Browse > Article
http://dx.doi.org/10.1186/s41610-018-0102-3

Pollination of Cleisostoma scolopendrifolium (Orchidaceae) by megachilid bees and determinants of fruit set in southern South Korea  

Son, Hyun-Deok (Mokpo Natural History Museum)
Im, Hyoung-Tak (Department of Biological Sciences, Chonnam National University)
Choi, Sei-Woong (Department of Environmental Education, Mokpo National University)
Publication Information
Journal of Ecology and Environment / v.43, no.1, 2019 , pp. 9-13 More about this Journal
Abstract
We investigated the pollinators of Centipede's foot orchid (Cleisostoma scolopendrifolium) at five locations in southern Korea. Only one species of megachilid bee (Megachile yasumatsui) was observed at three of the sites (Mokpo, Haenam, and Wando). We assumed that the megachilid bee worked as a sole pollinator of C. scolopendrifolium based on the visiting behavior of the bees the attached pollinia. Fruits were observed at the three locations that bees visited: 74% fruit set at Mokpo, 59% at Wando, and 31% at Haenam. By contrast, at two of the locations where megachilid bees did not visit the plants (Naju and Jindo), there were no fruits set. The differences in fruit set rates at the three orchid populations where bees were observed appear to be related to bee abundance and flower visitation rate rather than to differences in flower abundance. The pollination interaction between C. scolopendrifolium and megachilid bees appears to involve sexual deception since only male bees were attracted to the flowers. The underlying mechanism involved in this interaction needs investigation.
Keywords
Pollinator; Cleisostoma scolopendrifolium; Megachilid bee; Fruit set; Korean peninsula;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Ackerman JD, Oliver JCM. Reproductive biology of Oncidium variegatum: moon phases, pollination, and fruit set. Amer Orchid Soc Bull. 1985;4:326-9.
2 Calvo RN. Evolutionary demography of orchids: intensity and frequency of pollination and the cost of fruiting. Ecology. 1993;74:1033-42.   DOI
3 Chung MY. Population genetics of several orchid and tree species in Korea. Implications for conservation and ecology. Jinju: Gyeongsang National University; 2004.
4 Darwin C. The various contrivances by which orchids are fertilised by insects 1984 edition. Chicago: University of Chicago Press; 1877.
5 Dauber J, Biesmeijer JC, Gabriel WE, Kunin E, Lamborn B, et al. Effect of patch size and density on flower visitation and seed set of wild plants: a pan-European approach. J Ecol. 2010;98:188-196.   DOI
6 Dodson CH, Dressler RL, Hills HG, Adams RM, Williams NH. Biologically active compounds in orchid fragrance. Science. 1969;164:1243-9.   DOI
7 Jersakova JS, Johnson D, Kindlmann P. Mechanisms and evolution of deceptive pollination in orchids. Biol Rev. 2006;81:219-35.   DOI
8 Johnson SD, Steiner KE. Pollination by megachilid bees and determinants of fruitset in the Cape orchid Disa tenuifolia. Nord J Bot. 1994;14:481-6.   DOI
9 Kullenberg B. Studies in Ophrys pollination. Zool Bidrag Uppsala. 1961;34:1-340.
10 Ledford H. The flower of seduction. Nature. 2007;445:816-7.   DOI
11 Pouyanne A. La fecundation des Ophrys par les insectes. Hist Nat Afr Nord. 1917;8:6-7.
12 Mendel G. The genetics of orchid pollination. In: Cingel NAVD, editor. An atlas of orchid pollination. European orchid: Brookfield: A.A. Balkema publishers; 1995. p. 47-52.
13 National Institute of Biological Resources. Korean red list of threatened species. 2nd ed. Incheon: National Institute of Biological Resources; 2014.
14 Paulus HF, Gack C. Pollinators as prepollinating isolation factors: evolution and speciation in Ophrys (Orchidaceae). Isr J Bot. 1990;39:43-79.
15 Schiestl FP. On the success of swindle: pollination by deception in orchids. Naturwissenschaften. 2005;92:255-64.   DOI
16 Schiestl FP, Cozzolino S. Evolution of sexual mimicry in the orchid subtribe orchidinae: the role of preadaptation in the attraction of male bees as pollinators. BMC Evol Biol. 2008;8:27. https://doi.org/10.1186/1471-2148-8-27.   DOI
17 Ackerman JD. Pollination biology of Calypso bulbosa var. occidentalis (Orchidaceae): a food-deception system. Madrono. 1981;28:101-10.
18 Son HD, Im HT, Choi SW. Study on the pollinator and pollination mechanism of an endangered orchid species, Sarcanthus scolopendrifolius Makino (Orchidaceae) in Korea. J Apic. 2017;32:199-203.   DOI
19 Wood J. Cleisostoma: Distribution. In: Pridgeon AM, Cribb PJ, Chase MW, Rasmussen F, editors. Genera Orchidacearum: volume 6: Epidendroideae (part three). Oxford: Oxford University Press; 2014.
20 Yoshida Y, Honjo M, Kitamoto N, Ohsawa R. Reconsideration for conservation units of wild Primula sieboldii in Japan based on adaptive diversity and molecular genetic diversity. Genet Res. 2009;91:225-35.   DOI