PDR 2012, 34(3) 239-247 DOI:   10.3724/SP.J.1143.2012.12030  ISSN: 2095-0845 CN: 53-1217/Q

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Flower color polymorphism
Pollinator attraction
Phylogenetic analysis
TANG Xiao-Xin-1、2
HUANG Shuang-Quan-1
Article by Tang, X. X. 1、2
Article by Huang, S. Q. 1

Research Progress on Diversity and Variation in Flower Color

 TANG  Xiao-Xin-1、2, HUANG  Shuang-Quan-1

1 College of Life Sciences, Wuhan University, Wuhan 430072, China;2 School of Life Sciences, Guizhou Normal University, Guiyang 550001, China


Flower color is extremely diverse not only among flowering plants, but also in different populations and/or individuals of the same species (i.e., flower color polymorphism). There is also color variation within the same or different floral structures. Understanding the formation and maintenance of the diversity of flower color provides a cue to unveil the evolution of flowers. A long standing view considers flower color functioning as visual signal for pollinators, which may facilitate pollen transfer and increase foraging efficiency. Here we introduce four aspects of flower color diversity at interspecific and intraspecific levels, four different methodologies of studying color variation, discuss three hypotheses that explain the color variation. Future studies combining phylogenetic analysis and involving multiple factors including pollinators, herbivores and environments will be much helpful for a better understanding the diversity and evolution of flower color.

