Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-30T17:48:32.110Z Has data issue: false hasContentIssue false

Vegetation and Climate during the Last Glacial Maximum in Japan

Published online by Cambridge University Press:  20 January 2017

Matsuo Tsukada*
Affiliation:
Department of Botany and Quaternary Research Center, University of Washington, Seattle, Washington 98195 USA
*
1Current address: Quaternary Research Center, University of Washington AK-60, Seattle, Wash. 98195.

Abstract

The Japanese Archipelago was almost entirely covered by coniferous forests during the last glacial maximum. Northern Hokkaido was distinguished by coniferous parkland and tundra vegetation, while southern Hokkaido and northernmost Honshu were covered by northern boreal coniferous forests consisting mainly of Picea jezoensis, Picea glehnii, Abies sachalinensis, and Larix gmelinii; Tsuga was missing from the forest. More diverse boreal forests including species from Sakhalin and northern Japan grew together in northeastern Honshu. Central Honshu and the mountains of southwestern Japan supported subalpine coniferous forests which are now mainly restricted in distribution to the central mountains. Temperate coniferous forests (Picea polita, Abies firma, and Tsuga sieboldii) existed principally in the modern mid-temperate and evergreen laurel-oak forest regions. Haploxylon pine and tree birch were also abundant in the boreal and cool-temperate zones, as was Diploxylon in the southern temperate zone. Significant populations of Fagus were found along the Pacific coasts of Kyushu and Shikoku, but they were too small to be defined as a beech forest zone. Quercetum mixtum (Quercus, Ulmus, and Tilia) was more common in the coastal lowlands of southwestern Japan than those of northeastern Honshu; it was completely eliminated from Hokkaido. The reduced mean August temperature inferred from the floral assemblages showed a latitudinal gradient 20,000 yr ago; it was 8–9°C in northern Hokkaido, 7.7–8.7°C in northernmost Honshu, 7.2–8.4°C in the central mountains, 6.5°C in the Chugoku District, and 5–6°C in Kyushu. The probable annual precipitation ranged from 1050 to 1300 mm along coasts in southwestern Japan during the culmination of the last glaciation.

