Abstract
Cohesive masses of pollen known as pollinia have evolved independently in two plant families — Orchidaceae and Asclepiadaceae. Yet, the bilateral symmetry of orchids has allowed a greater degree of specialization in pollination systems and a much greater diversity in the morphology of pollinaria — units comprising the pollinia(um) together with accessory structures for attachment to the pollinator. Pollinaria differ in the degree of cohesion of pollen in the pollinium, which may be soft, sectile (comprised of sub-units known as massulae) or hard. A single hard pollinium may contain more than a million pollen grains, yet pollen:ovule ratios in orchids are several orders of magnitude lower than in plants with powdery pollen due to the lack of wastage during transport to the stigma. Attachment of pollinia to the pollinator is usually achieved by means of a viscidium that adheres most effectively to smooth surfaces, such as the eyes and mouthparts of insects and beaks of birds. The stalk connecting a pollinium to the viscidium may be comprised of a caudicle (sporogenous in origin) and/or a stipe (derived from vegetative tissue), or be lacking altogether. Caudicles and stipes may undergo a gradual bending movement 20 s to several hours after withdrawal from the flower, the main function of which appears to be to reduce the possibility of geitonogamous pollination. Other mechanisms that promote outcrossing and pollen export in orchids include pollen carryover (achieved by sectile or soft pollinia), temporary retention of the anther cap, protandry and self-incompatibility (rare among orchids). Pollinaria ensure that large pollen loads are deposited on the stigma, thus enabling the fertilization of the large numbers of ovules in the flowers of Orchidaceae. Pollinaria also ensure efficient removal of pollen from the anther, minimal pollen wastage during transit, and a high probability of deposition on conspecific stigmas.
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References
Ackerman J. D. (1975) Reproductive biology ofGoodyera oblongifolia (Orchidaceae). Madrona 23: 191–198.
Ackerman J. D. (1995) An orchid flora of Puerto Rico and the Virgin Islands. Mem. N.Y. Bot. Gdn 73: 1–203.
Ackerman J. D., Mesler M. R. (1979) Pollination biology ofListera cordata (Orchidaceae). Amer. J. Bot. 6: 820–824.
Ackerman J. D., Williams N. H. (1980) Pollen morphology of the tribeNeottieae and its impact on the classification of the Orchidaceae. Grana 19: 7–18.
Ackerman J. D., Williams N. H. (1981) Pollen morphology of theChloraeinae (Orchidaceae: Diurideae) and related subtribes. Amer. J. Bot. 68: 1392–1402.
Ackerman J. D., Montalvo A. M. (1990) Shortand long-term limitations to fruit production in a tropical orchid. Ecology 71: 263–272.
Albert V. A. (1994) Cladistic relationships of the slipper orchids (Cypripedioideae: Orchidaceae) from congruent morphological and molecular data. Lindleyana 9: 115–132.
Alexandersson R. (1999) Reproductive biology of the deceptive orchidCalypso bulbosa. PhD thesis, University of Umea.
Atwood J. T. (1986) The size of the Orchidaceae and the systematic distribution of epiphytic orchids. Selbyana 9: 171–186.
Bell G. (1985) On the function of flowers. Proc. Roy. Soc. Lond. B. 224: 233–265.
Bernhardt P. (1995) Observations on the floral biology ofPterostylis curta (Orchidaceae). Cunninghamia 5: 1–8.
Blackman S. J., Yeung E. C. (1983) Comparative anatomy of pollinia and caudicles of an orchid (Epidendrum). Bot. Gaz. 144: 331–337.
Borba E. L., Semir J. (1999) Temporal variation in pollinarium size after its removal in species ofBulbophyllum: a different mechanism preventing self-pollination in Orchidaceae. Plant Syst. Evol. 217: 197–204.
Burns-Balogh P. (1982) Generic redefinition in the subtribeSpiranthinae (Orchidaceae). Amer. J. Bot. 69: 1119–1132.
Burns-Balogh P. (1983) A theory on the Evolution of the exine in Orchidaceae. Amer. J. Bot. 69: 1119–1132.
Burns-Balogh P., Funk V. A. (1986) A phylogenetic analysis of the Orchidaceae. Smithsonian Contrib. Bot. 61: 1–79.
Burns-Balogh P., Bernhardt P. (1985) Evolutionary trends in the androecium of the Orchidaceae. Plant Syst. Evol. 149: 119–134.
Burns-Balogh P., Bernhardt P. (1988) Floral evolution and phylogeny in the tribe Thelymitreae (Orchidaceae: Neottioideae). Plant Syst. Evol. 159: 19–47.
