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|Table of Contents|

森林植被的显花、传粉与繁育系统(PDF)

《南京林业大学学报(自然科学版)》[ISSN:1000-2006/CN:32-1161/S]

Issue:
2012年06期
Page:
1-7
Column:
特稿
publishdate:
2012-12-05

Article Info:/Info

Title:
Florescence, pollination and breeding systems of forest vegetation
Author(s):
FANG Yanming
College of Forest Resources and Environment, Nanjing Forestry University, Nanjing 210037,China
Keywords:
plant reproductive ecologyfloral typesfloral colorsfloral sizepollination systembreeding system
Classification number :
Q9481
DOI:
10.3969/j.jssn.1000-2006.2012.06.001
Document Code:
A
Abstract:
The diversity of florescence, pollination and breeding systems is recently one of key topics in the plant reproductive ecology. The author reviewed the advances in this field during the past 10 years. Main results are as follows: six basic types of floral types was identified, e.g. dishbowl, bellfunnel, headbrush, gullet, flag and tube, and the floral colors was divided into nine categories, e.g. white, yellow, blue, violet, pink, red, green, brown, and black. We also compared different criteria of floral size. The florescence system characterized by floral types, flora color and floral size showed a highly variable pattern and complex ecological relevance. Plant pollination system includes anemophily, hydrophily, ornithophily, chiropterophily and entomophily. Furthermore, the entomophily was divided into nine categories, e.g. cockroach pollination, thripsophily, cantharophily, phalaenophily, psychophily, fly pollination, sphecophily, myrmecophily, and melittophily. The pollination system was closely associated with floral types and colors. The plant breeding system could be divided into hermaphroditic, dioecious and monoecious, or into seven categories, e.g. hermaphroditic, dioecious, monoecious, gynomonoecious, andromonoecious, gynodioecious and androdioecious. The breeding system diversity was associated with pollination system significantly. The author also look into the future of development trend, theoretical, method and technique innovation of plant reproductive ecology.

