Hort. Sci. (Prague), 2025, 52(2):111-119 | DOI: 10.17221/147/2023-HORTSCI

Variations in bog bilberry fruit characteristics along an altitudinal gradient on Changbai Mountain, ChinaOriginal Paper

Jinhang Li, Qige Qi, Qichang Zhang, Meng Wang, Yichen Liu, Xinyu Sun, Yuting Mu, Chunlei Yang
Department of Silviculture, College of Forestry, Beihua University, Jilin, P.R. China

To better understand the influence of altitude on fruit characteristics of bog bilberry (Vaccinium uliginosum L.), here we investigated the adaptation of its fruit morphological and chemical traits to the environment at six growing positions along an altitudinal gradient (706, 957, 1 226, 1 315, 2 000 and 2 190 m) on the northern slope of Changbai Mountain, China. Fruit longitudinal diameter, fruit transverse diameter and fruit weight decreased significantly with increasing altitude. Vitamin B1 content reached its highest at 2 190 m, while both vitamin B2 and vitamin C contents reached their highest and lowest at 1 226 and 706 m, respectively. Anthocyanin content and DPPH (1,1-diphenyl-2-picrylhydrazyl) free radical scavenging ability initially decreased and then improved with increasing altitude. We observed a highly significant (P < 0.001) negative correlation between external fruit quality traits (fruit length, diameter and weight) and internal fruit quality traits (vitamins B1, B2, C and anthocyanin), and found that environmental factors significantly influenced fruit characteristics. Taken together, we concluded that on the northern slope of Changbai Mountain, bog bilberry fruits were larger at low altitudes, fruits at mid altitudes contained higher vitamins B2 and C, while high altitude (especially at 2 190 m) was beneficial for vitamin B1, anthocyanin, and DPPH free radical scavenging ability.

Keywords: altitude; fruit antioxidant capacity; fruit appearance characteristics; fruit vitamin content; Changbai Mountain; Vaccinium uliginosum L.

Received: November 23, 2023; Revised: June 5, 2024; Accepted: August 16, 2024; Prepublished online: May 23, 2025; Published: June 26, 2025  Show citation

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Li J, Qi Q, Zhang Q, Wang M, Liu Y, Sun X, et al.. Variations in bog bilberry fruit characteristics along an altitudinal gradient on Changbai Mountain, China. Hort. Sci. (Prague). 2025;52(2):111-119. doi: 10.17221/147/2023-HORTSCI.
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    References

