植物生态学报 ›› 2005, Vol. 29 ›› Issue (6): 1020-1028.DOI: 10.17521/cjpe.2005.0135
收稿日期:
2004-12-26
接受日期:
2005-06-08
出版日期:
2005-09-30
发布日期:
2005-09-30
通讯作者:
李镇清
作者简介:
*E-mail:lizq@ibcas.ac.cn基金资助:
LIU Zhen-Guo1,2, LI Zhen-Qing1,*()
Received:
2004-12-26
Accepted:
2005-06-08
Online:
2005-09-30
Published:
2005-09-30
Contact:
LI Zhen-Qing
摘要:
植物群落中, 物种小尺度空间结构影响着种群或群落的动态及有关的生态学过程。植物主要是和它同种或异种的邻近个体相互作用,植物个体周围的局部环境和大空间尺度下群落的平均水平是完全不同的。群落中的许多过程都影响小尺度空间结构的形成和动态,同样,局部空间结构反过来影响着植物的生长、更新和凋亡等重要过程。鉴于目前对小尺度空间结构进行的大量研究以及其重要性,有必要对其研究进展进行适当的总结,以期明确将来进一步的研究方向。该文以此为出发点,首先介绍了植物群落中物种小尺度空间结构产生的6个原因:1)生境的空间异质性;2)植物繁殖体的传播;3)植物之间的相互作用;4)生物环境(动物和微生物)的作用;5)外界干扰的作用;6)多因子综合作用。然后阐述了小尺度空间结构意义及对生物多样性、植物种群遗传学和恢复生态学研究的影响。最后对目前物种小尺度空间结构研究存在的几点问题及将来的研究方向作以下归纳:1)大尺度植被动态的研究应该整合小尺度空间结构的信息;2)不论从生物学还是生态学上来讲, 植被小尺度空间结构的研究应该把植物作为中心,确定适当的尺度和采取合理的空间统计方法;3)充分重视小尺度空间结构在退化生态系统恢复中的应用意义;4)注重从小尺度的局部格局研究入手对群落总体特征进行整合;5)植物群落动态研究中,物种小尺度空间结构与平均场假说相结合的必要性。
刘振国, 李镇清. 植物群落中物种小尺度空间结构研究. 植物生态学报, 2005, 29(6): 1020-1028. DOI: 10.17521/cjpe.2005.0135
LIU Zhen-Guo, LI Zhen-Qing. PERSPECTIVES ON SMALL-SCALE SPATIAL STRUCTURE OF PLANT SPECIES IN PLANT COMMUNITIES. Chinese Journal of Plant Ecology, 2005, 29(6): 1020-1028. DOI: 10.17521/cjpe.2005.0135
[1] | Abe S, Masaki T, Nakashizuka T (1995). Factors influencing sapling composition in canopy gaps of a temperate deciduous forest. Vegetatio, 120,21-32. |
[2] | Aston JL, Bradshaw AD (1966). Evolution in closely adjacent plant populations. II. Agrostis stolonifera in maritime habitats. Heredity, 21,649-664. |
[3] | Augspurge CK (1984). Seedling survival of tropical tree species: interactions of dispersal distance, light gaps, and pathogens. Ecology, 65,1705-1712. |
[4] | Baldocci D, Collineau S (1994). The physical nature of solar radiation in heterogeneous canopy:spatial and temporal attributes. In: Caldwell MM, Pearcy RW eds. Exploitation of Environmental Heterogeneity by Plants. Academic Press, New York. |
[5] | Barik SK, Pandey HN, Tripathi RS, Rao P (1992). Microenvironment variability and species diversity in treefall gaps in a subtropical broadleaved forest. Vegetatio, 103,31-40. |
[6] | Blackman GE (1935). A study by statistic methods of the distribution of species in grassland association. Annals of Botany, 49,749-777. |
[7] |
Bolker BM, Pacala SW (1999). Spatial moment equations for plant competition: understanding spatial strategies and the advantages of short dispersal. The American Naturalist, 153,575-602.