Keywords Flower color polymorphism   Pollinator attraction   Herbivores   Phylogenetic analysis  
Received 2012-03-12 Revised  Online: 2012-04-12 
DOI: 10.3724/SP.J.1143.2012.12030
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Andersson S, Jorgensen TH, 2005. The genetic basis of naturally occurring pollen color dimorphisms in Nigella degenii (Ranunculaceae) [J]. Journal of Heredity, 96 (5): 550—556
Armbruster WS, 2002. Can indirect selection and genetic context contribute to trait diversification? A transitionprobability study of blossomcolor evolution in two genera[J]. Journal of Evolutionary Biology, 15 (3): 468—486
Bradshaw HD, Schemske DW, 2003. Allele substitution at a flower colour locus produces a pollinator shift in monkeyflowers[J]. Nature, 426 (6963): 176—178
Campbell DR, Bischoff M, Lord JM et al., 2010. Flower color influences insect visitation in alpine New Zealand[J]. Ecology, 91 (9): 2638—2649
Campbell DR, Bischoff M, Lord JM et al., 2012. Where have all the blue flowers gone: pollinator responses and selection on flower colour in New Zealand Wahlenbergia albomarginata[J]. Journal of Evolutionary Biology, 25 (2): 352—364
Carlson JE, Holsinger KE, 2010. Natural selection on inflorescence color polymorphisms in wild Protea populations: the role of pollinators, seed predators, and intertrait correlations[J]. American Journal of Botany, 97 (6): 934—944
Caruso CM, Scott SL, Wray JC et al., 2010. Pollinators, herbivores, and the maintenance of flower color variation: a case study with Lobelia siphilitica[J]. International Journal of Plant Sciences, 171 (9): 1020—1028
Clegg MT, Durbin ML, 2003. Tracing floral adaptations from ecology to molecules[J]. Nature Reviews Genetics, 4 (3): 206—215
Coberly LC, Rausher MD, 2003. Analysis of a chalcones synthase mutant in Ipomoea purpurea reveals a novel function for flavonoids: amelioration of heat stress[J]. Molecular Ecology, 12 (5):1113—1124
Coberly LC, Rausher MD, 2008. Pleiotropic effects of an allele producing white flowers in Ipomoea purpurea[J]. Evolution, 65 (5): 1076—1085
Comba L, Corbet SA, Hunt H et al., 2000. The role of genes influencing the corolla in pollination of Antirrhinum majus[J]. Plant, Cell and Environment, 23 (6): 639—647
Durbin ML, Lundy KE, Morrell PL et al., 2003. Genes that determine flower color: the role of regulatory changes in the evolution of phenotypic adaptations[J]. Molecular Phylogenetics and Evolution, 29 (3): 507—518
Ennos RA, Clegg MT, 1983. Flower color variation in the morning glory, Ipomoea purpurea[J]. The Journal of Heredity, 74 (4): 247—250
Epperson BK, Clegg MT, 1988. Genetics of flower color polymorphism in the common morning glory (Ipomoea purpurea) [J]. The Journal of Heredity, 79 (1): 64—68
Epperson BK, Clegg MT, 1992. Unstable white flower color genes and their derivatives in the morning glory[J]. The Journal of Heredity, 83 (6): 405—409
Faegri K, van der Pijl L, 1979. The Principles of Pollination Ecology, 3rd ed[M]. Oxford, UK: Pergamon Press, 81—86
Fehr C, Rausher MD, 2004. Effects of variation at the flowercolour A locus on mating system parameters in Ipomoea purpurea[J]. Molecular Ecology, 13 (7): 1839—1847
Fenster CB, Armbruster WS, Wilson P et al., 2004. Pollination syndromes and floral specialization[J]. Annual Review of Ecology, Evolution, and Systematics, 35 (1): 375—403
Frey FM, 2004. Opposing natural selection from herbivores and pathogens may maintain floralcolor variation in Claytonia virginica (Portulacaceae) [J]. Evolution, 58 (11): 2426—2437
Gigord LDB, Macnair MR, Smithson A, 2001. Negative frequencydependent selection maintains a dramatic flower color polymorphism in the rewardless orchid Dactylorhiza sambucina (L.) Soò[J]. Proceedings of the National Academy of Sciences USA, 98 (11): 6253—6255
Glover BJ, Whitney HM, 2010. Structural colour and iridescence in plants: the poorly studied relations of pigment colour[J]. Annals of Botany, 105 (4): 505—511
Gong YB, Huang SQ, 2011. Temporal stability of pollinator preference in an alpine plant community and its implications for the evolution of floral traits[J]. Oecologia, 166 (3): 671—680
He QL, Shen Y, Wang MX et al., 2011. Natural variation in petal color in Lycoris longituba revealed by anthocyanin components[J]. PLOS ONE, 6 (8): e22098
