Oikawa K, Sugano S et al. (1957) Investigation of the grassland in Onikobe village. Bulletin of the Institute for Agricultural Research, Tohoku University, 9, 1126 (in Japanese with English summary).
  • Yoshida M, Liu Y, Uchida S et al. (2008) Effects of cellulose crystallinity, hemicellulose, and lignin on the enzymatic hydrolysis of Miscanthus sinensis to monosaccharides. Bioscience Biotechnology and Biochemistry, 72, 805810.
  • Yoshii Y (1937) Aluminum requirements of solfatara-plants. The Botanical Magazine, 51, 262270.
  • Yoshioka K (1955) Semi-natural grassland communities in the north-eastern district of Japan. Science Reports, Fukushima University, 4, 112.
  • Yoshiyasu Y (1980) Morphology of the immature stages of Marasmia latimarginalis (Hampson) (Lepidoptera: Pyralidae). The Scientific Reports of Kyoto Prefectural University, Agriculture, 32, 5155.