URL PMID |
[8] | Bromley J, Brouwer J, Barker AP, Gaze S, Valentin C (1997). The role of surface water redistribution in an area of patterned vegetation in a semi-arid environment, South-West Niger. Journal of Hydrology, 198,1-29. |
[9] | Brooker RW, Callaghan TV (1998). The balance between positive and negative plant interactions and its relationship to environmental gradients: a model. Oikos, 81,196-207. |
[10] | Cao GX (操国兴), Zhong ZC (钟章成), Liu Y (刘芸), Xie DT (谢德体) (2003). The study of distribution pattern of Camellia rosthorniana population in Jinyun mountain. Journal of Biology (生物学杂志), 20,10-12. (in Chinese with English abstract) |
[11] | Carlsson BA, Callaghan TV (1991). Positive plant interactions in tundra vegetation and the importance of shelter. Journal of Ecology, 79,973-983. |
[12] | Chen P (陈鹏), Chu Y (初雨), Gu FX (顾峰雪), Zhang YD (张远东), Pan XL (潘晓玲) (2003). Spatial heterogeneity of vegetation and soil characteristics in oasis-desert ecotone. Chinese Journal of Applied Ecology (应用生态学报), 14,904-908. (in Chinese with English abstract) |
[13] | Chen YF (陈玉福), Yu FH (于飞海), Dong M (董鸣) (2000). Spatial heterogeneity of the psammophytic half-shrub community in Mu Us Sandland. Acta Ecologica Sinica (生态学报), 20,568-572. (in Chinese with English abstract) |
[14] | de Blois S, Domon G, Bouchard A (2002). Landscape issues in plant ecology. Ecography, 25,244-256. |
[15] | Ennos RA (2001). Inferences about spatial processes in plant populations from the analysis of molecular markers. In: Silvertown J, Antonovics J eds. Integrating Ecology and Evolution in a Spatial Context. Blackwell, Oxford,45-73. |
[16] | Ferrière R, Le Galliard JF (2000). Invasion fitness and adaptive dynamics in spatial population models. In: Clobert J, Nichols JD, Danchin E, Dhondt A eds. Causes, Consequences and Mechanisms of Dispersal at the Individual, Population and Community Level. Oxford University Press,Oxford, UK. |
[17] | Fowler N (1988). The effects of environmental heterogeneity in space and time on the regulation of population and communities. In: Davy AJ, Hutchjins MJ, Watkingson AR eds. Plant Population Ecology. Blackwell, Oxford,36-47. |
[18] | Frankland JC, Ovington JD, Marcrae C (1963). Spatial and seasonal variation in soil, litter and vegetation in some Lake District woods. Journal of Ecology, 51,97-112. |
[19] | Garner W, Steinberger Y (1989). A proposed mechanism for the formation of "Fertile Island" in the desert ecosystem. Journal of Arid Environment, 16,257-262. |
[20] | Grei-Smith P (1987). Quantitative Plant Ecology. Butterworths, London. |
[21] | Hamilton WD, May RM (1977). Dispersal in stable habitats. Nature, 269,578-581. |
[22] |
Harper JL (1977). Population Biology of Plants. Academic press, London.
URL PMID |
[23] | Holzapfel C, Mahall BE (1999). Bidirectional facilitation and interference between shrubs and annuls in the Mojave Desert. Ecology, 80,1747-1761. |
[24] | Huang ZW (黄志伟), Peng M (彭敏), Chen GC (陈桂琛), Shi P (史萍), Zhou GY (周国英) (2001). The spatial distribution patterns and dynamics of some wetland dominant plants of the Qinghai Lake. Chinese Journal of Applied and Environmental Biology (应用与环境生物学报), 7,113-116. (in Chinese with English abstract) |
[25] | Hutchings MJ, Price ACP (1993). Does physiological integration enable clonal herbs to integrate the effects of environmental heterogeneity? Plant Species Biology, 8,159-238. |
[26] |
Isagi Y, Kanazashi T, Suzuki W, Tanaka H, Abe T (2000). Microsatellite analysis of the regeneration process of Magnolia obavata Thumb. Heredity, 84,143-151.
DOI URL PMID |
[27] | Jackson RB, Caldwell MM (1993). The scale of nutrient heterogeneity around individual plants and its quantification with geostatistics. Ecology, 74,612-614. |
[28] |
Jeltsch F, Milton SJ, Dean WRJ, van Rooyen N (1997). Simulation pattern formation around artificial waterholes in the semiarid Kalahari. Journal of Vegetation Science, 8,177-188.
DOI URL |
[29] | Jonathan HT, Robert SN, Stanley DS (2002). Soil resources heterogeneity in the Mojave Desert. Journal of Arid Environments, 3,269-292. |
[30] | Kalisz S, Hanzawa FM, Tonsor SJ, Thiede DA, Voigt S (1999). Ant-mediated seed dispersal alters pattern of relatedness in a population of Trillium grandiflorum. Ecology, 80,2620-2634. |
[31] | Kellner K, Bosch OJH (1992). Influence of patch formation in determing the stocking rate for southern African grasslands. Journal of Arid Environments, 22,99-105. |
[32] | Kelly VR, Canham CD (1992). Resource heterogeneity in old fields. Journal of Vegetation Science, 3,545-552. |
[33] |
Kershaw KA, Looney JH (1985). Quantitative and Dynamic Ecology. Edward Arnold, London.
