Abstract
The monocot genus Aspidistra comprises rhizomatous perennials that are distributed in tropical to warm temperate regions of Asia. Little is known about the pollinators of almost all the species, probably due to the inconspicuous nature of Aspidistra flowers. Nevertheless, the unusual floral morphology suggests biotic pollination, since pollen grains are hidden under each flower’s stigma. Aspidistra elatior has been suspected to have a very peculiar pollination ecology. So far, pollination by mollusks, crustaceans, or collembolans has been suspected. However, a recent study showed that A. elatior is mainly pollinated by species of fungus gnats in Kuroshima Island, southern Japan, which is its natural habitat. Here, we investigated the pollination ecology of A. elatior in Shiga Prefecture, central Japan, which is the introduced population, to reveal whether fungus gnats are also the main pollinator in the introduced population. Our study confirmed fungus gnats pollination in the investigated pollination. Furthermore, the main pollinators (i.e., Cordyla sixi and Bradysia sp.) are the same in both Kuroshima and Shiga Prefecture. Therefore, A. elatior mainly depends on a narrow taxonomic group of fungus gnats for pollination. In contrast, we failed to document any terrestrial amphipods visiting the A. elatior flowers, in spite of a relatively high fruit set in natural conditions. This fact will refute the amphipod pollination hypothesis proposed by previous studies. We consider that A. elatior is pollinated by fungus gnats through fungal mimicry, due to its superficial similarity to mushroom fruiting bodies and strong, musky floral scent.
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References
Ackerman JD, Mesler MR (1979) Pollination biology of Listera cordata (Orchidaceae). Am J Bot 66:820–824
Averyanov LV, Tillich HJ (2016) Aspidistra anomala, A. elegans and A. sinensis spp. nov. (Asparagaceae, Convallariaceae s.s.) from China, Laos and Vietnam. Nord J Bot 34:141–147
Binns E (1981) Fungus gnats (Diptera: Mycetophilidae-Sciaridae) and the role of mycophagy in soil: a review (primary decomposition of litter). Rev Ecol Biol Sol 18:77–90
Blume CL (1834) Aspidistra elatior. Tijdschrift voor Natuurlijke Geschiedenis en Physiologie 1:76–79
Buchenau F (1867) Einige Notizen über Dichogamie, namentlich bei Aspidistra elatior Bl. Bot Zeit 28:220–222
Chandler P, Chandler P (2010) Associations with fungi, Mycetozoa and plants. A dipterist’s handbook. Amat Entomol 15:417–441
Conran JG, Bradbury JH (2007) Aspidistras, amphipods and Oz: niche opportunism between strangers in a strange land. Plant Species Biol 22:41–48
Conran JG, Tamura MN (1998) Convallariaceae. In: Kubitzki K (ed) Flowering plants. Monocotyledons. The families and genera of vascular plants, vol 3. Springer, Berlin, pp 186–198
Dafni A (1984) Mimicry and deception in pollination. Annu Rev Ecol Evol Syst 15:259–278
Dafni A, Bernhardt P (1990) Pollination of terrestrial orchids of southern Australia and the Mediterranean region. Evol Biol 24:193–252
Goldblatt P, Bernhardt P, Vogan P, Manning J (2004) Pollination by fungus gnats (Diptera: Mycetophilidae) and self-recognition sites in Tolmiea menziesii (Saxifragaceae). Plant Syst Evol 244:55–67
Hatusima S (1991) Flora of the northern Ryukyus. Asahi Press, Kagoshima
Jersáková J, Johnson SD, Kindlmann P (2006) Mechanisms and evolution of deceptive pollination in orchids. Biol Rev Camb Philos Soc 81:219–235
Jürgens A, Wee S, Shuttleworth A, Johnson SD (2013) Chemical mimicry of insect oviposition sites: a global analysis of convergence in angiosperms. Ecol Lett 16:1157–1167
Kato M (1995) The aspidistra and the amphipod. Nature 377:293
Liang SY, Tamura MN (2000) Aspidistra. Flora China 24:240–250
Lu KL (1982) Pollination biology of Asarum caudatum (Aristolochiaceae) in northern California. Syst Bot 7:150–157
Martos F, Cariou ML, Pailler T, Fournel J, Bytebier B, Johnson SD (2015) Chemical and morphological filters in a specialized floral mimicry system. New Phytol 207:225–234
