We assessed the nectar source potential of a prospective honey plant, Idesia polycarpa, by analyzing nectar volume, free sugar content, and free amino acid content. Idesia polycarpa is a dioecious tree; the males bloom approximately four days earlier than females, and the blooming period is approximately 17 days-from March 14^th to March 30^th. Upon investigating the patterns of nectar secretion, it was found that male flowers peak on the third day of blooming at 5.0 ± 2.5 μL, and female flowers peak on the second day of blooming, at 1.1 ± 0.4 μL. There was a significant difference between males and females in the total nectar volume (9.7 ± 2.9 μL for males and 1.7 ± 0.5 μL for females) and the dried nectar volume (2.2 ± 0.6 μL for males, 0.8 ± 0.3 μL for females) during the blooming period. The free sugar content of floral nectar was 54.6 ± 15.4 μg/μL for males and 20.5 ± 4.9 μg/μL for females, and the sugar content per flower was higher in males (170.7 ± 15.4 μg) than in females (24.9 ± 5.5 μg). Our analysis of the amino acid content showed that 20.4 ± 3.9 mg/L (comprised of 19 amino acids) is produced in male flowers and 3.2 ± 0.1 mg/L (11 amino acids) in female flowers. In the male flower, the main amino acid was glutamine, followed by asparagine and proline, whereas in the female nectar, asparagine was the main amino acid, followed by glutamic acid and glutamine. Idesia polycarpa blooms after the blooming period of a major honey plant, Robinia pseudoacacia, and its nectar volume and nectar characteristics, such as free sugar content and amino acid content, make it a viable honey plant.

1 장정원, "한국의 밀원식물에 관한 연구 : 국내 밀원식물의 종류와 화분의 전자현미경적 형태구조를 중심으로" 대구대학교 대학원 2009

2 김문섭, "섬피나무의 꿀벌 방화 및 화밀 분비 특성과기상과의 관계" 한국양봉학회 28 (28): 331-337, 2013

3 류장발, "새로 발견된 밀원식물들" 한국양봉학회 23 (23): 221-228, 2008

4 김세현, "밤나무 주요 4품종의 개화 및 화밀 특성 분석" 한국양봉학회 32 (32): 237-246, 2017

5 한진규, "밀원수종 헛개나무의 개화 및 화밀분비 특성" 한국양봉학회 23 (23): 199-205, 2008

6 김문섭, "밀원수종 쉬나무 수꽃과 암꽃의 화밀분비량, 당 함량 및 아미노산 분석" 한국산림과학회 103 (103): 43-50, 2014

7 한진규, "경기도 수원지역 아까시나무의 개화, 꿀벌방화 및 화밀분비 특성" 한국양봉학회 24 (24): 147-152, 2009

8 Liu, H., "Transcriptomic and microstructural analyses in Liriodendron tulipifera Linn. reveal candidate genes involved in nectary development and nectar secretion" 2019 (2019): 531-, 2019

9 Kim, T.W., "The state and propagation plans of honey plants in Korea" 4 (4): 9-18, 1989

10 Schmidt, J.O., "Survival of honey bees, Apis mellifera (Hymenoptera: Apidae), fed various pollen sources" 80 (80): 176-183, 1987

11 Aizen, M., "Sex differential nectar secretion in Protandrous Alstroemeria aurea (Alstroemeriaceae): is production altered by pollen removal and receipt?" 85 (85): 245-252, 1998

12 Guo, H., "Quality analysis of Idesia polycarpa maxim seed oil" 28 (28): 345-347, 2012

13 de Groot, A.P., "Protein and amino acid requirements of the honeybee Apis mellifera" 3 : 1-83, 1953

14 Yang, F.-X., "Preparation of biodiesel from Idesia polycarpa var. vestita fruit oil" 29 (29): 622-628, 2009

15 Corbet, S.A., "Post-secretory determinants of sugar concentration in nectar" 4 (4): 293-308, 1979

16 Khan, K.A., "Pollination effect of honey bees, Apis mellifera L. (Hymenoptera: Apidae) on apple fruit development and its weight" 1 (1): 1-5, 2012

