, 214:107 | Cite as

Agronomic potential of fruit size and yield traits in blue honeysuckle (Lonicera caerulea L.) foundation germplasm

  • Eric M. GerbrandtEmail author
  • Robert H. Bors
  • Ravindra N. Chibbar


The blue honeysuckle (Lonicera caerulea L.) is a mesophytic shrub with northern provenance. Mixed buds develop on the previous season’s growth and produce pairs of flowers that form compound accessory fruit similar in colour to a blueberry but more elongated in shape. With adaptation to cold continental climates presenting a barrier to phenological adaptation to temperate climates, agronomic challenges such as modest yields and small fruit size compound limitations to mainstream production. To understand variability within three foundation germplasm groups from Russia, Japan and the Kuril Islands, evaluation of fruit yield, weight, length and width was conducted across three sites in a temperate climate in the Fraser Valley, British Columbia, Canada in 2012 and 2013. The Japanese and Kuril groups were sources of greater fruit yield, weight and width, while the Japanese and Russian groups were both sources of greater fruit length. The genetic differences in fruit weight, length and width between groups were complex but this is understood in relation to relative degrees of elongation and apparent density. Across the germplasm, fruit weight was a primary driver of yield, and it was more closely associated with width than length. However, within foundation groups, fruit weight had a stronger correlation with fruit length, and there were complex relationships between size parameters that varied across groups. Therefore, this study found that the diversity in these morphological features suggests mainstream agronomic potential.


Genetic resources Fruit weight Temperate climate Haskap Honeyberry 



The authors thank Tom Baumann, Alf Krause and Travis Hopcott for providing land for field trial sites and for their technical assistance; Maxine Thompson (Oregon State University), Maria Plekhanova (Vavilov Institute) and Jim Gilbert (One Green World Nursery) for providing the foundation blue honeysuckle germplasm used in this study. EMG was a grateful recipient of the Natural Science and Engineering Research Council of Canada’s Alexander Graham Bell Canada Graduate and Vanier Canada Graduate Scholarships; and the Robert P. Knowles Plant Breeding Scholarship.

Supplementary material

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Supplementary material 1 (PDF 51 kb)


