Grazing Effects on Floristic Composition and Above Ground Plant Biomass of the Grasslands in the Northeastern Mongolian Steppes |
Hayashi, Ichiroku
(173-5 Kosato, Ueda, Nagano)
Kawada, Kiyokazu (National Institute for Agro-Environmental Sciences) Kurosu, Mayu (Doctorial Program of Life and Environmental Sciences, University of Tsukuba) Batjargal, Amgaa (Institute of Geoecology, Mongolian Academy of Science) Tsundeekhuu, Tsagaanbandi (Department of Botany and Plant Physiology, Faculty of Biology, National University of Mongolia) Nakamura, Toru (Institute of Geoecology, Mongolian Academy of Science) |
1 | Kawada K, Alexandra GV, Filatova, OV, Araki M, Nakamura T, Hayashi I. 2006. Floristic composition and plant biomass production of steppe communities in the vicinity of Kharkiv, Ukraine. Grassl Sci 51: 205-213 DOI ScienceOn |
2 | Nachinshonhor GU, Hirose T. 2002. Productivity of Mongolian grassland and nomadism. Papers on Mongolian Studies in a series of Northeast Asian Studies 6: 59-67 (in Japanese) |
3 | Nakamura T, Go T, Wuyunna, Hayashi I. 2000. Effect on grazing on the floristic composition of grassland in Bayinxile, Xilingole, Inner Mongolia. Grassl Sci 45:342-350 |
4 | Kawamura K, Akiyama T, Watanabe O, Hasegawa H, Zhang FP, Yokota H, Wang S. 2003. Estimation of aboveground biomass in Xilingole steppe, Inner Mongolia Using NOAA/NDVI. Grassl Sci 46: 1-9 |
5 | Chen Z, Huang D, Zhang H. 1985. The characteristics of element chemistry of 122 plants on the Xilin river valley, Inner Mongolia. Research on Grassland Ecosystem 1: 112-131 (in Chinese with English summary). |
6 | Kawamura K, Akiyama T, Yokota H, Tsutsumi M, Yasuda T, Watanabe O, Wang S. 2005. Comparing MODIS vegetation indices with AVHRR NDVI for monitoring the forage quantity and quality in Inner Mongolian grassland, China. Grassl Sci 51: 33-40 DOI ScienceOn |
7 | Xie Y, Becker U, Witting R. 2007. Vegetation of the Stipa loess steppe in Ningxia (northern China) in relation to grazing intensity. Grassl Sci 53: 143-145 DOI ScienceOn |
8 | Wang Y. 1992. Vegetation dynamics of grazing succession in the Stipa baicalensis steppe in Northeastern China. Vegetatio 98: 83-95 DOI |
9 | Wuyunna, Nakamura T, Hayashi I. 1999. Species diversity and phytomass of the grasslands in Inner Mongolia, China. Grassl Sci 45: 140-148 (in Japanese) |
10 | Wuyunna, Okamoto K. 2004. Degeneration of steppe vegetation and the sandy desertification in Inner Mongolia, China. Vegetation Science News 8: 17-25 (In Japanese) |
11 | Cheng Y, Nakamura T. 2006 Phytosociological study on steppe vegetation in the vicinity of Kharkiv, Ukraine. Grassl Sci 52: 61-71 DOI ScienceOn |
12 | Bai Y, Wu J, Pan Q, Huang J, Wang Q, Li F, Buyantuyev A, Han X. 2007. Positive linear relationship between productivity and diversity: evidence from the Eurasian Steppe. J Appl Ecol 44: 1023- 1034 DOI ScienceOn |
13 | Cheng Y, Nakamura T. 2007. Phytosociological study on steppe vegetation in east Kazakhstan. Grassl Sci 53: 172-180 DOI ScienceOn |
14 | Davâzamc C. 1985. Dynamik der Produktivität der unterirdischen Phytomase der Vegetationszonen der MVR. Arch. Naturschutz u. Landschaftsforsh 25: 3-11 |
15 | Gunin PD, Vostokova EA, Dorofeyuk NI, Tarasov PR, Black CC. (eds). 1999. Vegetation Dynamics of Mongolia. Kluwer Academic Publication, Netherland, 1-238 |
16 | Hiblig W, Opp C. 2005. The effects of anthropogenic impact on plant and soil cover in Mongolia. Erforsh Boil Ress Mongolia 9: 1693- 177 |
17 | Hayashi I. 1996. Five years experiment on vegetation recovery of drought deciduous woodland in Kitui, Kenya. J Arid Environ 34: 351-361 DOI ScienceOn |
18 | Institute of Meteorology and Hydrology of Mongolia. 2005. Meteorological Records in Mongolia. Ulaanbaatl |
19 | Jiang S, Qi Q, Kong D. 1985. A comparative study on production of Aneurolepidium chinense and Stipa grandis steppe communities at Baiinxile livestock farm in Inner Mongolia region. Research on Grassland Ecosystem 1: 12-23 (in Chinese) |
20 | Kato T, Tang Y, Gu S, Cui X, Hirota M, Du M, Li Y, Zhao X, Oikawa T. 2004. Carbon dioxide exchange between the atmosphere and alpine meadow ecosystem on the Quinghai-Tibetan Plateau, China. Agric For Meteorol 124: 121-134 DOI ScienceOn |
21 | Hayashi I. 2003. Plant ecology: Principals and Applications. Kokonshoin, Tokyo (in Japanese) |
22 | Hayashi I, Jiang S, Nakamura T. 1988. Phytomass production of grasslands in Xilin River Basin, Xilingol, Inner Mongolia, China. Bull. Sugadaira Montane. Res Cen 9: 13-31 |
23 | Yiruhan, Hayashi I, Nakamura T, Shiomi M. 2001. Changes in floristic composition of grasslands according to grazing intensity in Inner Mongolia, China. Grassl Sci 47: 362- 369 |
24 | Sasaki T, Okayasu T, Takeuchi K, Jamsran U, Jadambaa S. 2005. Pattern of floristic composition under different grazing intensities in Bulgan, South Gobi, Mongolia. Grassl Sci 51: 235-247 DOI ScienceOn |
25 | Numata M. 1987. Structure of plant community. In: Theoretical consideration on plant ecology. Tokaidaigaku-shuppankai, Tokyo, 51- 263 (in Japanese) |
26 | Li B, Shipeng Y, Li Z. 1988. The vegetation of the Xilin River Basin and its utilization. Research on Grassland Ecosystem 3:84-183 (in Chinese) |