Type
Original Articles
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Davis, M.B.. 1963. On the theory of pollen analysis. American Journal of Science 261. 897912.CrossRefGoogle Scholar
Deevey, E.S.. 1949. Biogeography of the Pleistocene. Part I. Europe and North America. Bulletin of Geological Society of America 60. 13151416.CrossRefGoogle Scholar
Fuji, N.. 1976. Palynological investigation on 200-m core samples from Lake Biwa in central Japan. Paleolimnology of Lake Biwa and the Japanese Pleistocene. Horie, S. Vol. 4. Kyoto University, Kyoto. 316356.Google Scholar
Furutani, M.. 1979. Studies on the forest history in the Osaka area since Wurm glacial age in Japan. Daiyonki-Kenkyu (Quaternary Research) 18. 121141.CrossRefGoogle Scholar
Godwin, H.. 1956. The History of the British Flora. Cambridge Univ. Press, Cambridge, England.Google Scholar
Hatanaka, K.. 1970. Palynological study on Pleistocene deposits in the southwestern part of the Kakuto Basin, Miyazaki Prefecture. Journal of Faculty of Literatures, Kitakyushu University 4. 18.Google Scholar
Hatanaka, K.. 1973. Pollen analytical study of the Holocene sediments in the Suho-nada area, Kyushu Report of Developmental Project in the Western Setouchi Region Ministry of Construction, Government of Japan, Tokyo. 2535 (Anonymous, Ed.).Google Scholar
Hatanaka, K., Miyoshi, N.. 1980. History of the late Pleistocene and Holocene vegetation in the Unbuka Basin, southwestern Japan. Japanese Journal of Ecology 30. 239244.Google Scholar
Hayashi, Y.. 1960. Taxonomical and Phytogeographical Study of Japanese Conifers. Norin-Shuppan, Tokyo.Google Scholar
Ishizuka, K.. 1961. A relict stand of Picea glehnii Masters on Mt. Hayachine, Iwate Prefecture. Ecological Review 15. 155162.Google Scholar
Kawamura, T.. 1979. Palynological studies of bog deposits in the Tohoku District. Daiyonki-Kenkyu (Quaternary Research) 18. 7988.CrossRefGoogle Scholar
Kira, T.. 1949. Forest Zones of Japan. Technological Association, Tokyo.Google Scholar
Kira, T., Yoda, K.. 1958. The mountain ecosystem. Organisms and Environments. Ashida, J., Kawakita, A., Kikkawa, H., Miyadi, D., Okada, K., Sakaguchi, K., Tamiya, H., Yamada, T.. Kyoritsu, Tokyo. 231269.Google Scholar
Miki, S.. 1957. Pinaceae of Japan with a special reference to its remains. Journal of Institute of Polytechnics, Osaka City University, Ser. D 8. 221272.Google Scholar
Miki, S., Kokawa, S.. 1962. Late-Cenozoic floras of Kyushu, Japan. Journal of Biology, Osaka City University, Ser. D 13. 6586.Google Scholar
Miura, O., Yamanaka, M.. 1980. Palynological study of the latest Pleistocene deposits on Mt. Hakkoda. Ecological Review 19. 167174.Google Scholar
Miura, O., Yamanaka, M.. 1981. The vegetation of late Pleistocene in the northern Tohoku District. Ecological Studies on the Abies mariesii Forest. Iizumi, S.. Tohoku Univ, Sendai. 109117.Google Scholar
Miyoshi, N.. 1977. On the vegetation history in the Chugoku Mountains 25th Annual Meeting, Ecological Society of Japan 257258 (Abstract).Google Scholar
Miyoshi, N., Hada, Y.. 1975a. Pollen analytical studies of moor sediments in Chugoku, Japan. I. Orogatawa moor. Daiyonki-Kenkyu (Quaternary Research) 14. 161168.CrossRefGoogle Scholar
Miyoshi, N., Hada, Y.. 1975b. Pollen analytical studies of moor sediments in Chugoku, Japan. II. Koseinuma (Hyogo Prefecture). Japanese Journal of Palynology 16. 3742.Google Scholar
Miyoshi, N., Hada, Y.. 1977. Pollen analytical studies of moor sediments in Chugoku, Japan. IV. Makura moor (Hiroshima Prefecture). Japanese Journal of Ecology 27. 285290.Google Scholar
Miyoshi, N., Yano, N., Hada, Y.. 1976. Pollen analytical studies of moor sediments in Chugoku, Japan, III. Kabosaka moor (Hyogo Prefecture). Bulletin of Hiruzen Research Institute 2. 19.Google Scholar
Morita, Y.. 1981. The relationship between the distributional patterns of surface pollen and vegetation on Mt. Hakkoda. Japanese Journal of Ecology 31. 317328.Google Scholar
Nakamura, J.. 1959. A pollen-analytical study of the Yawata swamp, Hiroshima Prefecture. Scientific Researches of the Sandankyo Gorge and the Yawata Highland. Hiroshima-ken Board of Education, . Hiroshima-ken Board of Education, Hiroshima. 153159.Google Scholar
Nakamura, J.. 1968. Palynological aspects of the Quaternary in Hokkaido. V. Pollen succession and climatic change since the Upper Pleistocene. Research Report, Kochi University 17. 3951.Google Scholar
Nakamura, J.. 1969. Palynological study of the boring core from Kochi City. Research Report, Kochi University 18. 1519.Google Scholar
Nakamura, J.. 1972. Pollen analyses of the Quaternary sediments from the Nohbi Plain and its vicinities, central Japan. Research Report, Kochi University 21. 145.Google Scholar
Nakamura, J.. 1973. Palynological aspects of the late-Pleistocene in Japan. Daiyonki-Kenkyu (Quaternary Research) 12. 2937.CrossRefGoogle Scholar
Nakamura, J., Mitsushio, H., Kuroda, T., Yoshikawa, O.. 1972. Palynostratigraphical study. Part I. The Quaternary System in Kochi Prefecture. Research Report, Kochi University 21. 87113.Google Scholar
