Abstract
Qualities of the stratified pollen walls were evaluated for their possible role in pollination (pollination modes, and pollen tube formation). The importance of studying pollen grains in their respective natural state is noted. Examples of pollen morphological features specific to pollination vectors are rare and difficult to demonstrate. However, some complex, but significant correlations are reported.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Ackerman J. D. (1995) Convergence of filiform pollen morphologies in seagrasses: Functional mechanisms. Evol. Ecol. 9: 139–153.
Bagni N., Tassoni A., Franceschetti M. (1999) Polyamines and gene expression of biosynthetic enzymes in sexual plant reproduction. In: Cresti M., Cai G., Moscatelli A. S. (eds.) Fertilization in Higher Plants. Molecular and Cytological Aspects. Springer, Heidelberg, pp. 1–11.
Barnes S. H., Blackmore S. (1986) Some functional features in pollen development. In: Blackmore S., Ferguson I. K. (eds.) Pollen and Spores. Form and Function. Academic Press, London Orlando San Diego New York Austin Boston Sydney Tokyo Toronto, pp. 71–80.
Bernadello G., Anderson G. J., Lopez S. P., Cleland M. A., Stuessy T. F., Crawford D. J. (1999) Reproductive biology of Lactoris fernandeziana (Lactoridaceae). Amer. J. Bot. 86: 829–840.
Blackmore S., Barnes S. H. (1986) Freeze fracture and cytoplasmic maceration of pollen grains. Grana 25: 41–45.
Blackmore S., Barnes S. H. (1991) Pollen and Spores: Patterns of Diversification. Clarendon Press, Oxford.
Blackmore S., Ferguson I. K. (1986) Pollen and Spores. Form and Function. Academic Press, London Orlando San Diego New York Austin Boston Sydney Tokyo Toronto.
Bolick M. R. (1978) Taxonomic, evolutionary, and functional considerations of Compositae pollen ultrastructure and sculpture. Plant Syst. Evol. 130: 209–218.
Brummitt R. K., Ferguson I. K., Poole M. M. (1980) A unique and extraordinary pollen type in the genus Crossandra (Acanthaceae). Pollen Spores 22: 11–16.
Burns-Balogh P., Funk V. A. (1986) A phylogenetic analyses of the Orchidaceae. Smithsonian Contrib. Bot. 61: 1–79.
Burns-Balogh P., Hesse M. (1988) Pollen morphology of the cypripedioid orchids. Plant Syst. Evol. 158: 165–182.
Chaloner W. G. (1986) Electrostatic forces in insect pollination and their significance in exine ornament. In: Blackmore S., Ferguson I. K. (eds.) Pollen and Spores. Form and Function. Linnean Society Symposium Series 12:103–108. Academic Press, London Orlando San Diego New York Austin Boston Sydney Tokyo Toronto.
Corbet S. A., Beament J., Eisikowitch D. (1982) Are electrostatic forces involved in pollen transfer? Plant Cell Environ. 5: 125–129.
Cox P. A. (1984) Chiropterophily and ornithophily in Freycinetia (Pandanaceae) in Samoa. Plant Syst. Evol. 144: 277–290.
Cox P. A. (1991) Hydrophilous pollination of a dioecious seagrass, Thalassodendron ciliatum (Cymonodeaceae) in Kenya. Biotropica 23: 159–165.
Cox P. A., Humphries C. J. (1993) Hydrophilous pollination and breeding system evolution in seagrasses: a phylogenetic approach to the evolutionary ecology of the Cymodoceaceae. Bot. J. Linn. Soc. 113: 217–226.
Cox P. A., Knox R. B. (1989) Two-dimensional pollination in hydrophilous plants: convergent evolution in the genera Halodule (Cymodoceaceae), Halophila (Hydrocharitaceae), Ruppia (Ruppiaceae), and Lepilaena (Zannichelliaceae). Amer. J. Bot. 76: 164–175.
Crepet W. L. (1979) Some aspects of the pollination biology of middle eocene angiosperms. Rev. Palaeobot. Palynol. 27: 213–238.
