Abstract
The present article reviews the various definitions and terminology of pollen viability and longevity as well as the various tests of its assessment. We compare the advantages and the disadvantages of each method and suggest some practical implications as revealed by the extensive data. We recognize eight main hypotheses concerning the ecology and the evolution of pollen longevity and critically evaluated them according to the literature. The hypotheses are grouped as follows: (1) Desiccation risk-carbohydrate content; (2) Pollen packaging; (3) Pollen competitive ability; (4) Pollinator activity-stigma receptivity duration; (5) Self-pollination chance; (6) Pollen exposure schedule; (7) Pollen travel distance, and (8) Pollen removal chance.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abdul-Baki A. A. (1992) Determination of pollen viability in tomatoes. J. Amer. Soc. Hort. Sci. 117: 473–476.
Ackerman J. D. (1986) Mechanisms and evolution of food-deceptive pollination systems in orchids. Lindleyana 1: 108–113.
Adhikaire K. N., Campbell C. G. (1998) Natural outcrossing in buckwheat. Euphytica 102: 233–237.
Alexander M. P. (1969) Differential staining of aborted and non-aborted pollen. Stain Technol. 62: 107–112.
Anderson N. O., Ascher P. D. (1993) Male and female fertility in loosestrife (Lythrum) cultivars. J. Amer. Soc. Hort. Sci. 118: 851–858.
Asham M., Brown M. S., Kohel R. J. (1965) Evaluation of seven tetrazolium salts as vital pollen stains in cottonGossypium hirsutum L. Crop. Sci. 4: 508–510.
Athwal R. S., Kimber G. (1970) Anther size and pollen longevity in wheat/rye addition lines. Wheat Infor. Ser. 30: 30–32.
Bassani M., Pacini E., Franchi G. G. (1994) Humidity stress in pollen of anemophilous and entomophilous species. Grana 33: 146–150.
Beardsell D. V., Knox R. B., Williams E. G. (1993) Breeding system and reproductive success ofThryptomene calycina (Myrtaceae). Aust. J. Bot. 41: 333–353.
Becker W. A., Ewart L. C. (1990) Pollination, seed set, and pollen tube growth investigation inViola odorata L. Acta Hort. 272: 33–36.
Bernhardt P., Knox R. B., Calder D. M. (1980) Floral biology and self-incompatibility in some Australian mistletoes of the genusAmyema (Loranthaceae). Aust. J. Bot. 28: 437–451.
Bertin R. I. (1988) Paternity in plants. In: Lovett-Doust L., Lovett-Doust, L. (eds.) Plant reproductive ecology. Oxford University Press, Oxford, pp. 30–59.
Brantjes N. B. M. (1983) Regulated pollen issue in Isotoma, Campanulaceae, and evolution of secondary pollen presentation. Acta Bot. Neerl. 32: 213–222.
Buitink J., Walters B., Hoekstra F. A., Crane J. (1996) Storage behavior ofTypha latifolia pollen at low water content: interpretation on the basis of water activity and glass concept. Physiol. Plant 103: 145–153.
Cole F. R., Firmage D. H. (1984) The floral biology ofPlatanthera blephariglottis. Amer. J. Bot. 79: 7–14.
Coppens d'Eeckenbrugge G., Duval M. F., Van Miegroet F. (1993) Fertility and self-incompatibility in the genusAnanas. Acta Hort. 334: 45–51.
Cruzan M. B. (1990) Variation in pollen size, fertilization inability, and post-fertilization siring ability inErythronium grandiflorum. Evolution 44: 843–856.
Dafni A. (1984) Mimicry and deception in pollination. Ann. Rev. Ecol. Syst. 15: 259–278.
Dafni A. (1992) Pollination ecology: A practical approach. Oxford University Press, Oxford.
Demchik S., Day T. A. (1996) Effect of enhanced UV-B radiation on pollen quantity, quality, and seed yield inBrassica rapa (Brassicaceae). Amer. J. Bot. 83: 573–579.