URL PMID |
[34] | Kieft KL, White CS, Loftin SR, Aguilar R, Craig JA, Skaar DA (1998). Temporal dynamics in soil carbon and nitrogen resources at a grassland-shrubland ecotone. Ecology, 79,671-683. |
[35] | Krahulec F, Agnew ADQ, Agnew S, Willems JH (1990). Spatial Processes in Plant Communities. Academia, Prague. |
[36] | Law R, Diechmann U, Metz JAJ (2000). Introduction. In: Dieckmann U, Law R, Metz JAJ eds. The Geometry of Ecological Interactions: Simplifying Spatial Complexity. Cambridge University Press, Cambridge,1-6. |
[37] | Levene H (1953). Genetic equilibrium when more than one ecological niche is available. The American Naturalist, 87,311-313. |
[38] | Levin SA (1992). The problem of pattern and scale in ecology. Ecology, 73,1943-1967. |
[39] | Li GC (李贵才), He YT (何永涛), Han XG (韩兴国) (2003). Features of gaps of middle mountain moist evergreen broad-leaved forest in Ailao Mountain. Chinese Journal of Ecology (生态学杂志), 22,13-17. (in Chinese with English abstract) |
[40] | Liu ZG (刘振国), Li ZQ (李镇清) (2004). Fine-scale spatial pattern of Artemisia frigida population under different grazing intensities. Acta Ecologica Sinica (生态学报), 24,227-234. (in Chinese with English abstract) |
[41] | Liu ZG (刘振国), Li ZQ (李镇清) (2005). Fine-scale spatial pattern of Cleistogenes squarrosa population under different grazing intensities. Acta Prataculturae Sinica (草业学报), 14,11-17. (in Chinese with English abstract) |
[42] | Liu ZM (刘志民), Zhao XY (赵晓英), Liu XM (刘新民) (2002). Relationship between disturbance and vegetation. Acta Prataculturae Sinica (草业学报), 11,1-9. (in Chinese with English abstract) |
[43] | Mack RN, Harper JL (1977). Interference in dune annuals: spatial pattern and neighbourhood effects. Journal of Ecology, 65,345-363. |
[44] | Mahdi A, Law R (1987). On the spatial organization of plant species in a limestone grassland. Journal of Ecology, 75,459-476. |
[45] | Molofsky J (1999). The effect of nutrients and spacing on neighbor relations in Cardamine pensylvanica. Oikos, 84,506-514. |
[46] | Pacala SW, Silander JA (1990). Field tests of neighborhood population dynamic models of two annual weed species. Ecological Monographs, 60,113-134. |
[47] |
Packer A, Clay K (2000). Soil pathogens and spatial patterns of seedling mortality in a temperate forest. Nature, 404,278-281.
DOI URL PMID |
[48] | Purves DW, Law R (2002). Fine-scale spatial structure in a grassland community: quantifying the plant's view. Journal of Ecology, 90,121-129. |
[49] | Qian YB (钱亦兵), Wu ZN (吴兆宁), Jiang J (蒋进), Zhang LY (张立运), Shi QD (师庆东) (2004). Impact of soil physical-chemical properties on diversity of desert plant communities diversity in agricultural development area of Kelamayi. Arid Zone Research (干旱区研究), 20(Suppl.),74-81. (in Chinese with English abstract) |
[50] |
Rainey PB, Travasino M (1998). Adaptive radiation in a heterogeneous environment. Nature, 394,69-72.
DOI URL PMID |
[51] | Rees M, Grubb PJ, Kelly D (1996). Quantifying the impact of competition and spatial heterogeneity on the structure and dynamics of a four-species guild of winter annuals. The American Naturalist, 147,1-32. |
[52] | Schlesinger WH, Raikes JA, Hartley AE, Cross AF (1996). On the spatial pattern of soil nutrients in desert ecosystem. Ecology, 77,364-374. |
[53] | Schlesinger WH, Reynolds JF, Cunningham GL, Huenneke LF, Jarrell WM, Virginia RA, Whitford WG (1990). Biological feedbacks in global desertification. Science, 47,1043-1048. |
[54] | Shen ZH (沈泽昊) (2002). A multi-scale study on the vegetation-environment relationship of a mountain forest transect. Acta Ecologica Sinica (生态学报), 22,461-470. (in Chinese with English abstract) |
[55] | Shen ZH (沈泽昊), Zhang XS (张新时), Jin YX (金义兴) (2000). Spatial pattern analysis and topographical interpretation of species diversity in the forests of Dalaoling in the region of the Tree Gorgaes. Acta Botanica Sinica (植物学报), 42,620-627. (in Chinese with English abstract) |
[56] |
Silander JA, Pacala SW (1985). Neighborhood predictors of plant performance. Oecologia, 66,256-263.
DOI URL PMID |
[57] |
Silvertown J, Law R (1987). Do plants need niches? Trends in Ecology and Evolution, 2,24-26.
