Abstract
In central Mongolia, south of Ulan Bator up to Dalanzadgad, vegetation is classified into three zones from north to south: the forest-steppe, steppe, and dry steppe zones, with trees and shrubs specific to each of these zones. The deciduous conifer Larix sibirica is the dominant tree in the forest-steppe zone; the shrub Caragana microphylla (Fabaceae), which fixes nitrogen, is widespread in the steppe zone between Ulan Bator and Mandalgobi; and two shrubs, Caragana stenophylla on sandy soils and a mixture of Kalidium foliatum and Reaumuria soongorica on silty soils, dominate the dry steppe zone between Mandalgobi and Dalazadgad. In the steppe and dry steppe zones, species of Allium and Stipa differ between zones, with Allium mongolicum and Stipa glareosa, and Allium polyrrhizum and Stipa gobica, in the former and latter, respectively. In each zone, shrubs that are palatable for livestock are decreasing and becoming extinct through overgrazing by livestock for a long time. In degraded pasture, Artemisia species dominate, changing from Artemisia dracunculus and Artemisia adamsii to Artemisia pectinata with decreasing altitude. Desertification does not advance in the sense of the complete loss of vegetation, but is progressing in the sense of vegetation and soil degradation.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Adámoli J, Sennhauser E, Acero JM, Rescia A (1990) Stress and disturbance: vegetation dynamics in the dry Chaco region of Argentina. J Biogeogr 17: 491–500.
Asner GP, Elmore AJ, Olander LP, Martin RE, Harris AT (2004) Grazing systems, ecosystem responses, and global change. Annu Rev Environ Resour 29: 261–299.
Baldocchi, DD, Xu, L, Kiang, N (2004) How plant functional type, weather, seasonal drought, and soil physical properties alter water and energy fluxes of an oak–grass savanna and an annual grassland. Agric For Meteorol 123: 13–39.
Bryant, NA, Johnson, LF, Brazel, AJ, Balling, RC, Hutchinson, CF, Beck, LR (1990) Measuring the effect of overgrazing in the Sonoran Desert. Climatic Change 17: 243–264.
Finch, C (1999) Mongolia’s Wild Heritage. Avery Press, Boulder, CO.
Fujita, N, Amartuvshin, N, Yamada, Y., Matsui, K., Sakai, S, Yamamura, N (2009) Positive and negative effects of livestock grazing on plant diversity of Mongolian nomadic pasturelands along a slope with soil moisture gradient. Grassland Sci 55: 126–134.
Gill, RMA (1992) A review of damage by mammals in north temperate forests. 1. Deer. Forestry 65, 145–169.
Grubov, VL (2001) Key to the Vascular Plants of Mongolia, Vols. I, II. Science Publishers, Enfield, UK, pp 1–817.
Gubanov, IA (1996) Conspectus of Flora of Outer Mongolia. Valang Publishers, Moscow, pp 1–132.
Ma, CC, Gao, YB, Guo, HY, Wang, JL (2004) Photosynthesis, transpiration, and water use efficiency of Caragana microphylla, C. intermedia, and C. korshinskii. Photosynthetica 42: 65–70.
Newman, JA, Penning, PD, Parsons, AD, Harvey, A, Orr, RJ (1994) Fasting affects intake behavior and diet preference of grazing sheep. Anim Behav 47: 185–193.
Sasaki T, Okayasu T, Jamsran U, Takeuchi K (2008) Threshold changes in vegetation along a grazing gradient in Mongolian rangelands. J Ecol 96: 145–154.
Stumpp M, Wesche K, Retzer V, Miehe G (2005) Impact of grazing livestock and distance from water source on soil fertility in southern Mongolia. Mountain Res Dev 25: 244–251.
van Staalduinen, MA, Heinjo, D, Werger, MJA (2007) Impact of grazing regime on a Mongolian forest steppe. Appl Veget Sci 10: 299–306.
Todd SW, Hoffman MT (1999) A fence-line contrast reveals effects of heavy grazing on plant diversity and community composition in Namaqualand, South Africa. Plant Ecol 142: 169–178.
Villamil, MB, Amiotti, NM, Peinemann, N (2001) Soil degradation related to overgrazing in the semi-arid southern Caldenal area of Argentina. Soil Sci 166: 441–452.
Yoshihara, Y, Chimeddorj, B, Buuveibaatar, B (2009) Heavy grazing constraints on foraging behavior of Mongolian livestock. Grassland Sci 55: 29–35.
Zhao, HL, Li, SG, Zhang, TH, Ohkuro, T, Zhou, RL (2004) Sheep gain and species diversity in sandy grassland, Inner Mongolia. Rangeland Ecol Manag 57: 187–190.
Acknowledgments
This work was financially supported in part by the RIHN research project “Collapse and Restoration of Ecosystem Networks through Human Activity.” We are grateful to Professor N. Yamamura for his helpful suggestions on the draft of this manuscript.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2013 Springer Japan
About this chapter
Cite this chapter
Fujita, N., Amartuvshin, N. (2013). Distribution Patterns of Vegetation as a Fundamental Factor in Mongolian Ecosystems. In: Yamamura, N., Fujita, N., Maekawa, A. (eds) The Mongolian Ecosystem Network. Ecological Research Monographs. Springer, Tokyo. https://doi.org/10.1007/978-4-431-54052-6_3
Download citation
DOI: https://doi.org/10.1007/978-4-431-54052-6_3
Published:
Publisher Name: Springer, Tokyo
Print ISBN: 978-4-431-54051-9
Online ISBN: 978-4-431-54052-6
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)