Dressier R. L. (1993) Phylogeny and classification of the orchid family. Cambridge University Press, Cambridge.
Dunbar A. (1967) Wachs im Sporoderm von Plumbago capensis. Grana Palynol. 7: 10–15.
Dunbar A. (1973) Pollen development in the Eleocharis palustris group (Cyperaceae). Bot. Not. 126: 197–254.
El-Ghazaly G. (1999) Development and substructures of pollen grains wall. In: Cresti M., Cai G., Moscatelli A. S. (eds.) Fertilization in Higher Plants. Molecular and Cytological Aspects. Springer, Heidelberg, pp. 175–200.
El-Ghazaly G., Grafström E. (1995) Morphological and histochemical differentiation of the pollen wall of Betula pendula Roth, during dormancy up to anthesis. Protoplasma 187: 88–102.
El-Ghazaly G., Rowley J. R. (1999) Microspore and tapetal development in Echinodorus cordifolius. Nordic J. Bot. 19: 101–120.
Erickson E. H., Buchmann S. L. (1983) Electrostatics and pollination. In: Jones C. E., Little R. J. (eds.) Handbook of experimental pollination biology. Scientific and Academic Editions, New York Cincinnati Toronto London Melbourne, pp. 173–184.
Ferguson I. K., Dransfield J., Page F. C., Thanikaimoni G. (1983) Notes on the pollen morphology of Pinanga with special reference to P. aristata and P. pilosa (Palmae: Arecoideae). Grana 22: 65–72.
Ferguson I. K., Harley M. M. (1993) The significance of new and recent work on pollen morphology in the Palmae. Kew Bull. 48: 205–243.
Ferguson I. K., Pearce K. J. (1986) Observations on the pollen morphology of the genus Bauhinia L. (Leguminosae: Caesalpiniaceae) in the neotropics. In: Blackmore S., Ferguson I. K. (eds.) Pollen and Spores. Form and Function. Linnean Society Symposium Series 12: 283–296. Academic Press, London Orlando San Diego New York Austin Boston Sydney Tokyo Toronto.
Ferguson I. K., Skvarla J. J. (1982) Pollen morphology in relation to pollinators in Papilionoideae (Leguminosae). Bot. J. Linn. Soc. 84: 183–193.
Franchi G. G., Pacini E. (1996) Types of pollination and seed dispersal in mediterranean plants. Giorn. Bot. Ital. 130: 579–585.
Freytag K. (1958) Doppelbrechende Stäbchen im Ölüberzug der Pollenkörner. Grana Palynol. 1: 10–14.
Furness C. A. (1995) Examinations of the ultrastructure and function of caveate Acanthaceae pollen, using rehydrated herbarium material. Grana 34: 1–9.
Furness C. A., Rudall P. J. (1999) Inaperturate pollen in Monocotyledons. Int. J. Plant Sci. 160: 395–414.
Galati B. G., Rosenfeld S. (1998) The pollen development in Ceiba insignis (Kunth) Gibbs & Semir ex Chorisia speciosa St. Hil. (Bombacaceae). Phytomorphology 48: 121–130.
Giuliano G. (1999) Carotenoid biosynthesis in plant reproductive organs: regulation and possible functions. In: Cresti M., Cai G., Moscatelli A. S. (eds.) Fertilization in Higher Plants. Molecular and Cytological Aspects. Springer, Heidelberg, pp. 13–21.
Grayum M. H. (1986) Correlations between pollination biology and pollen morphology in the Araceae, with some implications for angiosperm evolution. In: Blackmore S., Ferguson I. K. (eds.) Pollen and Spores. Form and Function. Linnean Society Symposium Series 12: 313–327. Academic Press, London Orlando San Diego New York Austin Boston Sydney Tokyo Toronto.
Grayum M. H. (1992) Comparative external pollen ultrastructure of the Araceae and putatively related taxa. Missouri Botanical Garden, St. Louis, Missouri.
Halbritter H., Hesse M. (1993) Sulcus morphology in some monocot families. Grana 32: 87–99.