DOI URL PMID |
[58] | Stohlgren TJ (1998). Comparison of rangeland vegetating sampling techniques in the control grasslands. Journal of Range Management, 51,164-172. |
[59] | Stoll P, Prati D (2001). Intraspecific aggregation alters competitive interactions in experimental plant communities. Ecology, 82,319-327. |
[60] | Stoll P, Weiner J (2000). A neighbourhood view of interactions among individual plants. In: Diechmann U, Law R, Metz JAJ eds. The Geometry of Ecological Interactions: Simplifying Spatial Complexity. Cambridge University Press, Cambrdge, UK,11-27. |
[61] | Stowe LG, Wade MJ (1979). The detection of small-scale pattern in vegetation. Journal of Ecology, 67,1047-1064. |
[62] | Su ZY (苏志尧), Wu DR (吴大荣), Chen BG (陈北光) (2000). Structure and spatial pattern dynamics of dominant populations in a natural forest in north Guangdong Provice. Chinese Journal of Applied Ecology (应用生态学报), 11,337-341. (in Chinese with English abstract) |
[63] | Thiery JM, Herbes MD, Valentin C (1995). A model simulating the genesis of banded vegetation patterns in Niger. Journal of Ecology, 83,497-507. |
[64] |
van Baalen M, Rand DA (1998). The unit of selection in visous populations and the evolution of altruism. Journal of Theoretical Biology, 193,631-648.
URL PMID |
[65] | van der Hoeven EC, de Kroon H, During HJ (1990). Fine-scale spatial distribution of leaves and shoots of two chalk grassland perennials. Vegetatio, 86,151-160. |
[66] | van Dorp D, van den Hoek WPA, Daleboudt C (1996). Seed dispersal capacity of six perennial grassland species measured in a wind tunnel at varying wind speed and height. Canadian Journal of Botany, 74,1956-1963. |
[67] | van Rijnberk H, During H (1990). Bryophyte pattern and dynamics in Dutch chalk grassland.In: Krahulec F, Agnew ADQ, Agnew S, Willems JH eds. Spatial Processes in Plant Communities. Academia, Prague,161-172. |
[68] | Wang GH (王国宏), Ren JZ (任继周), Zhang ZH (张自和) (2001). A study on the population diversity of plant community in Hexi mountain-oasis-desert area. Ⅰ. General features. Acta Prataculturae Sinica (草业学报), 10,1-12. (in Chinese with English abstract) |
[69] | Weiner J (1985). Size hierarchies in experimental populations of annual plants. Ecology, 66,743-752. |
[70] |
Weiner J (1990). Asymmetric competition in plant populations. Trends in Ecology and Evolution, 5,360-364.
URL PMID |
[71] | Xiao DN (肖笃宁), Bu RC (布仁仓), Li XZ (李秀珍) (1997). Spatial ecology and landscape heterogeneity. Acta Ecologica Sinica (生态学报), 17,453-461. (in Chinese with English abstract) |
[72] | Xie JY (谢佳彦), Deng ZP (邓志平) (2003). Spatial pattern and size structure of Castanopsis castanopsis population in Wuyun Mountain. Chinese Journal of Ecology (生态学杂志), 22,35-39. (in Chinese with English abstract) |
[73] | Xin XP (辛晓平), Yang ZY (杨正宇), Tian XZ (田新智), Gao Q (高琼) (2000). Patch dynamics of alkaline Leymus Chinensis grassland under grazed and ungrazed conditions. Acta Phytoecologica Sinica (植物生态学报), 24,656-661. (in Chinese with English abstract) |
[74] | Yang LM (杨利民), Han M (韩梅), Li JD (李建东), Zhou GS (周广胜) (2000). Impact of distribution of plant flowering phase on species diversity in grassland community. Journal of Jilin Agricultural University (吉林农业大学学报), 22,55-58. (in Chinese with English abstract) |
[75] | Yang LM (杨利民), Han M (韩梅), Zhou GS (周广胜), Wang YH (王玉辉) (2002). Studies on the maintaining mechanism of species diversity of grassland community. Ⅲ. Species distribution pattern. Journal of Jilin Agricultural University (吉林农业大学学报), 24,58-61. (in Chinese with English abstract) |
[76] | Yang LM (杨利民), Zhou GS (周广胜), Wang GH (王国宏) (2001). Investigating realized niches as a mechanism of species diversity maintenance in a species-rich grassland community. Acta Phytoecologica Sinica (植物生态学报), 25,634-638. (in Chinese with English abstract) |
[77] | Ye WH (叶万辉) (2000). The maintenance mechanism of plant community and its species diversity. Chinese Biodiversity (生物多样性), 8,17-24. (in Chinese with English abstract) |
[78] | Zhang WG (张卫国), Huang WB (黄文冰), Yang ZY (杨振宇) (2003). The study on the relationship between mini-patch and degradation of pasture. Acta Prataculturae Sinica (草地学报), 12,44-50. (in Chinese with English abstract) |
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