Plant diversity variations in zokor-mound communities along a successional stage in sub-alpine meadow

Abstract

Abstract: Plateau zokor is one of the major rodents in subalpine meadow, They frequently consume plant roots and entire plants, largely destructing the grassland. Meanwhile, they excavate burrow systems and deposit the soil aboveground, then creating new sites that can initiate succession at a local scale. We investigated the community structure on the zokor mound, the results indicate that: 1) There is a continuous increase in species richness with succession. 2) Shanon-Weiner index also show species diversity may peak at the late stage, even higher than the matrix meadow. 3) Using the community heterogeneity index to measure different mound communities, it suggested that the variation is greater in early secondary succession, and the variation will decrease over time. It is a good evidence to prove that the succession of mound is a process from divergence to convergence.

CLC Number:

YANG Ying-bo, XIN Xiao-juan, Ai-de-xie-cuo, YANG Xue, WANG Shao-mei, CHU Cheng-jin, REN Zheng-wei, WANG Gang. Plant diversity variations in zokor-mound communities along a successional stage in sub-alpine meadow[J]. Acta Prataculturae Sinica, 2010, 19(1): 14-20.

References

[1] Connell J H. Diversity in tropical rain forests and coral reefs:High diversity of trees and corals is maintained only in a nonequilibrium state[J]. Science, 1978, 199: 1302-1310.
[2] Connell J H, Slatyer R O. Mechanisms of succession in natural communities and their role in community stability and organization[J]. The American Naturalist, 1977, 111: 1119-1144.
[3] Huston M, Smith T. Plant succession: Life history and competition[J]. The American Naturalist, 1987, 130: 168-198.
[4] Huston M A. A general hypothesis of species diversity[J]. The American Naturalist, 1979, 113: 81-101.
[5] Platt W J, Connell J H. Natural disturbances and directional replacement of species[J]. Ecological Monographs, 2003, 73: 507-522.
[6] Sousa W P. Disturbance in marine intertidal boulder fields: The nonequilibrium maintenance of species diversity[J]. Ecology, 1979, 60: 1225-1239.
[7] 郑伟, 朱进忠, 潘存德. 草地植物多样性对人类干扰的多尺度响应[J]. 草业科学, 2009, 26(8): 72-80.
[8] Grime J P, Mackey J M L, Hillier S H, et al. Floristic diversity in a model system using experimental microcosms[J]. Nature, 1987, 328: 420-422.
[9] Pakeman R J, Small J L. The role of the seed bank, seed rain and the timing of disturbance in gap regeneration[J]. Journal of Vegetation Science, 2005, 16: 121-130.
[10] Grubb P J. The maintenance of species richness in plant communities: The importance of the regeneration niche[J]. Biology Reviews, 1977, 52: 107-145.
[11] Osman R W, Whitlach R B. The influence of resident adults on recruitment-a comparison to settlement[J]. Journal of Experimental Marine Biology and Ecology, 1995, 190: 169-198.
[12] Questad E J, Foster B L. Vole disturbances and plant diversity in a grassland metacommunity[J]. Oecologia, 2007, 153: 341-351.
[13] Reichman O J, Seabloom E W. The role of pocket gophers as subterranean ecosystem engineers[J]. Trends in Ecology & Evolution, 2002, 17(1):44-49.
[14] Peet R K. Community structure and ecosystem function[A]. In: Glenn-Lewin D C, Peet R K, Veblen T T. Plant Succession: Theory and Prediction[M]. London, U.K:Chapman & Hall, 1992: 103-151.
[15] Wang T C, Xiong Y C, Ge J P, et al. Four-year dynamic of vegetation on mounds created by zokors (Myospalax baileyi) in a subalpine meadow of the Qinghai-Tibet Plateau[J]. Journal of Arid Environments, 2008, 72:84-96.
[16] Jones C C, Halpern C B, niederer J. Plant succession on gopher mounds in Western Cascade meadows: Consequences for species diversity and heterogeneity[J]. The American Midland Naturalist, 2008, 159: 275-286.
[17] Odum E P. The strategy of ecosystem development[J]. Science, 1969, 164: 262-270.
[18] 江小雷, 张卫国, 杨振宇. 不同演替阶段鼢鼠土丘群落植物多样性变化研究[J]. 应用生态学, 2004, 15(5): 814-818.
[19] Grime J P. Competitive exclusion in Herbaceous vegetation[J]. Nature, 1973, 242: 344-347.
[20] 张大勇, 王刚, 赵松龄. 鼢鼠土丘植物演替趋同的研究[J]. 兰州大学学报, 1990, 26(4): 102-106.
[21] Clements F E. Plant Succession: An Analysis of the Development of Vegetation[M]. Washington, DC: Carnegie Institution of Washington, 1916.
[22] Clements F E. Plant Succession and Indicators[M]. New York: Hafner, 1928.
[23] Hanson H C. Dictionary of Ecology[M]. New York: Crown Publication, 1962.