Hodges SA, Fulton M, Yang JY et al., 2003. Verne Grant and evolutionary studies of Aquilegia[J]. New Phytologist, 161 (1): 113—120
Huang SQ (黄双全), 2007. Studies on plantpollinator interaction and its significances[J]. Biodiversity Science (生物多样性), 15 (6): 569—575
Huang SQ, Tang XX, 2008. Discovery of gynoecium color polymorphism in an aquatic plant[J]. Journal of Integrative Plant Biology, 50 (9): 1178—1182
Ida TY, Kudo G, 2003. Floral color change in Weigela middendorffiana (Caprifoliaceae): reduction of geitonogamous pollination by bumble bees[J]. American Journal of Botany, 90 (12): 1751—1757
Irwin RE, Strauss SY, 2005. Flower color microevolution in wild radish: evolutionary response to pollinatormediated selection[J]. The American Naturalist, 165 (2): 225—237
Irwin RE, Strauss SY, Storz S et al., 2003. The role of herbivores in the maintenance of a flower color polymorphism in wild radish[J]. Ecology, 84 (7): 1733—1743
Johnson SD, Dafni A, 1998. Response of beeflies to the shape and pattern of model flowers: implications for floral evolution in a Mediterranean herb[J]. Functional Ecology, 12 (2): 289—297
Jones KN, Reithel JS, 2001. Pollinatormediated selection on a flower color polymorphism in experimental populations of Antirrhinum (Scrophulariaceae) [J]. American Journal of Botany, 88 (3): 447—454
Jorgensen TH, Petanidou T, Andersson S, 2006. The potential for selection on pollen colour dimorphisms in Nigella degenii: morphspecific differences in pollinator visitation, fertilization success and siring ability[J]. Evolutionary Ecology, 20 (4): 291—306
Kudo G, Ishii HS, Hirabayashi Y et al., 2007. A test of the effect of floral color change on pollination effectiveness using artificial inflorescences visited by bumblebees[J]. Oecologia, 154 (1): 119—128
Lande R, Arnold SJ, 1983. The measurement of selection on correlated characters[J]. Evolution, 37 (6): 1210—1226
Levin DA, Brack ET, 1995. Natural selection against white petals in Phlox[J]. Evolution, 49 (5): 1017—1022
Li J (李俊), Gong M (龚明), Sun H (孙航), 2006. Advances in research of aposematic coloration in plant[J]. Acta Botanica Yunnanica (云南植物研究), 28 (2): 183—193
Li QL (李庆良), Ma XK (马晓开), Chen J (程瑾) et al., 2012. Quantitative studies of floral color and floral scent[J]. Biodiversity Science (生物多样性), 20 (3): 308—316
Majetic CJ, Raguso RA, Ashman TL, 2008. The impact of biochemistry vs. population membership on floral scent profiles in colour polymorphic Hesperis matronalis[J]. Annals of Botany, 102 (6): 911—922
MarténRodríguez S, Fenster CB, Agnarsson I et al., 2010. Evolutionary breakdown of pollination specialization in a Caribbean plant radiation[J]. New Phytologist, 188 (2): 403—417
MelendezAckerman EJ, Campbell DR, 1998. Adaptive significance of flower color and intertrait correlations in an Ipomopsis hybrid zone[J]. Evolution, 52 (5): 1293—1303
Mogford DJ, 1974. Flower colour polymorphism in Cirsium palustre. 2. Pollination[J]. Heredity, 33 (2): 257—263
Mu J, Li GY, Sun SC, 2010. Petal color, flower temperature, and behavior in an alpine annual herb, Gentiana leucomelaena (Gentianaceae) [J]. Arctic, Antarctic and Alpine Research, 2: 219—226
Odell E, Raguso RA, Jones KN, 1999. Bumblebee foraging responses to variation in floral scent and color in snapdragons (Antirrhinum: Scrophulariaceae) [J]. The American Midland Naturalist, 142 (2): 257—265
Ollerton J, 1996. Reconciling ecological processes with phylogenetic patterns: the apparent paradox of plantpollinator systems[J]. Journal of Ecology, 84 (5): 767—769
Ollerton J, 1998. Sunbird surprise for syndromes[J]. Nature, 394 (6695): 726—727
Ollerton J, Alarcon R, Waser NM et al., 2009. A global test of the pollination syndrome hypothesis[J]. Annals of Botany, 103 (9): 1471—1480
Phillips PC, Arnold SJ, 1989. Visualizing multivariate selection[J]. Evolution, 43 (6): 1209—1222
Rausher MD, 2001. Coevolution and plant resistance to natural enemies[J]. Nature, 411 (6839): 857—864
Rausher MD, 2008. Evolutionary transitions in floral color[J]. International Journal of Plant Sciences, 169 (1): 7—21
Rausher MD, Fry JD, 1993. Effects of a locus affecting floral pigmentation in Ipomoea purpurea on female fitness components[J]. Genetics, 134 (4): 1237—1247