Hemsley A. J., Ferguson I. K. (1985) Pollen morphology of the genus Erythrina (Leguminosae: Papilionoideae) in relation to floral structure and pollinators. Ann. Missouri Bot. Garden 72: 570–590.
Heslop-Harrison J. (1979) Pollen walls as adaptive systems. Ann. Missouri Bot. Garden 66: 813–829.
Heslop-Harrison J., Heslop-Harrison Y. (1991) Structural and functional variation in pollen intines. In: Blackmore S., Barnes S. H. (eds.) Pollen and Spores. Patterns of Diversification. The Systematics Association Special Volume 44: 331–344. Clarendon Press, Oxford.
Hesse M. (1979) Entwicklungsgeschichte und Ultrastruktur von Pollenkitt und Exine bei nahe verwandten entomo-und anemophilen Angiospermen: Salicaceae, Tiliaceae und Ericaceae. Flora 168: 540–557.
Hesse M. (1980) Entwicklungsgeschichte und Ultrastruktur von Pollenkitt und Exine bei nahe verwandten entomophilen und anemophilen Angiospermensippen der Alismataceae, Liliaceae, Juncaceae, Cyperaceae, Poaceae und Araceae. Plant Syst. Evol. 134: 229–267.
Hesse M., Bogner J., Halbritter H., Weber M. (2000) Palynology of the perigoniate Aroideae: Zamioculcas, Gonatopus and Stylochaeton (Araceae). Grana (in press).
Hesse M., Burns-Balogh P., Wolff M. (1989) Pollen morphology of the “primitive” epidendroid orchids. Grana 28: 261–278.
Hesse M., Waha M. (1989) A new look at the acetolysis method. Plant Syst. Evol. 163: 147–152.
Huysmans S., El-Ghazaly G., Smets E. (1998) Orbicules in angiosperms: morphology, function, distribution, and relation with tapetum types. Bot. Rev. 64: 240–272.
Klaus W. (1987) Einführung in die Paläobotanik. Fossile Pflanzenwelt und Rohstoffbildung, Band I. Grundlagen—Kohlebildung—Arbeitsmethoden/Palynologie. Franz Deuticke, Wien.
Knox R. B., McConchie C. A. (1986) Structure and function of compound pollen. In: Blackmore S., Ferguson I. K. (eds.) Pollen and Spores. Form and Function. Linnean Society Symposium Series 12: 265–282. Academic Press, London Orlando San Diego New York Austin Boston Sydney Tokyo Toronto.
Kress W. J. (1986) Exineless pollen structure and pollination systems of tropical Heliconia (Heliconiaceae). In: Blackmore S., Ferguson I. K. (eds.) Pollen and Spores. Form and Function. Linnean Society Symposium Series 12: 329–345. Academic Press, London Orlando San Diego New York Austin Boston Sydney Tokyo Toronto.
Kronestedt-Robards E., Rowley J. R. (1989) Pollen grain development and tapetal changes in Strelitzia reginae (Strelitziaceae). Amer. J. Botany 76: 856–870.
Le Thomas A. (1981) Ultrastructural characters of the pollen grains of african Annonaceae and their significance for the phylogeny of primitive angiosperms (first part). Pollen Spores XXII: 267–342.
Linder H. P. (1998) Pollen morphology and wind pollination in Angiosperms. In: Pollen and Spores 1998, Morphology and Biology. An International Conference at The Royal Botanic Gardens Kew, Abstract Book p. 14.
Linder H. P., Midgley J. (1996) Anemophilous plants select pollen from their own species from the air. Oecologia 108: 85–87.
Lisci M., Cardinali G., Pacini E. (1996) Pollen dispersal and role of pollenkitt in Mercurialis annua L. (Euphorbiaceae). Flora 191: 385–391.
MacPhail M. K., Partridge A. D., Truswell E. M. (1999) Fossil pollen records of the problematical primitive angiosperm family Lactoridaceae in Australia. Plant Syst. Evol. 214: 199–210.