[24] Christensen N L, Peet R K. Convergence during secondary forest succession[J]. Journal of Ecology, 1984, 72: 25-36.
[25] Fukami T, Bezemer T M, Mortimer S R, et al. Species divergence and trait convergence in experimental plant community assembly[J]. Ecology Letters, 2005, 8: 1283-1290.
[26] Margalef R. On certain unifying principles in ecology[J]. American Naturalist, 1963, 97: 357-374.
[27] Margalef R. Perspectives in Ecological Theory[C]. Chicago:University of Chicago Press, 1968.
[28] Weiher E, Clarke G D P, Keddy P A. Community assembly rules, morphological dispersion, and the coexistence of plant species[J]. Oikos, 1998, 81: 309-322.
[29] Diaz S, Cabido M, Casanoves F. Functional implications of trait-environmental linkages in plant communities[A]. In: Weiher E, Keddy P. Ecological Assembly Rules: Perspectives, Advances, Retreats[M]. Cambridge, UK:Cambridge University Press, 1999: 338-362.
[30] Watkins A J, Wilson J B. Local texture convergence: A new approach to seeking assembly rules[J]. Oikos, 2003, 102: 525-532.
[31] Egler F E. Vegetation science concepts I. Initial floristic composition - a factor in old-field vegetation development[J]. Vegetatio, 1954, 4: 412-417.
[32] Egler F E. The plight of the right of way domain-Victim of Vandalism[C]. Mt. Kisco, New York:Futura Press, 1975.
[33] 何俊龄. 土壤种子库与鼢鼠土丘植被恢复的关系[D]. 甘肃:兰州大学, 2007.
[34] 马克平. 生物群落多样性的测度方法[A]. 见: 钱迎倩. 生物多样性研究的原理与方法[C]. 北京: 中国科学技术出版社, 1994: 141-165.
[35] 王伯荪, 余世孝. 植物群落学实验手册[M]. 广州: 广东高等教育出版社, 1996.
[36] 呼格吉勒图, 杨稢, 宝音陶格涛. 不同干扰对典型草原群落物种多样性和生物量的影响[J]. 草业学报, 2008, 19(3): 6-11.
[37] Sherrod S K, Seatedt T R, Walker M D. Northern pocket gopher (Thomomys talpoides)control of alpine plant community structure[J]. Arctic, Antarctic, and Alpine Research, 2005, 37: 585-590.
[38] Rogers W E, Hartnett D C, Elder B. Effects of plains pocket gopher (Geomys bursarius) disturbances on tallgrass-prairie plant community structure[J]. The American Midland Naturalist, 2001, 145: 344-357.
[39] Laycock W A. The initial pattern of revegetation of pocket gopher mounds[J]. Ecology, 1958, 39: 346-351.
[40] Collins S L. Experimental analysis of patch dynamics and community heterogeneity in tallgrass prairie[J]. Vegetatio, 1989, 85: 57-66.
[41] Umbanhowar C E. Revegetation of earthen mounds along a topographic-productivity gradient in a northern mixed prairie[J]. Journal of Vegetation Science, 1995, 6: 637-646.
[42] Rogers W, Hartnett D. Temporal vegetation dynamics and recolonization mechanisms on different-sized soil disturbances in tallgras prairie[J]. American Journal of Botany, 2001, 88(9): 1634-1642.
[43] 单贵莲, 徐柱, 宁发. 围封年限对典型草原植被与土壤特征的影响[J]. 草业学报, 2008, 17(6): 1-8.
[44] Chu C J, Wang Y S, Du G Z, et al. On the balance between Niche and Neutral processes as drivers of community structure along a successional gradient: Insights from alpine and sub-alpine meadow communities[J]. Annals of Botany, 2007, 100: 807-812.
[45] Chambers J C. Disturbance, life-history strategies, and seed fates in alpine herbfield communities[J]. American Journal of Botany, 1995, 82: 421-433.
[46] Pakeman R J, Small J L. The role of the seed bank, seed rain and the timing of disturbance in gap regeneration[J]. Journal of Vegetation Science, 2005, 16: 121-130.
[47] 张大勇. 亚高山草甸弃耕地植物演替的趋同[J]. 西北民族学院自然科学学报, 1990, 11(2): 23-29.
[48] Gleason H A. Further views on the succession-concept[J]. Ecology, 1927, 8: 299-326.
[49] Diamond J M. Assembly of species communities[A]. In: Cody M L, Diamond J M. Ecology and Evolution of Communities[M]. Cambridge, MA:Harvard University Press, 1975: 342-444.
[50] Drake J A. The mechanics of community assembly and succession[J]. Journal of Theoretical Biology, 1990, 147: 213-233.
[51] Law R, Morton R D. Alternative permanent states of ecological communities[J]. Ecology, 1993, 74: 1347-1361.
[52] 左小安, 赵哈林, 赵学勇. 科尔沁沙地不同恢复年限退化植被的物种多样性[J]. 草业学报, 2009, 18(4): 9-16.
[53] Tilman D. Plant Strategies and the Dynamics and Structure of Plant Communities[M]. Princeton: Princeton University Press,1988.
[54] Bullock J M, Clear B H, Silvertown J,et al. Gap colonization as a source of grassland community change: Effects of gap size and grazing on the rate and mode of colonization by different species[J]. Oikos, 1995,72:273-282.
[55] Pickett S T A, White P S. The ecology of natural disturbance and patch dynamics[C]. San Diego, CA, US: Academic Press, 1985.