Mesler MR, Lu KL (1993) Pollination biology of Asarum hartwegii (Aristolochiaceae): an evaluation of Vogel’s mushroom-fly hypothesis. Madroño 40:117–125
Mesler MR, Ackerman JD, Lu KL (1980) The effectiveness of fungus gnats as pollinators. Am J Bot 67:564–567
Ohwi J (1965) Flora of Japan. Shibundo, Tokyo
Okuyama Y, Kato M, Murakami N (2004) Pollination by fungus gnats in four species of the genus Mitella (Saxifragaceae). Bot J Linn Soc 144:449–460
Renner SS (2006) Rewardless flowers in the angiosperms and the role of insect cognition in their evolution. In: Waser NM, Olerton J (eds) Plant-pollinator interactions: From specialization to generalization. University of Chicago Press, Chicago, pp 123–144
Richards AJ (1986) Plant breeding systems. George Allen & Unwin, New South Wales
Suetsugu K, Sueyoshi M (2017) Subterranean flowers of Aspidistra elatior are mainly pollinated by not terrestrial amphipods but fungus gnats. Ecology. https://doi.org/10.1002/ecy.2021
Sugawara T (1988) Floral biology of Heterotropa tamaensis (Aristolochiaceae) in Japan. Plant Species Biol 3:7–12
Sugiura N (2014) Pollination and floral ecology of Arundina graminifolia (Orchidaceae) at the northern border of the species’ natural distribution. J Plant Res 127:131–139
Tanaka H (2009) The handbook of flowers pollinated by insects. Bunichi Sogo Shuppan, Tokyo
Tanaka N (2016) Taxonomic reexamination Aspidistra (Asparagaceae) in Japan with the description of a new subspecies. Makinoa 11:17–42
Tillich HJ (2005) A key for Aspidistra (Ruscaceae), including fifteen new species from Vietnam. Feddes Repert 116:313–338
Tillich HJ (2006) Four new species in Aspidistra Ker-Gawl. (Ruscaceae) from China, Vietnam, and Japan. Feddes Repert 117:139–145
Tillich HJ (2008) An updated and improved determination key for Aspidistra Ker-Gawl. (Ruscaceae, Monocotyledons). Feddes Repert 119:449–462
Tillich HJ (2014) The genus Aspidistra Ker-Gawl. (Asparagaceae) in Vietnam. Taiwania 59:1–8
Urru I, Stensmyr MC, Hansson BS (2011) Pollination by brood-site deception. Phytochemistry 72:1655–1666
Vislobokov NA (2016) Aspidistra obtusata sp. nov. (Asparagaceae) from Vietnam. Nord J Bot 34:694–698
Vislobokov NA (2017) Flowering biology of Aspidistra (Asparagaceae): new data on pollination by dipteran insects. Plant Species Biol 32:412–422
Vislobokov NA, Kuznetsov AN, Sokoloff DD (2013) A new species of Aspidistra (Ruscaceae s.l., Asparagales) from southern Vietnam, field observations on its flowering and possible pollination by flies (Phoridae). Plant Syst Evol 299:347–355
Vislobokov NA, Sokoloff DD, Degtjareva GV, Valiejo-Roman CM, Kuznetsov AN (2014a) Aspidistra xuansonensis (Asparagaceae), a new species from northern Vietnam. Phytotaxa 173:226–234
Vislobokov NA, Galinskaya TV, Degtjareva GV, Valiejo-Roman CM, Samigullin TH, Kuznetsov AN, Sokoloff DD (2014b) Pollination of Vietnamese Aspidistra xuansonensis (Asparagaceae) by female Cecidomyiidi flies: larvae of pollinator feed on fertile pollen in anthers of anthetic bisexual flowers. Am J Bot 101:1519–1531
Vislobokov NA, Nuraliev MS, Kuznetsov AN, Kuznetsova SP (2016a) Aspidistra globosa (Asparagaceae, Nolinoideae), a new species with erect stem from southern Vietnam. Phytotaxa 282:46–52
Vislobokov NA, Nuraliev MS, Kuznetsov AN, Kuznetsova SP (2016b) Aspidistra cylindrica (Asparagaceae), a new species from Southern Vietnam. Syst Bot 41:160–165
Vogel S (1978) Pilzmückenblumen als Pilzmimeten. Flora 167:329–398
Wilson J (1889) On the fertilisation of Aspidistra elatior by slugs. Trans Bot Soc Edinb 17:495–497
Acknowledgements
We thank Dr. Taizo Nakamori for their assistance with insect identification. This work was financially supported by the JSPS KAKENHI (Grant number 17H05016).
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Suetsugu, K., Sueyoshi, M. Specialized pollination by fungus gnats in the introduced population of Aspidistra elatior. J Plant Res 131, 497–503 (2018). https://doi.org/10.1007/s10265-017-1007-4
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DOI: https://doi.org/10.1007/s10265-017-1007-4