Ren MX (任明迅), 2009. Intrafloral stamen differentiations and their adaptive significances[J]. Chinese Journal of Plant Ecology (植物生态学报), 33 (1): 222—236
Reynolds RJ, Dudash MR, Fenster CB, 2009. Multiyear study of multivariate linear and nonlinear phenotypic selection on floral traits of hummingbirdpollinated Silene virginica[J]. Evolution, 64 (2): 358—369
Schemske DW, Bierzychudek P, 2001. Evolution of flower color in the desert annual Linanthus parryae: Wright revisited[J]. Evolution, 55 (7): 1269—1282
Schemske DW, Bierzychudek P, 2007. Spatial differentiation for flower color in the desert annual Linanthus parryae: was Wright right?[J]. Evolution, 61 (11): 2528—2543
Schemske DW, Bradshaw, 1999. Pollinator preference and the evolution of floral traits in monkeyflowers (Mimulus) [J]. Proceedings of the National Academy of Sciences, USA, 96 (21): 11910—11915
Smith SD, 2010. Using phylogenetics to detect pollinatormediated floral evolution[J]. New Phytologist, 188 (2): 354—363
Smith SD, Miller RE, Otto SP et al., 2010. The effects of flower color transitions on diversification rates in morning glories (Ipomoea subg. Quamoclit, Convolvulaceae) [A]. In: Long M, Gu H, Zhou Z (eds.), Darwin’s Heritage Today: Proceedings of the Darwin 200 Beijing International Conference[M]. Beijing, China: Higher Education Press, 202—226
Sprengel CK, 1793. Das entdeckte Geheimniss der Natur im Bau und in der Befruchtung der Blumen. English translation by Haase P[A]. In: Lloyd DG, Barrett SCH (eds). Floral Biology[M]. New York, NY: Chapman and Hall, 3—43
Stanton ML, 1987. Reproductive biology of petal color variants in wild populations of Raphanus sativus: II. Factors limiting seed production[J]. American Journal of Botany, 74 (2): 188—196
Strauss SY, Whittall JB, 2006. Nonpollinator agents of selection on floral traits[A]. In: LD Harder, SCH Barrett, eds. Ecology and Evolution of Flowers[M]. Oxford: Oxford University Press, 120—138
Sun JF, Gong YB, Renner SS et al., 2008. Multifunctional bracts in the dove tree Davidia involucrata (Nyssaceae: Cornales): rain protection and pollinator attraction[J]. American Naturalist, 171 (1): 119—124
Tang LL, Huang SQ, 2007. Evidence for reductions in floral attractants with increased selfing rates in two heterandrous species[J]. New Phytologist, 175 (3): 588—595
Tang XX, Huang SQ, 2010. Fluctuating selection by water level on gynoecium colour polymorphism in an aquatic plant[J]. Annals of Botany, 106 (5): 843—848
Thomson JD, 1986. Pollen transport and deposition by bumble bees in Erythronium: influences of floral nectar and bee grooming[J]. Journal of Ecology, 74 (2): 329—341
Thomson JD, Thomson BA, 1989. Dispersal of Erythronium grandiflorum pollen by bumblebees: Implications for gene flow and reproductive success[J]. Evolution, 43 (3): 657—661
VallejoMarín M, Manson JS, Thomson JD et al., 2009. Division of labour within flowers: heteranthery, a floral strategy to reconcile contrasting pollen fates[J]. Journal of Evolutionary Biology, 22 (4): 828—839
Warren J, Mackenzie S, 2001. Why are all colour combinations not equally represented as flowercolor polymorphisms?[J]. New Phytologist, 151 (1): 237—241
Waser NM, Chittka L, Price MV et al., 1996. Generalization in pollination systems, and why it matters[J]. Ecology, 77 (4): 1043—1060
Waser NM, Price MV, 1981. Pollinator choice and stabilizing selection for flower color in Delphinium nelsonii[J]. Evolution, 35 (2): 376—390
Waser NM, Price MV, 1983. Pollinator behavior and natural selection for flower colour in Delphinium nelsonii[J]. Nature, 302 (5907): 422—424
Weiss MR, 1991. Floral colour changes as cure for pollinators[J]. Nature, 354 (6350): 227—229
Weiss MR, 1995. Floral color change: a widespread functional convergence[J]. American Journal of Botany, 82 (2): 167—185
Whittall JB, Hodges SA, 2007. Pollinator shifts drive increasingly long nectar spurs in columbine flowers[J]. Nature, 447 (7145): 706—709
Whitney HM, Kolle M, Andrew P et al., 2009. Floral iridescence, produced by diffractive optics, acts as a cue for animal pollinators[J]. Science, 323 (5910): 130—133
Wright S, 1943. An analysis of local variability of flower color in Linanthus parryae[J]. Genetics, 28 (2): 139—156

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