Cameron K. M., Chase M. W., Whitten W. M., Kores P. J., Jarrell D. C., Albert V. A., Yukawa T., Hills G., Goldman D. H. (1999) A phylogenetic analysis of the Orchidaceae: evidence fromrbcL nucleotide sequences. Amer. J. Bot. 86: 208–224.
Catling P. M. (1983) Pollination of northeastern North AmericanSpiranthes (Orchidaceae). Can. J. Bot. 61: 1080–1093.
Catling P. M. (1990) Auto-pollination in the Orchidaceae. In: Arditti J. (ed.) Orchid biology, reviews and perspectives V. Timber Press, Portland, Oregon, pp. 121–158.
Catling P. M., Catling V. R. (1991) A synopsis of breeding systems and pollination in North American orchids. Lindleyana 6: 187–210.
Chase M. W. (1987) Systematic implications of pollinarium morphology inOncidium Sw.,Odontoglossum Kunth, and allied genera (Orchidaceae). Lindleyana 2: 8–28.
Chen S. C. (1982) The origin and early differentiation of the Orchidaceae. Acta Phytotaxon. Sin. 20: 1–22.
Chesselet P., Linder H. P. (1993) Pollen morphology of theDiseae (Orchidoideae: Orchidaceae). Grana 32: 101–110.
Cole F. R., Firmage D. H. (1984) The floral ecology ofPlatanthera blephariglottis. Am. J. Bot. 71: 700–710.
Cribb P. J. (1987) The GenusPaphiopedilum. Kew: Royal Botanic Gardens; Portland, U.K.
Cruden R. W. (1977) Pollen-ovule ratios: a conservative indicator of breeding systems in flowering plants. Evolution 31: 32–46.
Cruden R. W., Jensen K. G. (1979) Viscin threads, pollination efficiency and low pollen-ovule ratios. Amer. J. Bot. 66: 875–879.
Dafni A., Ivri Y. (1979) Pollination ecology of, and hybridization between,Orchis coriophora L. andO. collina Sol. ex. Russ. (Orchidaceae) in Israel. New Phytol. 83: 181–187.
Dafni A., Ivri Y. (1981) The flower biology ofCephalanthera longifolia (Orchidaceae) — pollen imitation and facultative floral mimicry. Plant Syst. Evol. 137: 229–240.
Dahlgren R. M. T., Clifford H. T., Yeo P. F. (1985) The families of the monocotyledons: structure, evolution, and taxonomy. Springer, Berlin.
Darwin C. (1877) The various contrivances by which orchids are fertlized by insects. 2nd edn. John Murray, London.
De Jong T. J., Klinkhamer P. G. L., Staalduinen M. J. (1992) The consequences of pollination biology for selection of mass or extended blooming. Funct. Ecol. 6: 606–615.
Dressler R. L. (1971) Dark pollinia in hummingbird-pollinated orchids, or do hummingirds suffer from strabismus? Am. Nat. 105: 80–83.
Dressler R. L. (1968) Pollination by euglossine bees. Evolution 22: 202–210.
Dressler R. L. (1981) The Orchids: Natural History and classification. Harvard University Press, Cambridge, Mass.
Dressler R. L. (1986) Features of pollinaria and orchid classification. Lindleyana 1: 125–130.
Dressler R. L. (1990) The Neottieae in orchid classification. Lindleyana 5: 2, 102–109.
Dressler R. L. (1993) Phylogeny and classification of the orchid family. Timber Press, Portland.
Ellstrand N. C. (1984) Multiple paternity within the fruits of the wild radish,Raphanus sativus. Evolution 123: 819–828.
Fitzgerald M. A., Calder D. M., Knox R. B. (1993) Secretory events in the freeze-substituted tapetum of the orchidPterostylis concinna FitzG. Plant Syst. Evol. [Suppl.] 7: 53–62.
Fitzgerald M. A., Barnes S. H., Blackmore S., Calder D. M., Knox R. B. (1994) Pollen development and cohesion in a mealy and a hard type of orchid pollinium. J. Plant Sci. 155: 481–491.
Freudenstein J. V. (1994) Gynostemium structure and relationhips of theCorallorhizinae (Orchidaceae: Epidendroideae). Plant Syst. Evol. 193: 1–19.
Freudenstein J. V. (1991) A systematic study of endothecial thickenings in the Orchidaceae. Amer. J. Bot. 78: 766–781.
Freudenstein J. V., Rasmussen F. N. (1996) Pollinium development and number in the Orchidaceae. Am. J. Bot. 83: 7, 813–824.