    1. Abbas M., Sharma G., Dambire C., Marquez J., Alonso-Blanco C., Proaño K., Holdsworth M.J. (2022): An oxygen-sensing mechanism for angiosperm adaptation to altitude. Nature, 606: 565-569. Go to original source... Go to PubMed...
    2. de Oliveira A.C.D., Valentim I.B., Silva C.A., Bechara E.J.H., Barros M.P.D., Mano C.M., Goulart M.O.F. (2009): Total phenolic content and free radical scavenging activities of methanolic extract powders of tropical fruit residues. Food Chemistry, 115: 469-475. Go to original source...
    3. Fischer G., Ebert G., Lüdders P. (2007): Production, seeds and carbohydrate contents of cape gooseberry (Physalis peruviana L.) fruits grown at two contrasting Colombian altitudes. Journal of Applied Botany and Food Quality, 81: 29-35.
    4. Fischer G., Parra-Coronado A., Balaguera-López H.E. (2022): Altitude as a determinant of fruit quality with emphasis on the Andean tropics of Colombia. A review. Agronomía Colombiana, 40: 212-227. Go to original source...
    5. Hao Z.Q., Guo S.L., Ye J. (2003): Canonical correspondence analysis on relationship of woody plants with their environments on the northern slope of Changbai Mountain. Chinese Journal of Plant Ecology, 27: 733-742. (in Chinese) Go to original source...
    6. Karagiannis E., Michailidis M., Tanou G., Scossa F., Sarrou E., Stamatakis G., Samiotaki M., Martens S., Fernie A.R., Molassiotis A. (2020): Decoding altitude-activated regulatory mechanisms occurring during apple peel ripening. Horticulture Research, 7: 120. Go to original source... Go to PubMed...
    7. Kergunteuil A., Descombes P., Glauser G., Pellissier L., Rasmann S. (2018): Plant physical and chemical defence variation along elevation gradients: A functional trait-based approach. Oecologia, 187: 561-571. Go to original source... Go to PubMed...
    8. Kopystecka A., Kozio³ I., Radomska D., Bielawski K., Bielawska A., Wujec M. (2023): Vaccinium uliginosum and Vaccinium myrtillus - Two species - One used as a functional food. Nutrients, 15: 4119. Go to original source... Go to PubMed...
    9. Körner C., Neumayer M., Menendez-Riedl S.P., Smeets-Scheel A. (1989): Functional morphology of mountain plants. Flora, 182: 353-383. Go to original source...
    10. Häkkinen S.H., Törrönen A.R. (2000): Content of flavonols and selected phenolic acids in strawberries and Vaccinium species: Influence of cultivar, cultivation site and technique. Food Research International, 33: 517-524. Go to original source...
    11. Li M.F., Yao Y.Y., Ding Y.L., Ge L., Cao X.L., Li J., Yang D.L. (2017): Effect of altitude on fruit characteristics, bioactive compounds and antioxidant capacity in Podophyllum hexandrum. Acta Prataculturae Sinica, 26: 162-168. (in Chinese)
    12. Naryal A., Dolkar D., Bhardwaj A.K., Kant A., Chaurasia O.P., Stobdan T. (2020): Effect of altitude on the phenology and fruit quality attributes of apricot (Prunus armeniaca L.) fruits. Defence Life Science Journal, 5: 18-24. Go to original source...
    13. Paunoviæ S.M., Ma¹koviæ P., Milinkoviæ M. (2020): Determination of primary metabolites, vitamins and minerals in black mulberry (Morus nigra) berries depending on altitude. Erwerbs-Obstbau, 62: 355-360. Go to original source...
    14. Qi Q.G., Yan J.Y., Zhang Q.C., Jiang W.Q., Zhao J.S., Xu X.Y. (2022): Variation of species diversity in Lonicera caerulea communities with altitude gradient in north slope of Changbai Mountain. Journal of Northeast Forestry University, 50: 35-41. (in Chinese)
    15. Rangkadilok N., Sitthimonchai S., Worasuttayangkurn L., Mahidol C., Ruchirawat M., Satayavivad J. (2007): Evaluation of free radical scavenging and antityrosinase activities of standardized longan fruit extract. Food and Chemical Toxicology, 45: 328-336. Go to original source... Go to PubMed...
    16. Said H.M. (2011): Intestinal absorption of water-soluble vitamins in health and disease. Biochemical Journal, 437: 357-372. Go to original source... Go to PubMed...
    17. Soethe N., Wilcke W., Homeier J., Lehmann J., Engels C. (2008): Plant growth along the altitudinal gradient - Role of plant nutritional status, fine root activity, and soil properties. In: Beck E., Bendix J., Kottke I., Makeschin F., Mosandl R. (eds): Gradients in a Tropical Mountain Ecosystem of Ecuador. Ecological Studies, vol. 198. Heidelberg, Springer: 259-266. Go to original source...
    18. Song C.M., Ma H.B., Du J., Ge H.J., Zhang X.H. (2012): Nutritional survey of the vitamin B1, B2 and C of university students in Jilin. Journal of Jilin Medical College, 33: 69-71. (in Chinese)
    19. Song D.Q., Meng X.J., Wang C.Y., Wang G.Q., Lv C.M. (2013): Determination of blueberry anthocyanins through pH differential method. Journal of Shenyang Agricultural University, 44: 231-233. (in Chinese)
    20. Su S., Wang L.J., Wu J., Li B., Wang W.W., Wang L.S. (2016): Review: Chemical compositions and functions of Vaccinium uliginosum. Chinese Bulletin of Botany, 51: 691-704. (in Chinese)
    21. Taruscio T.G., Barney D.L., Exon J. (2004): Content and profile of flavanoid and phenolic acid compounds in conjunction with the antioxidant capacity for a variety of northwest Vaccinium berries. Journal of Agricultural and Food Chemistry, 52: 3169-3176. Go to original source... Go to PubMed...
    22. Wang C.L., Jing J.H., Xu J.W., Jin Y.H., Zhang Y.J., Chen X.Y. (2022a): Analysis of population differences in Betula ermanii Cham. between the northern and western slopes of Changbai Mountain. Plant Science Journal, 40: 21-30. (in Chinese)
    23. Wang H., He D.R., Zhou L., Sha G., Zhou L.P. (2022b): Research progress of Vaccinium uliginosum L. Territory & Natural Resources Study, 5: 75-78. (in Chinese)
    24. Wang X.P., Li X., Li Z.R., Ling C.T., He Y.M., Li Y. (2022c): Research progress on the characteristics and mechanisms of transgenerational plasticity of plants in response to enhanced UV-B radiation. Plant Physiology Journal, 58: 797-805. (in Chinese)
    25. Wang H., Li M.S., He D.R., Wang C.L., Zhou L.P. (2023): Protective effects of Vaccinium uliginosum on hydrogen peroxide-induced cellular oxidative stress injury in cardiomyocytes and UPLC-MS Analysis. Food and Nutrition in China, 29: 45-50. (in Chinese)
    26. Wei D.W., Sun B., Wang F.D. (2023): Effects of mechanical tending on plant morphology, photosynthesis and fruit yield of Vaccinium uliginosum. Forestry Science & Technology, 48: 14-17. (in Chinese)
    27. Wen G.Q., Zhao L.Q., Zhou Y., Liao Y.J., Nie F. (2023): The growth status of six varieties of highbush blueberries in different elevation areas in Guizhou province. South China Fruits, 52: 145-150. (in Chinese)
    28. Zhang J.Z., Yuan L., Yu Z.M., Wang L.M., Lv P. (2023): Absorption characteristics and pollution evaluation of Pb and Cd by Vaccinium uliginosum L. in the Greater Khingan Mountains. Chinese Journal of Soil Science, 54: 703-712. (in Chinese)
    29. Zeng Q., Dong G., Tian L., Wu H., Ren Y., Tamir G., Huang W., Yu H. (2020): High altitude is beneficial for antioxidant components and sweetness accumulation of rabbiteye blueberry. Frontiers in Plant Science, 11: 573531. Go to original source... Go to PubMed...
    30. Zhu M.T., Huang Y.S., Wang Y.L., Shi T., Zhang L.L., Chen Y., Xie M.Y. (2019): Comparison of (poly)phenolic compounds and antioxidant properties of pomace extracts from kiwi and grape juice. Food Chemistry, 271: 425-432. Go to original source... Go to PubMed...
    31. Zoratti L., Jaakola L., Häggman H., Giongo L. (2015): Anthocyanin profile in berries of wild and cultivated Vaccinium spp. along altitudinal gradients in the Alps. Journal of Agricultural and Food Chemistry, 63: 8641-8650. Go to original source... Go to PubMed...

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