Mahy G., De Sloover J., Jacquemart A.-L. (1998) The generalist pollination system and reproductive success of Calluna vulgaris in the Upper Ardenne. Can. J. Bot. 76: 1843–1851.
Malhó R. (1999) The role of Calcium and associated proteins in tip growth and orientation. In: Cresti M., Cai G., Moscatelli A. S. (eds.) Fertilization in Higher Plants. Molecular and Cytological Aspects. Springer, Heidelberg, pp. 253–270.
Marquez J., Seoane-Camba J. A., Suárez-Cervera M. (1997a) Allergenic and antigenic proteins released in the apertural sporoderm during the activation process in grass pollen grains. Sex. Plant Reprod. 10: 269–278.
Marquez J., Seoane-Camba J. A., Suárez-Cervera M. (1997b) The role of the intine and cytoplasm in the activation and germination process of Poaceae pollen grains. Grana 36: 328–346.
Mayo S. J., Bogner J., Boyce P. C. (1997) The genera of Araceae. Royal Botanic Gardens, Kew.
Mejias J. A., Diez M. J. (1993) Palynological and cytological observations in Spanish Sonchus (Asteraceae). Grana 32: 343–347.
Muller J. (1979) Form and function in angiosperm pollen. Ann. Missouri Bot. Garden 66: 593–632.
Muller J. (1981) Exine architecture and function in some Lythraceae and Sonneratiaceae. Rev. Palaeobot. Palynol. 35: 93–123.
Murphy D. J., Ross J. H. E. (1998) Biosynthesis, targeting and processing of oleosin-like proteins, which are major pollen coat components in Brassica napus. Plant J. 13: 1–16.
Niklas K. J. (1984) The motion of windborne pollen grains around conifer ovulate cones: implications on wind pollination. Amer. J. Bot. 71: 356–374.
Olsson U. (1974) A biometric study of the pollen morphology of Linaria vulgaris (L. Miller and L. repens (L.). Miller (Scrophulariaceae) and their hybrid progeny in F1 and F2 generations. Grana 14: 92–99.
Osborn J. M., Philbrick C. T. (1994) Comparative pollen structure and pollination biology in the Callitrichaceae. Acta Bot. Gallica 141: 257–266.
Osborn J. M., Taylor T. N., Schneider E. L. (1991) Pollen morphology and ultrastructure of the Cabombaceae: correlations with pollination biology. Amer. J. Bot. 78: 1367–1378.
Otegui M., Coccucci A. (1999) Flower morphology and biology of Myrsine laetevirens, structural and evolutionary implications of anemophily in Myrsinaceae. Nordic J. Botany 19: 71–85.
Owens J. N., Simpson S. J., Molder M. (1981) Sexual reproduction in Pinus contorta I. Pollen development, the pollination mechanism, and early ovule development. Can. J. Bot. 59: 1828–1843.
Pacini E. (1997) Tapetum character states: analytical keys for tapetum types and activities. Can. J. Bot. 75: 1448–1459.
Pacini E., Bellani L. M. (1986) Lagerstroemia indica L. pollen: form and function. In: Blackmore S., Ferguson I. K. (eds.) Pollen and Spores. Form and Function. Linnean Society Symposium Series 12: 347–357. Academic Press, London Orlando San Diego New York Austin Boston Sydney Tokyo Toronto.
Pacini E., Franchi G. G. (1982) Germination of pollen inside anthers in some non-cleistogamous species. Caryologia 35: 205–215.
Pacini E., Franchi G. G. (1996) Some cytological, ecological and evolutionary aspects of pollination. Acta Soc. Bot. Poloniae 65: 11–16.
Pacini E., Juniper B. E. (1979a) The ultrastructure of pollen-grain development in the olive (Olea europaea). 1. proteins in the pore. New Phytol. 83: 157–163.
Pacini E., Juniper B. E. (1979b) The ultrastructure of pollen-grain development in the olive (Olea europaea). 2. Secretion by the tapetal cells. New Phytol. 83: 165–174.