References

[1]Chazdon R L, Careaga S, Webb C, et al. Community and phylogenetic structure of reproductive traits of woody species in wet tropical forests[J]. Ecological Monographs, 2003, 73(3): 331-348.
[2]Giro L C, Lopes A V, Tabarelli M, et al. Changes in tree reproductive traits reduce functional diversity in a fragmented Atlantic forest landscape[J]. PLoS ONE, 2007, 2(9): 1-12.
[3]Eckert C G, Kalisz S, Geber M A, et al. Plant mating systems in a changing world[J]. Trends in Ecology & Evolution, 2010,25(1): 35-43.
[4]Rafferty N E, Ives A R. Effects of experimental shifts in flowering phenology on plantpollinator interactions[J]. Ecology Letters, 2011, 14(1): 69-74.
[5]Lopes A V, Girao L C, Santos B A, et al. Longterm erosion of tree reproductive trait diversity in edgedominated Atlantic forest fragments[J]. Biological Conservation, 2009, 142(6): 1154-1165.
[5]Chen X S, Li Q J. Sexual systems and ecological correlates in an Azonal tropical forests, SW China[J]. Biotropica, 2008a, 40(2): 160-167.
[7]Chen X S, Li Q J. Patterns of plant sexual systems in subtropical evergreen broadleaved forests in Ailao Mountains, SW China[J]. Journal of Plant Ecology, 2008b, 1(3): 179-185.
[8]Faegri K, van der Pijl L. The Principles of Pollination Ecology[M]. Oxford:Pergamon Press, 1966.
[9]Hoffmann F. Biodiversity and Pollination: Flowering Plants and Flowervisiting Jnsects in Agriculture and Seminatural Landscapes[D]. Netherlands:University of Groningen,2005.
[10]Machado I C, Lopes A V. Floral traits and pollination systems in the Caatinga, a Brazilian tropical dry forest[J]. Annuals of Botany, 2004, 94:365-376.
[11]Olesen J M, Dupont Y L, Ehlers B K, et al. The openness of a flower and its number of flowervisitor species[J]. Taxon, 2007, 56(3): 729-736.
[12]Godley E J. Flower biology in New Zealand[J]. New Zealand Journal of Botany, 1979, 17(4):441-466.
[13]Bernardello G, Anderson G J, Stuessy T F, et al. A survey of floral traits, breeding systems, floral visitors, and pollination systems of the angiosperms of the Juan Fernández Islands (Chile)[J]. Botanical Review, 2001, 67(3): 255-308.
[14]Carpenter R J, Read J, Jaffre T. Reproductive traits of tropical rainforest trees in New Caledonia[J]. Journal of Tropical Ecology, 2003, 19(4):351-365.
[15]Abe T. Threatened pollination systems in native flora of the Ogasawara (Bonin) Islands[J]. Annuals of Botany, 2006, 98(2): 317-334.
[16]Momose K, Yumoto T, Nagamitsu T, et al. Pollination biology in a lowland dipterocarp forest in Sarawak, Malaysia. I. Characteristics of the plantpollinator community in a lowland dipterocarp forest[J]. American Journal of Botany, 1998, 85(10): 1477-1501.
[17]Devy M S, Davidar P. Pollination systems of trees in Kakachi, a midelevation wet evergreen forest in Western Ghats, India[J]. American Journal of Botany, 2003, 90(4): 650-657.
[18]Selwyn M A, Parthasrathy N. Reproductive traits and phenology of plants in tropical dry evergreen forest on the Coromandel coast of India[J]. Biodiversity and Conservation, 2006, 15(10):3207-3234.
[19]Griffiths M E, Lawes M J. Biogeographic, environmental, and phylogenetic influences on reproductive traits in subtropical forest trees, South Africa[J]. Ecography, 2006, 29(4): 614-622.
[20]Martins F Q, Batalha M A. Pollination systems and floral traits in Cerrado woody species of the upper Taquari region (central Brazil)[J]. Brazilian Journal of Biology, 2006, 66(2A): 543-552.
[21]Vary L B, Gillen D L, Randrianjanahary M, et al. Dioecy, monoecy, and their ecological correlates in the littoral forest of Madagascar[J]. Biotropica, 2011, 43(5):582-590.
[22]Senarath W T P S K. Dioecy and monoecy in the flora of Sri Lanka and their evolutionary correlations to endemism, growth form, fruit type, seed number and flower size[J]. Bangladesh Journal of Plant Taxonomy, 2008, 15(1): 13-19.
[23]Corlett R T. Flower visitors and pollination in the Oriental (Indomalayan) region[J]. Biological Review, 2007, 79(3): 497-532.
[24]Willianms G, Adam P. The flowering of Australia′s rainforests: a plant and pollination miscellany[M]. Australasian Plant Conservation:CSIRO Publishing,2010.
[25]Willmer P. Pollination and Floral Ecology[M]. Princetopn:Princeton University Press,2011.
[26]Bush M B, Rivera R. Reproductive ecology and pollen representation among neotropical trees[J]. Global Ecology & Biogeography, 2001, 10(4): 359-367.
[27]Kang H, Bawa K S. Effects of successional status, habit, sexual systems, and pollinators on flowering patterns in tropical rain forest trees[J]. American Journal of Botany, 2003, 90(6): 865-876.