Freudenstein J. V., Rasmussen F. N. (1997) Sectile pollinia and relationships in the Orchidaceae. Plant Syst. Evol. 205: 125–146.
Freudenstein J. V., Rasmussen F. N. (1999) What does morphology tell us about orchid relationships? — A cladistic analysis. Amer. J. Bot. 86: 225–248.
Fritz A. L. (1990) Deceit pollination ofOrchis spitzelii (Orchidaceae) on the island of Gotland in the Baltic: a suboptimal system. Nord. J. Bot. 9: 577–587.
Gregg K. B. (1991) Defrauding the deceitful orchid: pollen collection by pollinators ofCleistes divaricata andC. bifaria. Lindleyana 6: 214–220.
Hagerup O. (1952) Bud autogamy in some southern orchids. Phytomorphology 2: 51–60.
Hapeman J. R., Inoue K. (1997) Plant-pollinator interactions and floral radiation inPlatanthera (Orchidaceae). In: Givnish T. J., Sytsma K. J. (eds.) Molecular evolution and adaptive radiation. Cambridge University Press, Cambridge, pp. 433–454.
Harder L. D., Wilson W. G. (1998) A clarification of pollen discounting and its joint effects with inbreeding depression on mating system evolution. Am. Nat. 152: 684–695.
Johansen B. (1990) Incompatibility inDendrobium (Orchidaceae). Bot. J. Linn. Soc. 103: 165–196.
Johnson S. D. (1994) Evidence for Batesian mimicry in a butterfly-pollinated orchid. Biol. J. Linn. Soc. 53: 91–104.
Johnson S. D. (1996) Bird pollination in South African species ofSatyrium (Orchidaceae). Plant Syst. Evol. 204: 91–98.
Johnson S. D. (1997) Insect pollination and floral mechanisms in South African species ofSatyrium (Orchidaceae). Plant Syst. Evol. 204: 195–206.
Johnson S. D., Bond W. J. (1994) Red flowers and butterfly pollination in the fynbos of South Africa. In: Arianoutsou M., Groves R. H. (eds.) Plant-animal interactions in Mediterranean-type ecosystems. Kluwer Academic Publishers, Dordrecht, pp. 137–148.
Johnson S. D., Bond W. J. (1997) Evidence for widespread pollen-limitation of fruiting success in Cape wildflowers. Oecologia 109: 530–534.
Johnson S. D., Liltved W. R. (1997) Hawkmoth pollination ofBonatea speciosa (Orchidaceae) in a South African coastal forest. Nord. J. Bot. 17: 5–10.
Johnson S. D., Nilsson L. A. (1999) Pollen carryover, geitonogamy and the evolution of deception in orchids. Ecology 80: 2607–2619.
Johnson S. D., Steiner K. E., Kurzweil H. (1994) Auto-pollination inDisa species (Orchidcaeae) of the Cape mountain cloud zone. Lindleyana 9: 3–6.
Johnson S. D., Linder H. P., Steiner K. E. (1998a) Phylogeny and radiation of pollination systems inDisa (Orchidaceae). Amer. J. Bot. 85: 402–411.
Johnson S. D., Steiner K. E., Whitehead V. B., Vogelpoel L. (1998b) Pollination ecology and maintenance of species integrity in co-occurringDisa racemosa L.f. andDisa venosa Sw. (Orchidaceae) in South Africa. Ann. Missouri Bot. Gard. 85: 231–241.
Judd W. S., Stern W. L., Cheadle V. I. (1993) Phylogenetic position ofApostasia andNeuwiedia (Orchidaceae). Bot. J. Linn. Soc. 113: 87–94.
Kores P. J., Cameron K. M., Molvray M., Chase M. (1997) The phylogenetic relationships of Orchidoideae and Spiranthoideae (Orchidaceae) as inferred fromrbcL plastid sequences. Lindleyana 12: 1–11.
Kress W. J. (1981) Sibling competition and evolution of pollen unit, ovule number, and pollen vector in angiosperms. Syst. Bot. 6: 101–112.
Kurzweil H., Johnson S. D. (1993) Auto-pollination ofMonadenia bracteata. S. Afr. Orchid. J. 24: 21–22.
Larson B. M. H., Barrett S. C. H. (1999) The ecology of pollen limitation in buzz-pollinatedRhexia virginica (Melastomataceae). J. Ecol. 87: 371–381.
Levin D. A. (1981) Dispersal versus gene flow in plants. Ann. Missouri Bot. Gard. 68: 233–253.