Nakamura, J., Tsukada, M.. 1960. Palynological aspects of the Quaternary in Hokkaido. I. The Oshima Peninsula. Research Report, Kochi University 9. 117138.Google Scholar
Naora, N.. 1959. On the fossils found in Hanaizumi, Iwate Prefecture. Daiyonki-Kenkyo (Quaternary Research) 1. 118124.CrossRefGoogle Scholar
Sakaguchi, Y.. 1976. Charactertistics of Ozegahara deposits and climatic changes since late-glacial in central Japan. Bulletin of Department of Geography, University of Tokyo 8. 124.Google Scholar
Sugita, S., Tsukada, M.. 1983. Vegetation history around Nonbara bog in the San'in District for the past 17,000 years. Japanese Journal of Ecology 33in press.Google Scholar
Suzuki, K., Sohma, K.. 1965. The late Pleistocene stratigraphy and paleobotany of the Koriyama Basin. Scientific Report, Tohuku University, Ser. IV (Biology) 31. 217242.Google Scholar
Tsukada, M.. 1953. Pollen analytical studies of the moor of Shiga Heights I. Tanohara bog. Bulletin of Ecological Society of Japan 2. 170173.Google Scholar
Tsukada, M.. 1957. Pollen analytical studies of postglacial age in Japan I. Hyotan-ike ponds on Shiga Heights, Nagano Prefecture. Journal of Institute of Polytechnics, Osaka City University, Ser. D 8. 203216.Google Scholar
Tsukada, M.. 1958a. Untersuchungen über das Verhältnis zwischen dem Pollengehalt der Oberflächenproben und der Vegetation Hochlandes Shiga. Journal of Institute of Polytechnics, Osaka City University Ser. D 9. 217234.Google Scholar
Tsukada, M.. 1958b. Pollen analytical studies of postglacial age in Japan II. The northern region of the Japan North-Alps. Journal of Institute of Polytechnics, Osaka City University, Ser. D 9. 235249.Google Scholar
Tsukada, M.. 1959. Pollen analytical studies of postglacial age in Japan III. Late-glacial plant-bearing deposits in montane zone in central Japan. Journal of Institute of Polytechnics, Osaka City University, Ser. D 10. 6573.Google Scholar
Tsukada, M.. 1960. Pollen analytical studies of postglacial age in Japan IV. The Torii River area (five pollen diagrams of the Pleistocene). Journal of Institute of Polytechnics, Osaka City University, Ser. D 11. 9199.Google Scholar
Tsukada, M.. 1967a. The last 12,000 years: A vegetation history of Japan I. Botanical Magazine, Tokyo 80. 323336.CrossRefGoogle Scholar
Tsukada, M.. 1967b. Vegetation and climate around 10,000 B.P. in central Japan. American Journal of Science 265. 562585.CrossRefGoogle Scholar
Tsukada, M.. 1967c. Chenopod and amaranth pollen: Electron-microscopic identification. Science 157. 8083.CrossRefGoogle ScholarPubMed
Tsukada, M.. 1967d. Pollen succession, absolute pollen frequency, and recurrence surface in central Japan. American Journal of Botany 54. 821831.CrossRefGoogle Scholar
Tsukada, M.. 1972. The history of Lake Nojiri, Japan. Transactions of Connecticut Academy of Arts and Sciences 44. 339365.Google Scholar
Tsukada, M.. 1974a. Pollen Records: History of Man and Vegetation. Iwanami-Shoten, Tokyo.Google Scholar
Tsukada, M.. 1974b. Paleoecology II. Synthesis. Kyoritsu, Tokyo.Google Scholar
Tsukada, M.. 1980. The history of Japanese cedar: The last 15,000 years. Kagaku (Science) 50. 538546.Google Scholar
Tsukada, M.. 1981a. The last 12,000 years—The vegetation history of Japan II. New pollen zones. Japanese Journal of Ecology 31. 201215.Google Scholar
Tsukada, M.. 1981b. Cryptomeria japonica Don I. Pollen dispersal and logistic forest expansion. Japanese Journal of Ecology 31. 371383.Google Scholar
Tsukada, M.. 1982a. Cryptomeria japonica: Glacial refugia, and late-glacial and postglacial migration. Ecology 63. 10911105.CrossRefGoogle Scholar
Tsukada, M.. 1982b. Late-Quaternary shift of Fagus distribution. Botanical Magazine, Tokyo 95. 203217.CrossRefGoogle Scholar
Tsukada, M.. 1983. Late-Quaternary spruce decline and rise in Japan and Sakhalin. Botanical Magazine, Tokyo 96in press.Google Scholar
Ueno, J.. 1958. Some palynological observations of Pinaceae. Journal of Institute of Polytechnics, Osaka City University Ser. D 2. 163188.Google Scholar
Umitsu, M.. 1976. Geomorphological development of the Tsugaru Plain during the Holocene. Chirigaku Hyoron (Geographical Review) 49. 714735.Google Scholar
Yamagata, O.. 1958. A palynological study of a Menyanthes bed from the Nara Basin, Japan. Ecological Review 14. 327328.Google Scholar
Yamanaka, M.. 1973. Pollen analytical studies of moors in the lowland in Iwate Prefecture III. Nagai moor. Scientific Report, Tohoku University, Ser. IV (Biology) 36. 231239.Google Scholar
Yamanaka, M.. 1978. Palynological studies of Quaternary sediments in northeastern Japan III. Hebizuka moor on the Kitakami Mountains Papers on Plant Ecology to the Memory of Late Dr. Kuniji Yoshioka 489498 Published anonymously.Google Scholar
Yasuda, Y.. 1980. Introduction to Environmental Archeology. Nippon Hoso Kyokai Press, Tokyo.Google Scholar
Yoshioka, K.. 1974. Volcanic vegetation. The Flora and Vegetation of Japan. Numata, M.. Kodansha, Tokyo. 237267.Google Scholar