Eisikowitch D., Kevan P. G., Fowle S., Thomas K. (1987) The significance of pollen longevity inAsclepias syriaca under natural conditions. Pollen et Spore 29: 121–128.
Eti S., Paydas S., Küden A. B., Kaska N., Kurnaz S., Ilgin M. (1994) Investigations on the pollen viability, germination capability and the growth of pollen tubes in some selected almond types under Cukurova conditions. Acta Hort. 373: 225–233.
Fernando D. D., Cass D. D. (1997) Development assessment of sexual reproduction inButomus umbellatus (Butomaceae): male reproduction component. Ann. Bot. 80: 449–456.
Firmage D. H., Cole F. R. (1998) Reproductive success and inflorescence size ofCalopogon tuberosus (Orchidaceae). Amer. J. Bot. 75: 1371–1377.
Franchini G. G., Bellani L., Nepi M., Pacini E. (1966) Types of carbohydrates reserves in pollen: Localization, systematic distribution and ecophysiological significance. Flora 191: 143–159.
Fritz S. E., Lukaszewski A. J. (1989) Pollen longevity in wheat rye and Triticale. Plant Breed. 102: 31–34.
Georgieva L. D., Kureleva M. M. (1994) Cytochemical investigation of long-term stored maize pollen. Euphytica 72: 87–94.
Grilli-Caiola M., Brandizzi F. (1997) Pollen-pistil interaction inHermodactylus tuberosus Mill. (Iridaceae). Plant Biosyst. 131: 197–205.
Gudin S., Arene L., Pellegrino C. (1991) Influence of temperature and hygrometry on rose pollen germination. Adv. Hort. Sci. 5: 96–98.
Hanna W. W., Towill L. E. (1995) Long-term pollen storage. Plant Breed. Rev. 13: 179–207.
Harder L. W., Wilson W. G. (1994) Floral evolution and male reproductive success: Optimal dispensing schedule for pollen dispersal by animal-pollinated plants. Evol. Ecol. 8: 542–559.
Hauser E. J. P., Morrison J. H. (1964) The cytochemical reduction of nitro blue tetrazolium as an index of pollen viability. Amer. J. Bot. 51: 748–752.
Herrera C. M. (1982) Seasonal variation in quality of fruits and diffuse coevolution between plants and avian dispensers. Ecology 63: 773–775.
Heslop-Harrison J. (1979) An interpretation of the hydrodynamics of pollen. Amer. J. Bot. 66: 737–743.
Heslop-Harrison J. S. (1992) Pollen capture, adhesion and hydration. In: Cresti M., Tiezzi A. (eds.) Sexual plant reproduction. Springer, Berlin, pp. 81–88.
Heslop-Harrison J. S., Heslop-Harrison Y. (1970) Evaluation of pollen viability by enzymatically induced fluorescence; intracellular hydrolysis of fluoresceine diacetate. Stain Technol. 45: 115–120.
Heslop-Harrison J. S., Heslop-Harrison Y., Shivanna K. R. (1984) The evaluation of pollen quality and a further appraisal of the flourochromatic (FCR) test procedure. Theor. Appl. Gen. 67: 367–375.
Heslop-Harrison J., Heslop-Harrison Y. (1992) Germination of Monocolpate angiosperm pollen: effects of inhibitory factors and the Ca +2 -channel blocker, nifedipine. Ann. Bot. 69: 395–403.
Hoc S. P., Agullo M. A., Palacios R. A. (1994) Stylar trimorphism in four functionally andromonoeciousProsopis species (Mimosaceae). Plant Syst. Evol. 190: 143–156.
Hoekstra F. A. (1975) Viability of Compositae pollen: Germination in vitro and influence of climatic conditions during dehiscence. Z. Planzenphysiol. 765: 36–43.
Hoekstra F. A., Crowe L. M., Crowe J. H. (1989) Differential dessiccation sensitivity of corn and Pennisetum pollen linked to sucrose content. Pl. Cell Env. 12: 83–91.
