Phenology and Pollination Biology of Eight Peperomia Species (Piperaceae) in Semideciduous Forests in Southeastern Brazil

R. A. de Figueiredo; M. Sazima

doi:10.1055/s-2006-924543

Plant Biology, Table of Contents

Plant Biol (Stuttg) 2007; 9(1): 136-141
DOI: 10.1055/s-2006-924543

Research Paper

Georg Thieme Verlag Stuttgart KG · New York

Phenology and Pollination Biology of Eight Peperomia Species (Piperaceae) in Semideciduous Forests in Southeastern Brazil

R. A. de Figueiredo¹ , M. Sazima²

¹Centro Universitário Central Paulista and Departamento de Botânica, Universidade Federal de São Carlos, Via Washington Luis km 235, 13563-470 São Carlos, SP, Brasil
²Departamento de Botânica, Universidade Estadual de Campinas, Barão Geraldo, 13083-970 Campinas, SP, Brasil

Abstract

Data on flowering phenology and pollination of Peperomia species are virtually non-existent. This study presents data on the pollination biology of eight Peperomia species from south-eastern Brazil, including the flowering phenology, pollination system, and reproductive success. Data on flowering phenology were recorded weekly and exclusion experiments on inflorescences provided data on autonomous self- and wind pollination. Direct visual observations were made and insect visits were recorded. Four Peperomia species showed continuous flowering, while the others were seasonal and flowered in the wet season. Pollination by wind and Syrphidae was confirmed for two self-incompatible Peperomia species. The remaining species are self-compatible and their high fruit set may be accounted for by autonomous self-pollination and perhaps agamospermy. Although the floral morphology of Peperomia species suggests wind- and/or insect pollination, most of the species studied exhibit autogamy and perhaps agamospermy as the main method of reproduction.

Key words

Piperaceae - Peperomia - floral biology - phenology - syrphids - ambophily - autonomous self-pollination - agamospermy - south-eastern Brazil.