17 Neupane, K., "Pollen collection and brood production by honeybees (Apis mellifera L.) under Chitwan condition of Nepal" 26 (26): 143-148, 2005

18 Chou, C.-J., "Phenyl-β-D-glucopyranoside derivatives from the fruits of Idesia polycarpa" 60 (60): 375-377, 1997

19 Ye, Y., "Optimization of phenolics extracted from Idesia polycarpa defatted fruit residue and its antioxidant and depigmenting activity in vitro and in vivo" 12-, 2014

20 Brodschneider, R., "Nutrition and health in honey bees" 41 (41): 278-294, 2010

21 Burquez, A., "Nectary: Biology: Structure, Function and Utilization" Vedams Books International 130-152, 1998

22 Nicolson, S., "Nectaries and nectar: Nectar production and presentation" Springer 167-214, 2007

23 Heil, M., "Nectar: generation, regulation and ecological functions" 16 (16): 191-200, 2011

24 Witt. T., "Nectar dynamics and sugar composition in flowers of Silene and Saponaria sepcies (Caryophyllaceae)" 1 (1): 334-345, 1999

25 Pacini, E., "Nectar biodiversity: A short review" 238 (238): 7-21, 2003

26 "Korea National Arboretum (KNA)"

27 Kim, S.H., "Inhibitory activity of phenolic glycosides from the fruits of Idesia polycarpa on lipopolysaccharide-induced nitric oxide production in BV2 microglia" 73 (73): 167-169, 2007

28 Jakobsen, H.B., "Influence of temperature and floret age on nectar secretion in Trifolium repens L" 74 (74): 327-334, 1994

29 Jung, M.H., "Idesolide, an isolate of Idesia polycarpa, inhibits apoptosis through induction of intracellular heat shock protein 70 in C2C12 muscle cells" 33 (33): 1063-1066, 2010

30 Hwang, J.H., "Idesolide inhibits the adipogenic differentiation of mesenchymal cells through the suppression of nitric oxide production" 685 (685): 218-223, 2012

31 BAEK SEUNGHWA, "Idescarpin Isolated from the Fruits of Idesia polycarpa Inhibits Melanin Biosynthesis" 한국미생물·생명공학회 16 (16): 667-672, 2006

32 Baker, H.G., "Handbook of experimental pollination biology" Van Nostrand Reinhold 117-141, 1983

33 Luttge, U., "Green nectaries: the role of photosynthesis in secretion" 173 (173): 1-11, 2013

34 Schmehl, D.R., "Genomic analysis of the interaction between pesticide exposure and nutrition in honey bees (Apis mellifera)" 71 : 177-190, 2014

35 Greco, C.F., "Foraging behaviour of honey bees (Apis mellifera L.) on staghorn sumac [Rhus Hirta Sudworth (ex-Typhina L.)] differences and diocey" 128 (128): 355-366, 1996

36 Klinkhamer, P.G.L., "Effects of plant size, plant density and sex differential nectar reward on pollinator visitation in the protandrous echium vulgare (Boraginaceae)" 57 (57): 399-405, 1990

37 Pacini, E., "Effect of pistil age on pollen tube growth, fruit development and seed set in Cucurbita pepo L" 70 (70): 165-172, 2014

38 Alaux, C., "Diet effects on honeybee immunocompetence" 6 (6): 562-565, 2010

39 Baker, H.G., "Biochemical aspects of evolutionary biology" University of Chicago Press 131-171, 1982

40 Lee, M., "Anti-adipogenic activity of compounds isolated from Idesia polycarpa on 3T3-L1 cells" 23 (23): 3170-3174, 2013

41 Kim, S., "Analysis of floral nectar characteristics of Korean and Chinses hawthorns (Crataegus pinnatifida Bunge)" 57 (57): 119-128, 2017

42 김문섭, "Analysis of Secretion Quantity and Sugar Composition of Nectar from Tilia amurensis Rupr." 한국양봉학회 27 (27): 79-85, 2012

43 Ollerton, J., "A review of: Ecology and evolution of flowers" 57 (57): 516-517, 2008