Hoekstra F. A., Crowe J. H., Crowe L. M. (1991) Effect of sucrose on phase behavior of membranes in intact pollen ofTypha latifolia L. as measured with Fourier transform infrared spectroscopy. Pl. Physiol. 97: 1073–1079.
Hoekstra F. A., Roekel van T. (1988) Desiccation tolerance ofPapaver dubium L. pollen during its development in the anther. Pl. Physiol. 88: 626–632.
Horn S. P., Clark L. G. (1992) Pollen visibility inChusquea subtessellata (Poaceae: Bambusoideae). Biotropica 4: 577–579.
James E. A., Knox R. B. (1993) Reproductive biology of the Australian species of the genusPandorea (Bignoniaceae). Aust. J. Bot. 341: 611–626.
Johri B. M., Vasil I. K. (1961) Physiology of pollen. Bot. Rev. 27: 325–375.
Jones M. D., Newell L. C. (1948) Longevity of pollen and stigmas of grasses: Buffalo-grass (Buchloe dactyloides Nutt.) Engelm, and corn (Zea mays L). J. Amer. Soc. Agron. 40: 195–204.
Juncosa M. A., Webster B. D. (1989) Pollination inLupinus nanus ssplatifolius (Leguminosae). Am. J. Bot. 76: 59–66.
Käpylä M. (1991) Testing the age and viability of airborne pollen. Grana 29: 430–433.
Katiyar R. K., Gupta V. K. (1985) Pollen grain and stigma longevity in turnip rape. Crop. Improv. 12: 18–23.
Kearns C. A., Inouye D. W. (1993) Techniques for pollination biologists. Niwot. University Press of Colorado, Colorado.
Khatun S., Flowers T. J. (1995) The estimation of pollen viability in rice. J. Exp. Bot. 46: 151–154.
King J. R. (1960) The peroxidase reaction as an indicator of pollen viability. Stain Tech. 36: 225–227.
Knox R. B., Williams E. G., Dumas C. (1986) Pollen, pistil and reproductive function in crop plants. Pl. Breed. Rev. 5: 14–79.
Koga Y., Akihama T., Fujimaki H., Yokoo M. (1971) Studies on longevity of pollen grains of rice,Oriza sativa L. 1 Morphological change of pollen grains after shedding. Cytologia 36: 104–110.
Kumar A., Chowdhury R. K., Dahiya O. S. (1995) Pollen viability and stigma receptivity in relation to meteorological parameters in pearl millet. Seed Sci. Tech. 23: 147–156.
Lansac A. R., Sullivan C. Y., Johnson B. E., Lee K. W. (1994) Viability and germination of the pollen of sorghum (Sorghum bicolor (L) Moench. Ann. Bot. 74: 27–33.
La Porta N., Roselli G. (1991) Relationship between pollen germination in vitro and fluochromatic reaction in cherry clone F12/1 (Prunus avium L) and some of its mutants. J. Hort. Sci. 56: 171–175.
Lavi V., Sahar N., Barcucis I., Gaash D., Kadman A. (1996) The effect of pollen donors and pollen viability on fruitlet drop inMacadamia integrifolia. Trop. Agric. 73: 249–251.
Lloyd D. G., Yates J. M. A. (1982) Intrasexual selection and the segregation of pollen and stigmas in hermaphrodite plants, exemplified byWahlenbergia albomarginata (Campanualacea). Evolution 36: 903–913.
Lincoln R. J., Boxshall G. A., Clark P. F. (1982) A dictionary of ecology, evolution and systematics. Cambridge University Press, New York.
Lindgren K., Lindgren D. (1996) Germinability of Norway spruce and Scots pine pollen exposed to open air. Silva Fenn 30: 3–9.
Lindgren D., Paule L., Xihuan S., Yuazdani R., Segerstörm O., Wallin J-E., Lezbro M. L. (1995) Can viable pollen carry Scots pine genes over long distances. Grana 34: 64–69.