Levin D. A., Kerster H. W. (1974) Gene flow in seed plants. Evol. Biol. 7: 139–220.
Linder H. P., Kurzweil H. (1994) The phylogeny and classification of the Diseae (Orchidoideae: Orchidaceae). Ann. Missouri Bot. Gard. 81: 687–713.
Mehroff L. A. (1983) Pollination in the genusIsotria (Orchidaceae). Amer. J. Bot. 70: 1444–1453.
Morse D. H. (1981) Modification of bumblebee foraging: the effect of milkweed pollinia. Ecology 62: 89–97.
Nazarov V. V., Gerlach G. (1997) The potential seed productivity of orchid flowers and peculiarities of their pollination systems. Lindleyana 12: 188–204.
Neiland M. R. M., Wilcock C. C. (1995) Maximization of reproductive success by European Orchidaceae under conditions of infrequent pollination. Protoplasma 187: 39–48.
Newton G. D., Williams N. H. (1978) Pollen morphology of the Cypripedioideae and the Apostasioideae (Orchidaceae). Selbyana 2: 169–182.
Nierenberg L. (1972) The mechanism for the maintenance of species integrity in sympatrically occurring Oncidiums in the Caribbean. Amer. Orch. Soc. Bull. 41: 873–882.
Nilsson L. A. (1980) The pollination ecology ofDactylorhiza sambucina (Orchidaceae). Bot. Notiser 133: 367–385.
Nilsson L. A. (1983a) Anthecology ofOrchis mascula (Orchidaceae). Nord. J. Bot. 3: 157–179.
Nilsson L. A. (1983b) Processes of isolation and introgressive interplay betweenPlatanthera bifolia (L.) Rich. andP. chlorantha (Custer) Reichb. (Orchidaceae). Bot. J. Linn. Soc. 87: 325–350.
Nilsson L. A. (1992) Orchid pollination biology. Trends Ecol. Evol. 7: 255–259.
Nilsson L. A., Jonsson L., Rason L., Randrianjohany E. (1985) The pollination ofCymbidiella flabellata (Orchidaceae) in Madagascar: a system pollinated by sphecid wasps. Nord. J. Bot. 6: 411–422.
Nilsson L. A., Rabakonandrianina E., Razananaivo R., Randriamanindry J. (1992a) Long pollinia on eyes: hawk-moth pollination ofCynorkis uniflora Lindley (Orchidaceae) in Madagascar. Bot. J. Linn. Soc. 109: 145–160.
Nilsson L. A., Rabakonandrianina E., Pettersson B. (1992b) Exact tracking of pollen transfer and mating in plants. Nature 360: 666–667.
O'Connell L. M., Johnston M. O. (1998) Male and female pollination success in a deceptive orchid, a selection study. Ecology 79: 1246–1260.
Pacini E., Franchi G. G. (1996) Some cytological, ecological and evolutionary aspects of Pollination. Acta Societatis Botanicorum Poloniae 65: 11–16.
Pacini E., Franchi G. G. (1998) Pollen dispersal units, gynoecium and pollination. In: Owens S. J., Rudall P. J. (eds.) Reproductive biology. Royal Botanic Gardens, Kew, pp. 183–195.
Pandolfi T., Pacini E. (1995) The pollinium ofLoroglossum hircinum (Orchidaceae) between pollination and pollen tube emission. Plant Syst. Evol. 196: 141–151.
Peakall R. (1989a) A new technique for monitoring pollen flow in orchids. Oecologia 79: 361–365.
Peakall R. (1989b) The unique pollination ofLeporella fimbriata (Orchidaceae): pollination by pseudocopulating male ants (Myrmecia urens, Formicidae). Plant Syst. Evol. 167: 137–148.
Peakall R., Beattie A. J. (1991) The genetic consequences of worker ant pollination in a self-compatible, clonal orchid. Evolution 45: 1837–1848.
Peakall R., Beattie A. J. (1996) Ecological and genetic consequence of pollination by sexual deception in the orchidCaladenia tentactulata. Evolution 50: 2207–2220.
Proctor H. C. (1997) Effect of pollen age on fruit set, fruit weight, and seed set of three orchid species. Can. J. Bot. 76: 420–427.
Proctor H. C., Harder L. D. (1994) Pollen load, capsule weight, and seed production in three orchid species. Can. J. Bot. 72: 249–255.
Rademaker M. C. J., De Jong T. J., Klinkhamer P. G. L. (1997) Pollen dynamics of bumble-bee visitation onEchium vulgare. Funct. Ecol. 11: 554–563.
