Mechanisms of Pollen Transfer in Malvanthera and Pharmacosycea Figs (Moraceae)

Mechanisms of Pollen Transfer in Malvanthera and Pharmacosycea Figs (Moraceae)

Rev. Biol. Trop., 45(4): 1635-1640, 1997 Fig wasps: mechanisms of pollen transfer in Malvanthera and Pharmacosycea figs (Moraceae) William Ramírez B.I and Jollyanna Malavasi 2 I Escuela de Fitotecnia. Universidad de Costa Rica, 2060 Costa Rica. 2 Facultad de Medicina, Universidad de Costa Rica, 2060 Costa Rica. Received 31-X-1996. Corrected I3-III-1997. Accepted 30-1X-1997. Abstraet: Pollination of the pistillate fig flowers (Ficus spp.) has crucial effects for the figs and the pollinating wasps (Agaonidae). It a1lows nonnaldevelopment, of seeds and wasps. Sorne agaonid groups have evolved pockets and cor­ biculae to carry pollen, wlúle others carry it in the intersegmental membranes and other hidden areas of the body. Single female specimens of Pleistodontes rieki Wiebes, Robertsia mandibularis Boucek, Tetrapus americanus Mayr and Tetrapus sp., the first two from New Guinea and theTetrapus spp. from Costa Rica were studied with scanning electron microscopy. Sorne Pleistodontes species (Old World) have pollen cavities in the expanded scapes; theyalso carry pollen in the ridges and laminae of the mandib1es. Tetrapus species (NewWorld) carry pollen in cavities locat­ ed behind the mandibular appendages and in the lamellae, ridges and teeth of the mandibles. These ways of carrying pollen may be intennediate between pollen transport in the intersegmental membranes, and in pockets or corbiculae. The evolution of such mechanisms may preserve pollen from desiccation. These structures may have similar func­ tions to the pollinium of sorne plants that are a1so pollinated by specific insects. It is suggested that sorne fig wasps that become dusted with poli en in the syconia where they develop, and remove most of it once outside, fill up the "spu­ rÍous" pockets, and other elaborate pollen-carrying structures outside the syconia. Abundant pollen grains were also found among the mouth parts of Robertsia mandibularis (Sycoecinae) a non-pollinating figwasp. Key words: Pollination, Ficus, fig wasps, Agaonidae, ultrastructure. The Urticales are wind pollinated and suc­ groups (Ramírez 1969, Galil and Eisikowiteh cessful adaptation to inseet pollination is only 1969, Chopra and Kaur 1969). Other questions known in Ficus (Moraeeae) whieh has a about the Agaonidae-Ficus association are why pseudoearpous infloreseenee (Berg 1977). and how fig wasps transport pollen (Verkerke Aecording to Wiebes (1986) polI en transfer has 1987). It is known that unpollinated syconia do only been studied in a small number of agaonid not develop normally and that in the absenee of speeies, a situation which has not changed to pollination and fertilization of the "gall flow­ the present. ers" the nucelar tissue and the parthenocarpic The genus Ficus is exc1usively pollinated endosperm, if present, is a poor food source for by chaIcidoid wasps of the family Agaonidae. the wasp larvae and insuffieient for the devel­ The manners in which the minute, smooth and opment of most females (Galil and Eisikowiteh almost hairless wasps carry enough pollen to 1971, Galil 1973a). Ramírez (1969) noted that accomplish pollination and fertilization of the New World Tetrapus and sorne other Old hundreds, if not thousands, of female flowers World agaonids (e.g., Pleistodontes) carry of the receptive syconia had been in doubt for a pollen dusted over the body or in the digestive long time, until poli en pockets and corbiculae tract (see also Ramírez 1974), while aeeording to carry polIen were found in sorne agaonid to Wiebes (1977), "in many agaonid species, 1636 REVISTA DE BIOLOGIA TROPICAL pollen can sometimes be found in small quanti­ MATERIALS AND METHODS ties in several places of the body e.g., between the mouth parts, and under the hypogidium, One female specimen of each species studied and that, in the species of Pleistodontes the was dissected, treated and mounted (Table 1). axial, disto-dorsal excavation of the antennal The Tetrapus and P. plebejus wasps were scape may be such a place". originally preserved in 70% ethanol, while the Galil and Eisikowitch (1971) stated that R. mandibularis were pinned specimens. They "undoubtedly, the wide fluctuation in number were dissected under a stereoscope, c1eaned, of anthers in the syconia of different Ficus hydrated and inmersed in a fixative containing spp., reflects on the efficiency of pollination". 