Lisci M., Tanda C., Pacini E. (1994) Pollination ecophysiology ofMercurialis annua L (Euphorbiaceae), an anemophilous species flowering all year around. Ann. Bot. 74: 125–135.
Lord E. M. (1980) Cleistogamy: a tool for the study of floral morphogenesis, function and evolution. Bot. Rev. 47: 421–449.
Maguire T. L., Sedgley A. (1997) Genetic diversity inBanksia andDryandra (Proteaceae) with emphasis onBanksia cuneata, a rare and endangered species. Heredity 79: 394–401.
Marcellan O. N., Camadro E. L. (1996) The viability of asparagus pollen after storage at low temperatures. Sci. Hort. 67: 101–104.
McKellar M. A., Quesenberry K. H. (1992) Chromosome pairing and pollen viability inDesmodium ovalifolium Wall ×Desmodium herterocarpon (L) DC Hybrids. Aust. J. Bot. 40: 243–247.
Mione T., Anderson G. J. (1992) Pollen-ovule ratios and breeding system evolution inSolanum sectionBasarthrum (Solanaceae). Amer. J. Bot. 79: 279–287.
Morse D. H. (1987) Roles of pollen and ovary age in follicle production of the common milkweedAsclepias syriaca. Amer. J. Bot. 74: 851–856.
Mulugeta D., Maxwell B. D., Dyer W. D. (1994) Kochia (Kochia scoparia) pollen dispersion, viability and germination. Weed. Sci. 42: 548–552.
Neiland M. R. M., Wilcock C. C. (1995) Maximisation of reproductive success by European Orchideae under conditions of infrequent pollination. Protoplasma 187: 39–48.
Nepi M., Pacini E. (1993) Pollination, pollen viability and pistil receptivity inCucurbita pepo. Ann. Bot. 72: 527–536.
Niesenbaum R. A. (1992) Sex ratio, components of reproduction and pollen deposition inLindera benzoin (Lauraceae). Amer. J. Bot. 79: 495–500.
Nybom H. (1986) Active self-pollination and pollen stainability in someRubus cultivars. J. Hort. Sci. 69: 49–55.
Nyman I. (1992) Pollination mechanisms in sixCampanula species (Campanulaceae). Plant Syst. Evol. 188: 97–108.
Oberle G. D., Watson R. (1952) The use of 2,3,5-triphenyl tetrazolium chloride in viability tests of fruit pollens. Proc. Amer. Soc. Hort. Sci. 61: 299–303.
Ockendon D. J., Gates P. J. (1976) Reduced pollen viability in the onion (Allium cepa). New Phytol. 76: 511–517.
Pacini E. (1996) Types and meaning of pollen carbohydrate reserves. Sex. Pl. Rep. 9: 362–366.
Pacini E., Franchi G. (1996) Some cytological, ecological and evolutionary aspects of pollination. Acta Soc. Bot. Pol. 65: 11–16.
Pacini E., Franchi G. G., Lisci M., Nepi M. (1997) Pollen viability related to type of pollination in six angiosperm species. Ann. Bot. 80: 83–87.
Pacini E., Viegi L. (1995) Total polysaccharide content of developing pollen in two angiosperm species. Grana 39: 237–241.
Palfi G., Gulyas S., Rajki E. S., Cseuz L. (1988) The Proline test — a method to the demonstration of the tolerance of water deficiency and of frost — and to the qualification of pollens. Acta Univ. Szeged. Acta Biol. 34: 11–25.
Palfi G., Koves E. (1984) Determination of vitality of pollen on the basis of its amino acid content. Bioch. Physiol. Pfl. 179: 237–240.
Palmer M., Travis J., Antonovics J. (1989) Temporal mechanisms influencing gender expression and pollen flow within a self-compatible perennial,Amianthium muscaetoxicum (Liliaceae). Oecologia 78: 231–236.