Pacini E., Juniper B. E. (1983) The ultrastructure of the formation and development of the amoeboid tapetum in Arum italicum Miller. Protoplasma 117: 116–129.
Pacini E., Taylor P. E., Singh M. B., Knox R. B. (1992) Development of plastids in pollen and tapetum of Rye-grass, Lolium perenne L. Ann. Botany 70: 179–188.
Philbrick C. T., Osborn J. M. (1994) Exine reduction in underwater flowering Callitriche (Callitrichaceae): Implications for the evolution of hypohydrophily. Rhodora 96: 370–381.
Piffanelli P., Ross J. H. E., Murphy D. J. (1998) Biogenesis and function of the lipidic structures of pollen grains. Sex. Plant Reprod. 11: 65–82.
Praglowski J., Raj B. (1979) On some pollen morphological terms. Grana 18: 109–113.
Radivo P. (1998) Morphologische und ultrastrukturelle Studien zur Pollenentwicklung und zum Narbenbau bei Primula vulgaris (Primulaceae). Diplomarbeit, Formal-und Naturwissenschaftliche Fakulät, Universität Wien.
Rowley J. R. (1990) The fundamental structure of the pollen exine. Plant Syst. Evol. [Suppl.] 5: 13–29.
Rowley J. R., Skvarla J. J., Chissoe W. F. (1997) Exine, onciform zone and intine structure in Ravenala and Phenakospermum and early wall development in Strelitzia and Phenakospermum (Strelitziaceae) based on aborted microspores. Rev. Palaeobot. Palynol. 98: 293–301.
Ruiter R. K., Mettenmeyer T., Van Laarhoven D., Van Eldik G. J., Doughty J., Van Herpen M. M. A., Schrawwen J. A. M., Dickinson H. G., Wullems G. J. (1997) Proteins of the pollen coat of Brassica oleracea. J. Plant Physiol. 150: 85–91.
Runions C. J., Rensing K. H., Takaso T., Owens J. N. (1999) Pollination of Picea orientalis (Pinaceae): Saccus morphology governs pollen buoyancy. Amer. J. Bot. 86: 190–197.
Sampson F. B. (1995) Pollen morphology of Lactoris—a re-examination. Grana 34: 100–407.
Sampson F. B., Endress P. K. (1984) Pollen morphology in the Trimeniaceae. Grana 23: 129–137.
Skvarla J. J., Raven P. H., Chissoe W. F., Sharp M. (1978) An ultrastructural study of viscin threads in Onagraceae pollen. Pollen Spores 20: 5–143.
Stephenson A. G., Doughty J., Dixon S., Elleman C., Hiscock S., Dickinson H. G. (1997) The male determinant of self-incompatibility in Brassica oleracea is located in the pollen coating. Plant J. 12: 1351–1359.
Suárez-Cervera M., Marquez J., Molero J., Seoane-Camba J. (1995) Structure of the apertural sporoderm of pollen grains in Euphorbia and Chamaesyce (Euphorbiaceae). Plant Syst. Evol. 197: 111–122.
Suárez-Cervera M., Seoane-Camba J., Lobreau-Callen D. (1992) Pollen morphology and pollen-wall proteins (localization and enzymatic activity) in Sesamothamnus lugardii (Pedalia-ceae). Plant Syst. Evol. 183: 67–81.
Taylor T. N., Levin D. A. (1975) Pollen morphology of Polemoniaceae in relation to systematics and pollination systems: scanning electron microscopy. Grana 15: 91–112.
Thanikaimoni G. (1986) Pollen apertures: form and function. In: Blackmore S., Ferguson I. K. (eds.) Pollen and Spores. Form and Function. Linnean Society Symposium Series 12: 119–136. Academic Press, London Orlando San Diego New York Austin Boston Sydney Tokyo Toronto.
Thomson J. D., Stratton D. A. (1985) Flora morphology and cross-pollination in Erythronium grandiflorum (Liliaceae). Amer. J. Bot. 72: 433–437.
Thomson J. D., Thomson B. A. (1989) Dispersal of Erythronium grandiflorum pollen by bumblebees: implication for gene flow and reproductive success. Evolution 43: 657–661.