[28]Martins F Q, Batalha M A. Vertical and horizontal distribution of pollination systems in Cerrado fragments of central Brazil[J]. Brazilian Archives of Biology and Technology, 2007, 50(3): 503-514.
[29]Ramirez N. Ecology of pollination in a tropical Venezuelan savanna[J]. Plant Ecology, 2004, 173(2): 171-189,.
[30]Makrodimos N, Blionis G J, Krigas N, et al. Flower morphology, phenology and visitor patterns in an alpine community on Mt Olympos, Greece[J]. Flora, 2008, 203(6): 449-468.
[31]Bawa K S, Bullock S H, Perry D R, et al. Reproductive biology of tropical lowland rain forest trees. II. Pollination systems[J]. American Journal of Botany, 1985, 72(3): 346-356.
[32]Gross C L. A comparison of the sexual systems in the trees from the australian tropics with other tropical biomes—more monoecy but why?[J].American Journal of Botany, 2005, 92(6): 907-919.
[33]Tseng Y H, Hsieh C F, Hu J M. Incidences and ecological correlates of dioecious angiosperms in Taiwan and its outlying Orchid Island[J]. Botanical Studies, 2008, 49: 261-276.
[34]Hansman D J. Floral biology of dry rainforest in north Queensland and a comparison with adjacent savanna woodland[J]. Australian Journal of Botany, 2001, 49(2):137-153.
[35]Adam P, Williams G. Dioecy, selfcompatibility and vegetative reproduction in Australian subtropical rainforest trees and shrubs[J]. Cunninghamia, 2001, 7(1): 89-100.
[36]Ramirez N. Plant sexual systems, dichogamy, and herkogamy in the Venezuelan Central Plain[J]. Flora, 2005, 200(1):30-48.
[37]Matallana G, Wendt T, Araujo D S D, et al. High abundance of dioecious plants in a tropical coastal vegetation[J]. American Journal of Botany, 2005, 92(9): 1513-1519.
[38]Krishnan R M, Ramesh B R. Endemism and sexual systems in the evergreen tree flora of the Western Ghats, India[J]. Diversity and Distributions, 2005,11(6): 559-565.
[39]LemusJiménez L J, Ramírez N. Breeding systems of the Paraguan? coastal plain plants, Venezuela[J]. Revista de Biologa Tropical, 2005, 53(3-4):415-430.
[40]Queenborough S A, Mazer S J, Vamosi S M, et al. Seed mass, abundance and breeding system among tropical forest species: do dioecious species exhibit compensatory reproduction or abundances?[J].Journal of Ecology, 2009, 97(3): 555-566.
[41]Vamosi S M, Queenborough S A. Breeding systems and phylogenetic diversity of seed plants along a largescale elevational gradient[J]. Journal of Biogeography, 2010, 37(3): 465-476.
[42]Renner S S, Ricklefs R E. Dioecy and its correlates in the flowering plants[J]. American Journal of Botany, 1995, 82(5): 596-606.
[43]Machado I C, Lopes A V, Marlies S, et al. Plant sexual systems and a review of the breeding system studies in the Caatinga, a Brazilian tropical dry forest[J]. Annuals of Botany, 2006, 97(2): 277-287.
[44]Randle A M, Slyder J B, Kalisz S. Can differences in autonomous selfing ability explain differences in range size among sistertaxa pairs of Collinsia (Plantaginaceae)? An extension of Baker′s Law[J]. New Phytologist, 2009, 183(3): 618-629.
[45]Johnson S D, Steiner K E. Generalization vs. specialization in plant pollination systems[J]. Trends in Ecology & Evolution, 2000, 15(4): 140-143.
[46]Hegland S J, Nielsen A, Lá zaro A, et al. How does climate warming affect plantpollinator interactions?[J].Ecology Letters, 2009, 12(2): 184-195.
[47]Jaimes I, Ramirez N. Breeding systems in a secondary deciduous forest in Venezuela: the importance of life form, habitat, and pollination specificity[J]. Plant Systematics and Evolution, 1999, 215(1-4):23-36.
[48]Donaldson J S. Is there a floral parasite mutualism in cycad pollination? The pollination biology of Encephalartos villosus (Zamiaceae)[J]. American Journal of Botany, 1997, 84(10): 1398-1406.
[49]Johnson S D, Harris F, Proche 瘙 塂 瘙 塁 . Pollination and breeding systems of selected wildflowers in a southern African grassland community[J]. South African Journal of Botany, 2009,75(4), 630-645.
[50]Hansen J E, Molau U. Pollination biology, mating system, and seed set in a Danish population of Saxifraga granulata[J]. Nordic Journal of Botany, 1994, 14(3): 257-268.
[51]Johnson P A, Hoppensteadt F C, Smith J J, et al. Conditions for sympatric speciation: a diploid model incorporating habitat fidelity and nonhabitat assortative mating[J]. Evolutionary Ecology, 1996, 10(2):187-205.
[52]Tscharntke T,Brandl R. Plantinsect interactions in fragmented landscapes[J]. Annual Review of Entomology, 2004, 49: 405-430.

Last Update: 2012-11-30