收稿日期: 2002-10-27
修回日期: 2003-05-13
网络出版日期: 2003-08-01
基金资助
中国科学院沈阳应用生态研究所知识创新课题“东北西部生态脆弱区生态环境评估和恢复对策研究”(编号:SCXMS0204);中国科学院“西部之光”课题“黄土高原植被恢复中两种锦鸡儿种群稳定性比较研究”资助.
GRIME’S CSR MODEL AND HIS PHILOSPHY OF ECOLOGICAL RESEARCH
Received date: 2002-10-27
Revised date: 2003-05-13
Online published: 2003-08-01
范世香 , 刘志民 , 赵晓英 . Grime的植物对策思想和生态学研究理念[J]. 地球科学进展, 2003 , 18(4) : 603 -608 . DOI: 10.11867/j.issn.1001-8166.2003.04.0603
Based on’Plant Strategies, Vegetation Processes and Ecosystem Properties’written by professor J. P. Grime at Unit of Comparative Plant Ecology, the University of Sheffield, UK, implications of CSR model were discussed and Grime’s attitudes towards the plant ecology study were summarized.
[1] Wu Jihua, Zhang Shen. Geobotany(3 rd)[M]. Beijing: China Higher Education Press, 1995. [武吉华,张绅.植物地理学(第三版)[M].北京:高等教育出版社, 1995].
[2] Arssen L W. On correlations and causations between productivity and species richness in vegetation: Predictions from habit attributes[J]. Basic and Applied Ecology, 2001, 2:105-114.
[3] Westoby M, Falster D S, Moles A T, et al. Plant ecological strategies: Some leading dimensions of variations between species[J]. Annual Review on Ecological System, 2002, 33:125-159.
[4] Lameire S, Hermy M, Honnay O. Two decades of change in the ground vegetation of a mixed deciduous forest in an agricultural landscape[J]. Journal of Vegetation Science, 2000, 11:695-704.
[5] Pywell R F, Bullock J M, Roy D B, et al. Plant traits as predictors of performance in ecological restoration[J]. Journal of Applied Ecology, 2003, 40:65-77.
[6] Lehmann A. GIS modeling of submerged macrophyte distribution using Generalized Additive Models[J]. Plant Ecology, 1998, 139:113-124.
[7] Mitchell R J, Auld M HD, Le Duc M G. Ecosystem stability and resilience: A review of their relevance for the conservation management of lowland health [J]. Perspectives in Plant Ecology, Evolution and Systemitics, 2000, 3: 9-22.
[8] Kienast F, Fritschi J, Bissegger M, et al. Modeling successional patterns of high-elevation forests under changing herbivore pressure response at the landscape level[J]. Forest Ecology and Management, 1999, 120:35-46.
[9] Grime J P. Vegetation classification by reference to strategies[J]. Nature, 1974, 250:26-31.
[10] Grime J P. Plant Strategies and Vegetation Processes[M].Chichester: John Willey & Sons, 1979.
[11] Grime J P. Plant Strategies, Vegetation Processes, and Ecosystem Properties[M]. Chichester: John Willey & Sons, 2001.
[12] Campbell B D, Grime J P. An experimental test of plant strategy theory[J]. Ecology, 1992, 73:15-29.
[13] Hodgson J G. Allocating CSR plant functional types: A soft approach to a hard problems[J]. Oikos, 1999, 85:282-294.
[14] Wilson J B, Lee W G. C-S-R triangle theory: Community-level predictions, test, evaluations of criticisms, and relation to other theories[J]. Oikos, 2000, 91:77-96.
[15] Diaz S, Cabido M. Plant functional types and ecosystem function in relation to global change[J]. Journal of Vegetation Science, 1997, 8: 463-474.
[16] Pausas J G. Mediterranean vegetation dynamics: Modeling problems and functional types[J]. Plant Ecology, 1999, 140: 27-39.
[17] Kleyer M. Distribution of plant functional types along gradients of disturbance intensity and resource supply in an agricultural landscape[J]. Journal of Vegetation Sciences, 1999, 10: 697-708.
[18] Box E O. Factors determining distributions of tree species and plant functional types[J]. Vegetatio, 1995, 121: 101-116.
[19] McIntyre S, Diaz S, Lavoral S, et al. Plant functional types and disturbance dynamics-Introduction [J]. Journal of Vegetation Science, 1999, 10: 604-608.
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