Tilney P. M., Van Wyk A. E. (1997) Pollen morphology of Canthium, Keetia and Psydrax (Rubiaceae: Vanguerieae) in southern Africa. Grana 36: 249–260.
Tomlinson R. B. (1994) Functional morphology of saccate pollen in conifers with special reference to Podocarpaceae. Int. J. Plant Sci. 155: 699–715.
Traverse A. (1988) Paleopalynology. Unwin Hyman, Boston London Sydney Wellington.
Tsou C.-H. (1997) Embryology of the Theaceae—anther and ovule development of Camellia, Franklinia, and Schima. Amer. J. Bot. 84: 369–381.
Ubera Jiménez J. L., Hidalgo Fernandéz P., Schlag M. G., Hesse M. (1996) Pollen and tapetum development in male fertile Rosmarinus officinalis L. (Lamiaceae). Grana 34: 305–316.
Van der Ham R. W. J. M., Hetterscheid W. L. A., van Heuven B. J. (1998) Notes on the genus Amorphophallus (Araceae). 8. Pollen morphology of Amorphophallus and Pseudodracontium. Rev. Palaeobot. Palynol. 103: 95–142.
Ward J. V., Doyle J. A. (1994) Ultrastructure and relationships of mid-cretaceous polyforate and triporate pollen from northern Gondwana. In: Kurmann M. H., Doyle J. A. (eds.) Ultrastructure of fossil spores and pollen. Royal Botanic Gardens, Kew, pp. 161–172.
Weber M. (1996a) Apertural chambers in Geranium: Development and ultrastructure. Sex. Plant Reprod. 9: 102–106.
Weber M. (1996b) The existence of a special exine coating in Geranium robertianum pollen. Int. J. Plant Sci. 157: 195–202.
Weber M., Halbritter H., Hesse M. (1998) The spiny pollen wall in Sauromatum (Araceae)—with special reference to the endexine. Int. J. Plant Sci. 159: 744–749.
Weber M., Halbritter H., Hesse M. (1999) The basic pollen wall types in Araceae. Int. J. Plant Sci. 160: 415–423.
Weber M., Igersheim A. (1994) “Pollen buds” in Ophiorrhiza (Rubiaceae) and their role in pollenkitt release. Bot. Acta 107: 257–262.
Willemse M. T. M. (1999) Pollen coat signals with respect to pistil activation and ovule penetration in Gasteria verrucosa (Mill.) H. Duval. In: Cresti M., Cai G., Moscatelli A. S. (eds.) Fertilization in Higher Plants. Molecular and Cytological Aspects. Springer, Heidelberg, pp. 145–156.
Willemstein S. C. (1987) An evolutionary basis for pollination ecology. Leiden University Press, Leiden.
Wu S. S. H., Platt K. A., Ratnayake C., Wang T.-W., Ting J. T. L., Huang A. H. C. (1997) Isolation and characterization of neutral-lipid-containing organelles and globuli-filled plastids from Brassica napus tapetum. Proceedings of the National Academy of Sciences of the United States of America 94: 12711–12716.
Wyatt R. (1981) Ant-pollination of the granite outcrop endemic Diamorpha smallii (Crassulaceae). Amer. J. Bot. 68: 1212–1217.
Zetter R., Hesse M. (1996) The morphology of pollen tetrads and viscin threads in some Tertiary, Rhododendron-like Ericaceae. Grana 35: 285–294.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2000 Springer-Verlag Wien
About this chapter
Cite this chapter
Hesse, M. (2000). Pollen wall stratification and pollination. In: Dafni, A., Hesse, M., Pacini, E. (eds) Pollen and Pollination. Springer, Vienna. https://doi.org/10.1007/978-3-7091-6306-1_1
Download citation
DOI: https://doi.org/10.1007/978-3-7091-6306-1_1
Publisher Name: Springer, Vienna
Print ISBN: 978-3-7091-7248-3
Online ISBN: 978-3-7091-6306-1
eBook Packages: Springer Book Archive