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2019 | 26 |

Tytuł artykułu

Comparison of nutrient content in bulbs of Japanese red spider lily (Lycoris radiata) and golden spider lily (Lycoris aurea), ornamental and medicinal plants

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Plants of the genus Lycoris in Japan are of importance in culture and religion; they are used as ornamental and medicinal plants. Two species are particularly attractive: Lycoris aurea with yellow flowers and Lycoris radiata with red flowers. Both species show a wide biological activity mainly due to the high content of alkaloids. The aim of the study was to compare the mineral composition of Lycoris aurea and Lycoris radiata bulbs. The analyses were carried out on bulbs obtained after the end of flowering. There were significant differences between the tested species in the content of both macronutrients and micronutrients. The bulbs of Lycoris radiata contained significantly more nitrogen, potassium, magnesium, zinc, manganese and iron compared to Lycoris aurea bulbs. In turn, more boron was found in Lycoris aurea bulbs. There were no differences between species in terms of phosphorus, calcium and copper contents in the bulbs. In summary, both species have different nutritional requirements. Lycoris aurea bulbs have the highest nitrogen and magnesium content, while Lycoris radiata bulbs contain the highest amounts of nitrogen and potassium. Bulbs of both species are a rich source of iron and zinc.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

26

Opis fizyczny

p.72-79,fig.,ref.

Twórcy

autor
  • Department of Horticulture, Faculty of Environmental Management and Agriculture, West Pomeranian University of Technology, Szczecin, Poland
autor
  • Department of Horticulture, Faculty of Environmental Management and Agriculture, West Pomeranian University of Technology, Szczecin, Poland

Bibliografia

  • [1] Meng, P., Ge, Y., Cao, Q., Chang, J., Pan, P., Liu, C., ... & Chang, S. X. (2008). Growth and photosynthetic responses of three Lycoris species to levels of irradiance. HortScience, 43(1), 134-137
  • [2] Linghu, Y. W., & Li, D. W. (2007). Advances in the Research of Lycoris [J]. Subtropical Plant Science, 2.
  • [3] Uyeo, S., & Yanaihara, N. (1959). 32. Phenolic alkaloids occurring in Lycoris radiata. Journal of the Chemical Society (Resumed), 172-177
  • [4] Mu, H. M., Wang, R., Li, X. D., Jiang, Y. M., Wang, C. Y., Quan, J. P., ... & Xia, B. (2009). Effect of abiotic and biotic elicitors on growth and alkaloid accumulation of Lycoris chinensis seedlings. Zeitschrift für Naturforschung C, 64(7-8), 541-550
  • [5] Pi, H. F., Zhang, P., Ruan, H. L., Zhang, Y. H., Sun, H. D., & Wu, J. Z. (2009). A new alkaloid from Lycoris aurea. Chinese Chemical Letters, 20(11), 1319-1320
  • [6] Yang, Y., Huang, S. X., Zhao, Y. M., Zhao, Q. S., & Sun, H. D. (2005). Alkaloids from the bulbs of Lycoris aurea. Helvetica Chimica Acta, 88(9), 2550-2553
  • [7] Wang, L., Yin, Z., Cai, Y., Zhang, X., Yao, X., & Ye, W. (2010). Amaryllidaceae alkaloids from the bulbs of Lycoris radiata. Biochemical Systematics and Ecology, 38(3), 444-446.
  • [8] Li, X., Yu, H. Y., Wang, Z. Y., Pi, H. F., Zhang, P., & Ruan, H. L. (2013). Neuroprotective compounds from the bulbs of Lycoris radiata. Fitoterapia, 88, 82-90.
  • [9] Hao, B., Shen, S. F., & Zhao, Q. J. (2013). Cytotoxic and antimalarial amaryllidaceae alkaloids from the bulbs of Lycoris radiata. Molecules, 18(3), 2458-2468
  • [10] Liu, Z. M., Huang, X. Y., Cui, M. R., Zhang, X. D., Chen, Z., Yang, B. S., & Zhao, X. K. (2015). Amaryllidaceae alkaloids from the bulbs of Lycoris radiata with cytotoxic and anti-inflammatory activities. Fitoterapia, 101, 188-193
  • [11] Gershenzon, J. (1984). Changes in the levels of plant secondary metabolites under water and nutrient stress. In Phytochemical adaptations to stress (pp. 273-320). Springer, Boston, MA.
  • [12] Dearing, M. D., Foley, W. J., & McLean, S. (2005). The influence of plant secondary metabolites on the nutritional ecology of herbivorous terrestrial vertebrates. Annu. Rev. Ecol. Evol. Syst. 36, 169-189
  • [13] Liu, Z., Huang, H., Wu, J., & Tong, Z. (2009). The effects of N, P and K fertilizer applied in plantation of Lycoris radiata. Journal of Nanjing Forestry University (Natural Sciences Edition), 33(2), 137-140
  • [14] Chunsong, B., Pengchong, Z., Haizhen, Z., Yan, J., & Nianlin, L. (2012). Seasonal Changes of Biomass Allocation and Micronutrient Contents in Lycoris longituba [J]. Journal of Northeast Forestry University, 9
  • [15] Xiaoyong, C. (2005). Determination of Amino Acids and Mineral Elements in Bulbs of Lycoris radiata [J]. Chinese Wild Plant Resources, 3
  • [16] Maathuis, F. J. (2009). Physiological functions of mineral macronutrients. Current Opinion in Plant Biology, 12(3), 250-258
  • [17] Huber, D. M., & Graham, R. D. (1999). The role of nutrition in crop resistance and tolerance to diseases. Mineral nutrition of crops: fundamental mechanisms and implications, 169, 206
  • [18] Ronen, E. (2016). Micro-elements in agriculture. Practical Hydroponics and Greenhouses, (164), 35

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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