Rasmussen F. N. (1982a) The gynostemium of neottioid orchids. Opera Bot. 69: 1–96.
Rasmussen F. N. (1982b) The gynostemium ofBulbophyllum ecornutum. Bot. J. Linn. Soc. 91: 447–456.
Rasmussen F. N. (1986a) On the contrivances by which pollinia are attached to viscidia. Lindleyana 1: 21–32.
Rasmussen F. N. (1986b) Ontogeny and phylogeny in Orchidaceae. Lindleyana 1: 114–124.
Robertson A. W. (1992) The relationship between floral display size and geitonogamy inMysotis colensoi (Kirk) MacBride (Boraginaceae). Biol. J. Linn. Soc. 46: 333–349.
Romero G. A. (1990) Phylogenetic relationships in subtribe Catasetinae (Orchidaceae, Cymbidieae). Lindleyana 5: 160–181.
Romero G. A., Nelson C. E. (1986) Sexual dimorphism inCatasetum orchids: forcible pollen emplacement and male flower competition. Science 232: 1538–1540.
Roubik D. W. (2000) Deceptive orchids with Meliponini as pollinators. Plant Syst. Evol. 222: 271–279.
Salguero-Faría J., Ackerman J. D. (1999) A nectar reward: is more better. Biotropica 31: 303–311.
Sanford W. W. (1964) Sexual compatibility relationships inOncidium and related genera. Amer. Orchid Soc. Bull. 33: 1035–1048.
Schill R. (1978) Palynologische Untersuchungen zur systematischen Stellung der Apostasiaceae. Botanische Jahrbucher fur Systematik, Pflanzengeschichte und Pflanzengeographie 99: 353–362.
Schill R., Dannenbaum C., Neyer P. (1992) Quantitative Untersuchungen an Orchideen-pollinien. Bot. Jahrb. Syst. 114: 153–171.
Schill R., Pfeiffer W. (1977) Untersuchungen an Orchideenpollinien unter besonderen Beruecksichtigung ihrer Feinskulpturen. Pollen et Spores 19: 5–118.
Schill R., Wolter M. (1986) Ontogeny of elastoviscin in the Orchidaceae. Nord. J. Bot. 5: 575–580.
Scott J. (1865) On the individual sterility and crossimpregnation of certain species ofOncidium. Bot. J. Linn. Soc. 8: 162–167.
Steiner K. E. (1989) The pollination ofDisperis (Orchidaceae) by oil-collecting bees in southern Africa. Lindleyana 4: 164–183.
Thomson J. D., Thomson B. A. (1989) Dispersal ofErythronium grandiflorum pollen by bumblebees: implications for gene flow and reproductive success. Evolution 43: 657–661.
Tremblay R. L. (1991) Trends in the pollination ecology of the Orchidaceae: evolution and systematics. Can. J. Bot. 70: 642–650.
Tremblay R. L. (1994) Frequency and consequences of multi-parental pollinations in a population ofCypripedium calceolus var.pubescens (Orchidaceae). Lindleyana 9: 161–167.
Stern W. L., Cheadle V. I., Thorsch J. (1993) Apostasiads, systematic anatomy, and the origins of Orchidaceae. Bot. J. Linn. Soc. 111: 411–455.
Thomson J. D., McKenna M. A., Cruzn M. B. (1989) Temporal patterns of nectar and pollen production inAralia hispida: implications for reproductive success. Ecology 70: 1061–1068.
Van der Pijl L., Dodson C. H. (1966) Orchid flowers: their pollination and evolution. University of Miami Press.
Warford N. (1992) Pollination biology: the reciprocal agreement betweenNotylia andEuglossa viridissima. Amer. Orchid. Soc. Bull. 61: 884–889.
Williams N. H. (1972) A reconsideration ofAda and the glumaceous brassias. Brittonia 24: 93–110.
Williams N. H., Broome C. R. (1976) Scanning electron microscope studies of orchid pollen. Amer. Orchid. Soc. Bull. 45: 699–707.
Williamson G. (1984) Observations of a mechanism by which self-pollination may occur inEulophia (Orchidaceae). J. S. Afr. Bot. 50: 417–423.
Zavada M. S. (1990) A contribution to the study of pollen wall ultrastructure of orchid pollinia. Ann. Missouri Bot. Gard. 77: 785–801.
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Johnson, S.D., Edwards, T.J. The structure and function of orchid pollinaria. Pl Syst Evol 222, 243–269 (2000). https://doi.org/10.1007/BF00984105
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DOI: https://doi.org/10.1007/BF00984105