  1. Ancu I, Mladin G, Mladin P, Ancu S (2011) Evaluation of fruit quality at fruit selections valuable of blue honeysuckle (Lonicera caerulea var. kamtschatica). Sci Pap RIFGPitesti 27:1–6Google Scholar
  2. Arber EAN (1903) On the synanthy in the genus Lonicera. J Linn Soc Lond Bot 35(246):463–474CrossRefGoogle Scholar
  3. Bates D, Maechler M, Bolker B, Walker S (2015) Fitting linear mixed-effects models using lme4. J Stat Softw 67(1):1–48CrossRefGoogle Scholar
  4. BC Ministry of Agriculture (2010) 2009–2010 berry production guide for commercial growers, lower mainland horticulture improvement association, Abbotsford, CanadaGoogle Scholar
  5. Bors B, Thomson J, Sander T, Oster V, Sawatzky R, Matthews L, McArthur ML, Kaban T, Treloar J, Ouellet J, Kalcits L (2009) Haskap breeding and production, final report to Saskatchewan Agriculture, Agriculture Development Fund, Regina, Canada. Retrieved 06 Jan 2016
  6. Bors B, Thomson J, Sawchuk E, Reimer P, Sawatzky R, Sander T, Kaban T, Gerbrandt E, Dawson J (2012). Haskap breeding and production, final report to Saskatchewan Agriculture, Agriculture Development Fund, Regina, Canada. Retrieved 06 Jan 2016
  7. Bors B, Sawchuk E, Dawson J, Sawatzky R (2015) Breeding and selecting haskap for nutraceutical and agronomic suitability, final report to Saskatchewan Agriculture, Agriculture Development Fund, Regina, Canada. Retrieved 06 Jan 2016
  8. Bryksin DM (2009) Agronomic and biological characteristic of honeysuckle samples bred at I.V. Michirin All-Russian Research Institute of Horticulture and Frown in Central Chernozem Zone. In: Proceedings of the 1st virtual international scientific conference on Lonicera caerulea L., pp 99–101Google Scholar
  9. Gerbrandt EM, Bors RH, Chibbar RN, Baumann TE (2017a) Spring phenological adaptation of blue honeysuckle (Lonicera caerulea L.) foundation germplasm in a temperate climate. Can J Plant Sci. CrossRefGoogle Scholar
  10. Gerbrandt EM, Bors RH, Chibbar RN, Baumann TE (2017b) Spring phenological adaptation of improved blue honeysuckle (Lonicera caerulea L.) germplasm to a temperate climate. Euphytica. CrossRefGoogle Scholar
  11. Golovunin VP (2009) Honeysuckle introduction in Marii El Republic. In: Proceedings of the 1st virtual international scientific conference on Lonicera caerulea L., pp 152–154Google Scholar
  12. Graves S, Piepho H-P, Selzer L, Dorai-Raj S (2015) multcompView: visualizations of paired comparisons. Retrieved 03 Jan 2015
  13. Khokhryakova LA (2004) Economic-biological estimation of breeds and perfect forms of honeysuckle in the forest-steppe zone of the Altai Territory. Ph.D. Thesis, Berry Experimental Station, Michurina, IV. Michurin, RussiaGoogle Scholar
  14. Kolasin E, Pozdnyakov A (1991) Knowledge on medicinal fruit, knowledge, Moscow, pp 38–59Google Scholar
  15. Nakajima F (1996) Small fruit growing in Hokkaido. Hokkaido Prefecture Agricultural Extension Services, Extension Publication, Sapporo, JapanGoogle Scholar
  16. Ochmian I, Grajkowski J (2007) Growth and yielding of three blue honeysuckle (Lonicera caerulea) cultivars in western Pomeranian in first years after planting. Ann Agric Univ Pozn 383(41):351–355Google Scholar
  17. Peel MC, Finlayson BL, McMahon TA (2007) Updated world map of the Koppen–Geiger climate classification. Hydrol Earth Syst Sci 11:1633–1644CrossRefGoogle Scholar
  18. Petrushua EN (2009) The main results of honeysuckle breeding in Kamchatka Kray. In: Proceedings of the 1st virtual international scientific conference on Lonicera caerulea L., pp 117–121Google Scholar
  19. Plekhanova MN (1989) Actinidia, Schizandra, and Blue Honeysuckle. Agronomy, Leningrad, p 88Google Scholar
  20. Plekhanova MN (1992) Prospective varieties and forms of blue honeysuckle for selection and production. Bulletin of applied botany, genetics, and plant breeding, vol 146. Russian Academy of Agricultural Science, LeningradGoogle Scholar
  21. Plekhanova MN (1994a) Blue honeysuckle: a new berry from Russia. Pomona 29(1):46–48Google Scholar
  22. Plekhanova MN (1994b) Honeysuckle (Lonicera subsect. Caeruleae): systematics, biology, selection. PhD Thesis, Russian Academy of Agricultural Sciences, St. Petersburg, RussiaGoogle Scholar
  23. Plekhanova MN (1998) Blue honeysuckle in the garden and nursery. N.I. Vavilov Research Institute of Plant Industry, Department of Fruit Crops, St. Petersburg, Russia, pp 16–58Google Scholar
  24. Plekhanova MN (2000) Blue honeysuckle (Lonicera caerulea L.)—a new commercial berry crop for temperate climate: genetic resources and breeding. Acta Hort (ISHS) 538:159–164CrossRefGoogle Scholar
  25. Pojarkova AI (1958) Honeysuckle—Lonicera. In: Flora of the USSR: volume 23: Bignoniaceae—Valerianaceae. Eds: Schischkin VK. Akademiya Nauk SSSR, Moscow-Leningrad, Russia, pp 446–482Google Scholar
  26. Prischepina G (2000) Culture of Altai honeysuckle (Lonicera altaica Pall.) in the forest-steppe zone of the Altai territory. PhD Thesis, Altai State Agrarian University, Altai, RussiaGoogle Scholar
  27. R Development Core Team (2015) R: a language and environment for statistical computing, R Foundation for Statistical Computing, Vienna, Austria. Retrieved 01 Jan 2015
  28. Rehder A (1903) Synopsis of the genus Lonicera. Annu Rep Mo Bot Gard 14:28–73Google Scholar
  29. Rehder A (1909) Note on the morphology of the fruit of Lonicera caerulea: the fruit of Lonicera caerulea. Rhodora 11:209–211Google Scholar
  30. Renata M (2001) Study of vegetative, growing and economic character of genus Lonicera subsect. Caeruleae REHD. In: Proceedings of the 9th international conference of horticulture, pp 130–135Google Scholar
  31. Ryabinina ML (2009) Collection of blue fruited honeysuckle in the Botanical Gardens of Komi Institute of Biology. In: Proceedings of the 1st virtual international scientific conference on Lonicera caerulea L., pp 69–72Google Scholar
  32. Sabitov A (1986) Species of blue fruited honeysuckle, prospects for breeding. All Union Order of Lenin and Order of Friends of Nature Science Research Institute of Plant Growing, Leningrad, RussiaGoogle Scholar
  33. Suzuki T, Uenohata M, Oosawa K (2007) Polyploidy breeding of blue honeysuckle and black chokeberry by utilizing in vitro-cultures treated with colchicine. In: Proceedings of the second international symposium on plant genetic resources of horticultural crops 1-2. Acta Hort 760:389–396Google Scholar
  34. Takada M, Nakano H, Hoshino Y, Sato H (2003) Evaluation of eating qualities and some horticultural characteristics for selection of elite lines in Lonicera caerulea L. Res Bull Hokkaido Univ Farm 33:21–38Google Scholar
  35. Thompson MM (2006a) Haskap arrives in North America. Pome New 31(3):65–69Google Scholar
  36. Thompson MM (2006b) Introducing Haskap, the Japanese blue honeysuckle. J Am Pomol Soc 60:164–168Google Scholar
  37. Thompson MM, Barney DL (2007) Evaluation and breeding of Haskap in North America. J Am Pomol Soc 61(1):25–33Google Scholar
  38. Thompson MM, Chaovanalikit A (2003) Preliminary observations on adaptation and nutraceutical values of blue honeysuckle (Lonicera caerulea) in Oregon, USA. Acta Hort (ISHS) 626:65–72CrossRefGoogle Scholar
  39. Wu XJ (1997) Characterization of florescence, fructification, pollination and fertilization of blue honeysuckle (Lonicera caerulea L.). MSc Thesis. Northeast Agricultural UniversityGoogle Scholar

Copyright information

© Springer Nature B.V. 2018

Authors and Affiliations

  1. 1.Department of Plant SciencesUniversity of SaskatchewanSaskatoonCanada

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