Full Text

References

1 Bai B. V. S., Subramanian D.. Cytotaxonomic studies of south Indian Piperaceae. Cytologia. (1985); 50 583-592
2 Banks C. J.. Syrphidae as pests of cucumbers. Entomological Monographs Magazine. (1951); 86 239-240
3 Benzing D. H.. Vascular Epiphytes. Cambridge; Cambridge University Press (1990)
4 Bertin R. I., Newman C. M.. Dichogamy in angiosperms. Botanical Review. (1993); 59 112-152
5 Bond W. J.. Do mutualisms matter? Assessing the impact of pollinator and disperser disruption on plant extinction. Philosophical Transaction of the Linnean Society. (1994); 344 83-90
6 Bornstein A. J.. Taxonomic studies in the Piperaceae. I. The pedicellate pipers of Mexico and Central America (Piper subg. Arcotottonia). . Journal of the Arnold Arboretum. (1989); 70 1-55
7 Bornstein A. J.. The Piperaceae in the southeastern United States. Journal of the Arnold Arboretum, Supplementary Series. (1991); 1 349-366
8 Cruden R. W.. Pollen-ovule ratios. A conservative indicator of breeding systems in flowering plants. Evolution. (1977); 32 32-46
9 Dafni A.. Pollination Ecology: A Practical Approach. New York; Oxford University Press (1992)
10 Endress P. K.. Shapes, sizes an evolutionary trends in stamens of Magnoliidae. Botanische Jahrbücher fur Systematik, Pflanzengeschichte und Pflanzengeographie. (1994); 115 429-460
11 Faegri K., van der Pijl L.. The Principles of Pollination Ecology. 3rd ed. Oxford; Pergamon Press (1979)
12 de Figueiredo R. A.. Coleta de pólen, interações agonísticas e horários de atividade dos visitantes florais (Insecta: Diptera, Hymenoptera) de pimenteiras silvestres (Piperaceae). Revista de Etologia. (2003); 5 3-13
13 de Figueiredo R. A., Sazima M.. Pollination biology of Piperaceae species in southeastern Brazil. Annals of Botany. (2000); 85 455-460
14 de Figueiredo R. A., Sazima M.. Pollination ecology and resource partitioning in Neotropical pipers. Palmer, A. and Dyer, L., eds. Piper: A Model Genus for Studies of Phytochemistry, Ecology, and Evolution. New York; Kluwer Academic/Plenum Publ. (2004): 33-57
15 Fleming T. H.. Coexistence of five sympatric Piper (Piperaceae) species in a tropical dry forest. Ecology. (1985); 66 688-700
16 Forster P. I.. A taxonomic revision of the genus Peperomia Ruiz and Pav. (Piperaceae) in mainland Australia. Austrobaileya. (1993); 4 93-104
17 Gartner B. L.. Breakage and regrowth of Piper species in rain forest understorey. Biotropica. (1989); 21 303-307
18 Gilbert O. L.. The Ecology of Urban Habitats. London; Chapman and Hall (1991)
19 Judd W. S., Campbell C. S., Kellogg E. A., Stevens P. F.. Plant Systematics: A Phylogenetic Approach. Sunderland; Sinauer (1999)
20 Karr J. R.. An association between a grass (Paspalum virgatum) and moths. Biotropica. (1976); 8 284-285
21 Kearns C. A., Inouye D. W.. Techniques for Pollination Biologists. Niwot; University of Colorado Press (1993)
22 Lloyd D. G., Webb C. J.. The avoidance of interference between the presentation of pollen and stigmas in angiosperms. I. Dichogamy. New Zealand Journal of Botany. (1986); 24 135-162
23 Lorence D. H.. A monograph of the Monimiaceae (Laurales) in the Malagasy region (southwest Indian Ocean). Annals of the Missouri Botanical Garden. (1985); 72 1-165
24 Lorenzi H.. Plantas Ornamentais no Brasil. Nova Odessa; Ed. Plantarum (2000)
25 Maier C. T., Waldbauer G. P.. Diurnal activity patterns of flower flies (Diptera: Syrphidae) in an Illinois sand area. Annals of the Entomological Society of America. (1979); 72 237-245
26 Marquis R. J.. Phenological variation in the neotropical understory shrub Piper arieianum: causes and consequences. Ecology. (1988); 69 1552-1565
27 Martin F. W., Gregory L. E.. Mode of pollination and factors affecting fruit set in Piper nigrum L. in Puerto Rico. Crop Science. (1962); 2 295-299
28 Mello M. H. A., Pedro Junior M. J., Ortolani A. A., Alfonsi R. R.. Chuva e temperatura: cem anos de observações em Campinas. Boletim Técnico do Instituto Agronômico. (1994); 154 1-48
29 Morellato L. P. C.. História natural da Serra do Japi: ecologia e preservação de uma área florestal do sudeste do Brasil. Campinas; Editora da Unicamp (1992)
30 Morellato L. P. C., Leitão-Filho H. F.. Ecologia e preservação de uma floresta tropical urbana: Reserva de Santa Genebra. Campinas; Editora da Unicamp (1995)
31 Newstrom L. E., Frankie G. W., Baker H. G.. A new classification for plant phenology based on flowering patterns in lowland tropical rain forest trees at La Selva, Costa Rica. Biotropica. (1994); 26 141-159
32 Okada H.. Karyomorphology and relationships in some genera of Saururaceae and Piperaceae. Botanical Magazine of Tokyo. (1986); 99 289-299
33 Owen J., Gilbert F. S.. On the abundance of hoverflies (Syrphidae). Oikos. (1989); 55 183-193
34 Penny N. D., Arias J. R.. Insects of an Amazon Forest. New York; Columbia University Press (1982)
35 Prakash N., Brown J. F., Yue-Hua W.. An embryological study of Kava, Piper methysticum. Australian Journal of Botany. (1994); 42 231-237
36 Richards A. J.. Plant Breeding Systems. London; George Allen and Unwin Ltd. (1986)
37 Samuel R.. Chromosome numbers in Piper. Kew Bulletin. (1987); 42 465-470
38 Sasikumar B., George J. K., Ravindran P. N.. Breeding behaviour of black pepper. Indian Journal of Genetics. (1992); 52 17-21
39 Semple K. S.. Pollination in Piperaceae. Annals of the Missouri Botanical Garden. (1974); 61 868-871
40 Soderstrom T. R., Calderon C. E.. Insect pollination in tropical forest grasses. Biotropica. (1971); 3 1-16
41 Tebbs M. C.. The climbing species of New World Piper (Piperaceae). Willdenowia. (1989); 19 175-189
42 Tucker S. C.. Inflorescence and flower development in the Piperaceae. I. Peperomia. American Journal of Botany. (1980); 67 686-702
43 Tucker S. C.. Inflorescence and flower development in the Piperaceae. III. Floral ontogeny of Piper. American Journal of Botany. (1982); 69 1389-1401
44 Tucker S. C., Douglas A. W., Han-Xing L.. Utility of ontogenetic and conventional characters in determining phylogenetic relationships of Saururaceae and Piperaceae (Piperales). Systematic Botany. (1993); 18 614-641
45 Vogel S.. Remarkable nectaries: structure, ecology, organophyletic perspectives. II. Nectarioles. Flora. (1998); 193 1-29
46 Wanke S., Samain M.-S., Vanderschaeve L., Mathieu G., Goethebeur P., Neinhuis C.. Phylogeny of the genus Peperomia (Piperaceae) inferred from the trnK/matK region (cpDNA). Plant Biology. (2006); 8 93-102
47 Whitehead D. R.. Wind-pollination in the angiosperms: evolutionary and environmental considerations. Evolution. (1969); 23 28-35
48 Yuncker T. G.. The Piperaceae of Brazil III: Peperomia; taxa of uncertain status. Hoehnea. (1974); 4 71-413

R. A. de Figueiredo

Centro Universitário Central Paulista and Departamento de Botânica
Universidade Federal de São Carlos

Via Washington Luis km 235

13563-470 São Carlos, SP

Brasil

Email: rodolfo@power.ufscar.br

Editor: M. Ayasse