2% glutaraldehyde and 1 % formaldehyde in a Wiebes (1982a) stated that nothing about polli­ 0.1 M Sorensen phosphate buffer solution for 1 nation is known for the Pleistodontes species. hr. The wasps were post-fixed with buffered The purpose of this article is to explain how 1 % osmium tetroxide for 2 hr and, after a brief sorne Pleistodontes wasps (the pollinators of rinse in distilled water and dehydration through section Malvanthera) and Tetrapus (the polli­ a graded ethanol series, they were placed in nators of section Pharmacosycea) carry the isoamyl acetate, critical point-dried using C02' pollen and effect pollination. The presence of splutter-coated with platinum and observed in a abundant pollen grains among the mouth parts scanning electron microscope at 15 kV. of Robertsia mandibularis (Sycoecinae), a non-pollinating wasp, is also reported. TABLE 1 Wasps asedfor the SEM stady Wasp species Geographic origin Fig hosts Pleistodontes plebejus New Guinea, Ficas xylosycea Wiebes (1977) West, River Tor Die1s (1935) Robertsia mandibalaris New Guinea, F. xylosycea Boucek (1988) Manki area Tetrapas americanas Turrialba, F. maxima Mayr (1885) Costa Rica Miller (1768) Tetrapas sp. San Isidro General, F. macbrideí Costa Rica Standley (1937) RESULTS (Sycoecinae). a non-pollinating sycophilous wasp (van Noort 1994), that also develops in In P. rieki females there is a large cavity the syconia of F. xylosycia, was found to have with many pollen grains in the axial distodor­ numerous polIen grains among the mouth sal areas of the antennal scapes (Fig. 1). Pollen appendages (Fig. 3). grains were also found among the mandibular Tetrapus females, the pollinators of F. ridges and lamellae (Fig.2). P. rieki females do macbridei, had pollen grains lodged in the not have pollen pockets or corbiculae and the mandibular lamellae (Fig. 4) andin a cavity (Fig. axial surface of the coxa is rather smooth 5) on the rear partof the mandibular appendages. (Wiebes 1977). It beloflgs to the P. rieki group Tetrapus americanus females had ponen among (Wiebes 1991) characterized by the absence of the teeth of the mandibular appendage (Fig. 6). ponen pockets and corbiculae. P. rieki is the Tetrapus females of both species were also pollinator of F. xylosycia of subseries observed to eelose from the syconia completely Hesperidiiformes, a figfound in eastern New covered with pollen. which they scraped from Guinea (Comer 1965), Bouganville IsI. and their bodies with the legs while standing on the Papua (Wiebes 1991). Robertsia mandibularis syconia before flying away. Ramirez & Malavasi: Pollen transfer 1637 Fig. 1-6. Fig.l. Scape of Pleistodontes rieki with numerous grains of pollen in its cavity. Fig.2. Section of mandibles of Pleistodontes rieki with pollen grains lodged in the lamellae. Fig.3. Mouth parts of Robertsia mandibularis, a non-pollinat­ ing sycophilous wasp, with pollen grains lodged among mouth parts. Fig.4. Mandibular appendages of Tetrapus sp. the polli­ nator of Ficus macbridei, with pollen grains lodged on lamellae. Fig.5. Rear side of mandibular appendages of Tetrapus sp., the poIlinator of F. macbridei, with polIen grains lodged in cavity. Fig.6. Mandibular appendage of Tetrapus americanus with polIen grains lodged among the serrations of the mandibular appendage. 1638 REVISTA DE BIOLOGIA TROPICAL Pollen in the scape of Pleistodontes: P. galvinus and P. regalis Grandi); 3. P. r;en­ Most, if not all the Pleistodontes females, have nellensis Wiebes, with a very vague trace of the scape several times longer than wide, stemal pockets. 4. Wiebes (1977) illustrated dorsoventrally depressed, with lateral and P. blandus and described P. mandibularis with sometimes apical extensions (e.g., P. rigisamos coxal corbiculae only. 5. Wasps with well Wiebes as illustrated by Wiebes (1991, Fig. 3). developed mesostemal pockets and smooth Grandi (1952) called the extension of the scape mesostema (e.g., P. froggatti, nigriventris and "lobo laminare de suo margine anteriore". The imperialis groups, (sensu Wiebes 1991). P. extension of the scape produces a flap over a imperialis Saunders also have a coxal corbicu­ large cavity in sorne of Pleistodontes females lae (Ramírez 1974, 1978, Wiebes 1977). None as illustrated for P. rieki (Fig. 1). Expanded of the wasps in categories 1-4 seem to have scapes were also observed by Ramírez in P. evolved conspicuous pockets or corbiculae to froggatti Mayr, P. blandus Wiebes, P. longi­ carry pollen, and they probably rely largely for caudus Wiebes, P. mandibularis Wiebes, P. pollination on the pollen carried in the cavities nigriventris (Girault), and P. rieki Wiebes, at of the scapes as in P. rieki and other hidden the Natural History Museum of London. The areas. Thus, in Pleistodontes there are wasps expanded scapes in other species of that probably accomplish topocentric pollina­ Pleistodontes may be used to carry pollen as in tion (those without pockets or corbiculae) and p. rieki and other wasps of the P. rieki and those which accomplish ethodynamic pollina­ rennellensis groups (sensu Wiebes 1977). tion those with pockets and or corbiculae (for Since the agaonid pollinating females are short pollination syndromes, see Galil 1973 b). A lived (Ramírez 1970) and do not feed as adults, similar trend is found in the pollinators of sec­ the pollen grains observed on the "spurious tion Conosycea (subgenus Urostigma) although pockets" of the wasps studied should be Ficus they do not carry pollen in the scapes (Ramfrez pollen. 1974, 1978). The expanded scapes in other Variety of locii in Pleistodontes: Pleistodontes species may be used to carry Pleistodontes wasps inhabit figs of the section pollen as in P. rieki and rennéllensis groups Malvanthera (subg.

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