Parfitt D. E., Ganeshan S. (1989) Comparison of procedures for estimating viability ofPrunus pollen. Hort. Sci. 24: 354–356.
Pinney K., Polito V. S. (1990) Olive pollen storage and in vitro germination. Acta Hort. 286: 207–209.
Polito V. S., Luza J. G. (1988) Longevity of pistachio pollen determined by in vitro germination. J. Amer. Hort. Soc. 113: 214–217.
Preston R. E. (1991) The intrafloral phenology ofStreptantus tortuosus (Brassicaceae). Amer. J. Bot. 78: 1044–1053.
Proctor H. C. (1998) Effect of pollen age on fruit set, fruit weight, and seed set in three orchid specides. Can. J. Bot. 76: 420–427.
Ramsey M. (1988) Differences in pollinator effectiveness of birds and insects visitingBanksia menziesii (Proteaceae). Oecologia 76: 119–124.
Ramsey M., Vaughlon G. (1991) Self incompatibility, protandry, pollen production and pollen longevity inBanksia menziesii. Aust. J. Bot. 39: 497–504.
Rao G. U., Jain A., Shivanna K. R. (1992) Effects of high temperature stress onBrassica pollen: Viability, germination and ability to set fruits and seeds. Ann. Bot. 68: 193–198.
Rodriguez-Riano T., Dafni A. (2000) A new procedure to assess pollen viability. Sex. Pl. Rep. 12: 242–244.
Roubik D. W. (1989) Ecology and natural history of tropical bees. Cambridge University Press, Cambridge.
Sarvella P. (1964) Vital-stain testing of pollen viability in cotton. J. Hered. 55: 154–158.
Sato S., Katho N., Iwai S., Hagimori M. (1998) Establishment of reliable method of in vitro pollen germination and pollen preservation ofBrassica rapa (syn B campestris). Euphytica 103: 29–33.
Sedgley M., Harbard J. (1993) Pollen storage and breeding system in relation to controlled pollination of four species ofAcacia (Leguminosae: Mimosoideae). Aust. J. Bot. 41: 601–609.
Sedgley M., Griffin A. R. (1989) Sexual reproduction of tree crops. Academic Press, London.
Shchori Y., Goren T., Ben-Jaacov J. (1992) Pollen germination and storage inBanksia and some other proteaceae plants. Acta Hort. 316: 19–20.
Shivanna K. R., Heslop-Harrison J. (1981) Membrane state and pollen viability. Ann. Bot. 47: 759–770.
Shivanna K. R., Johri B. M. (1989) The angiosperm pollen structure and function. Wiley Eastern Limited, New Delhi.
Shivanna K. R., Rangaswamy N. S. (1992) Pollen biology — a laboratory manual. Springer, Berlin.
Shukhvibul N., Considine J. A. (1993) Medium and long storage ofAnigozanthos manglesii (D Don) pollen. NZ J. Crop. Hort. Sci. 21: 343–347.
Siddiqui B. A. (1983) Studies on the floral biology and morphology ofRaphanus sativus L. Acta Bot. Ind. 11: 150–154.
Singh M. B., O'Neil P. M., Knox B. (1985) Initiation of postmeioticβ-galactosidase synthesis during microsporogenesis in oilseed rape. Plant Physiol. 77: 225–228.
Smith-Huerta N. L., Vasek F. C. (1984) Pollen longevity and stigma-pre-emption inClarkia. Amer. J. Bot. 71: 1183–1191.
Snow A. A., Spira T. P. (1993) Individual variation in vigor of self pollen and selfed progeny inHibiscus moscheutos (Malvaceae). Amer. J. Bot. 80: 160–164.
Speranza A., Calzoni G. L., Pacini E. L. (1997) Occurrence of mono- or disaccharides and polysaccharides reserve in mature pollen grain. Sex. Pl. Rep. 10: 110–115.
Stanley R. G., Linskens H. F. (1974) Pollen: biology, biochemistry and management. Springer, New York.
Stephenson A. G., Beritn R. I. (1983) Male competition, female choice, and sexual selection in plants. In: Real L. (ed.) Pollination biology. Academic Press, Orlando, pp. 109–149.
Stone J. L., Thomson J. D., Dent-Acosta S. J. (1995) Assessment of pollen viability in handpollination experiments: A review. Amer. J. Bot. 82: 1186–1197.
Swartz-Tzachor R. (1999) Pollination and seed production in two populations ofCyclamen persicum. MSc Thesis, Dep. of Botany. Tel-Aviv University.
Tangmitcharoen S., Owens J. N. (1997) Pollen viability and pollen-tube growth following controlled pollination and their relation to low fruit production in teak (Tectona grandis Linn f). Ann. Bot. 80: 401–410.
Thomson J. D., Barrett S. C. H. (1981) Temporal variation of gender inAralia hispida Vent (Araliaceae). Evolution 35: 1094–1107.
Thomson J. D., Rigney L. P., Karoly K. M., Thomson B. A. (1994) Pollen viability, vigor, and competitive ability inErythronium grandiflorum (Liliaceae). Amer. J. Bot. 81: 1257–1266.
Thomson J. D., Thomson B. A. (1992) Pollen presentation and viability schedules in animalpollinated plants: Consequences for reproductive success. In: Wyatt R. (ed.) Ecology and evolution of plant reproduction: New approaches. Chapman and Hill, New York, pp. 1–24.
Trognitz B. R. (1991) Comparison of different pollen viability assays to evaluate pollen fertility of potato dihaploids. Euphytica 56: 143–148.
Vaknin Y., Gan-Mor S., Bechar A., Ronen B., Eisikowitch D. (1999) Effect of dilution and desiccation of almond pollen on its viability: implications for pollen supplementation for cultivated crop plants. J. Hort. Biotech. 74: 321–327.
Vallania R., Caramiello R., Miaza L. M., Me G., Gianotti C. (1988) Pollen morphology and viability of threeVitis vinifera Lcultivaro (Dolcetto, Delight, Queen of the Vineyard) and of two Queens of the Vineyards mutants. Contribution No 334 of Centro Miglioramento Genetico e Biologia della Vite, pp. 19–28.
Vassileva R., Lidanski T., Tseckova Z. (1991) Acetocarmine test and pollen vitality in the genusHelianthus. Compt. Rend. de l'Acad. Bulg. Sci. 44: 71–72.
Vaughton G., Ramsey M. (1991) Floral biology and inefficient pollen removal inBanksia spinulosa varNeoangelica (Proteaceae). Aust. J. Bot. 39: 167–77.
Vergano G., Mizja M. L., Me G., Gianotti C., Vallania R. (1994) Vitalita e germinabilita di pollini di diversi fruttiferi dopo crioconservazione. Ital. Hort. 1: 24–29.
Visser T. (1955) Germination and storage of pollen. Meded Landbouwshogesch Wageningen/Nederland 55: 1–68.
Walt van der I. D., Littlejohn G. M. (1996) Storage and viability testing ofProtea pollen. J. Amer. Soc. Hort. Sci. 121: 804–809.
Wyatt R., Brouyles S. B. (1990) Reproductive biology of milkweeds (Asclepias) recent advances. In: Kawano S. (ed.) Biological approaches and evolutionary trends in plants. Academic Press, London, pp. 255–272.
Yeo P. Y. (1993) Secondary pollen presentation: form, function and evolution. Plant Syst. Evol. [Suppl.] 6, Springer, Wien.
Ziestsman P. C. (1991) Reproductive biology ofGrevia occidentalis L (Tiliaceae). S. Afr. J. Bot. 57: 348–351.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Dafni, A., Firmage, D. Pollen viability and longevity: Practical, ecological and evolutionary implications. Pl Syst Evol 222, 113–132 (2000). https://doi.org/10.1007/BF00984098
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00984098