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Editorial committee of flora of China. 1985. Flora of China. Beijing: China Science Publishing & Media Ltd. 16(1): 15 (in Chinese)

Meerow AW. 2014. The florida series of hybrid amaryllis: five new Hippeastrum cultivars. HortScience 49(8):1102−7

Meerow AW. 2009. Tilting at windmills: 20 years of Hippeastrum breeding. Israel Journal of Plant Sciences 57(4):303−13

Yuan YL, Zhang YL. 2008. The production of Hippeastrum and its strategy in China. Proc. the 2008 Symposium on the Development of the Bulb Flower Industry, Shanxi, 2008. Beijing: China Forestry Publishing House Press. pp. 202–5

Ago Y, Koda K, Takuma K, Matsuda T. 2011. Pharmacological aspects of the acetylcholinesterase inhibitor galantamine. Journal of Pharmacological Sciences 116:6−17

Traykova B, Berkov SH, Stanilova MI. 2024. Growth acceleration and galanthamine content of Hippeastrum papilio plants grown on hydroponic systems. Journal of Microbiology, Biotechnology and Food Sciences 13(6):e9247

Inkham C, Panjama K, Ruamrungsri S. 2022. Irrigation levels and fertilization rates as pre-harvest factors affecting the growth and quality of Hippeastrum. Horticulturae 8(4):345

Silberbush M, Ephrath JE, Alekperov C, Ben-Asher J. 2003. Nitrogen and potassium fertilization interactions with carbon dioxide enrichment in Hippeastrum bulb growth. Scientia Horticulturae 98:85−90

Mapson L. 1980. Biosynthesis of ethylene and the ripening of fruits. Endeavour 29:106

Jiang Y. 2004. Effect of different condition in tissue culture on bulblet formation in tillered-onion in vitro. Thesis. Northeast Agricultural University, China. (In Chinese)

Li S. 1979. Vegetable cultivation physiology. Shanghai: Shanghai Scientific & Technical Publishers. pp. 87, 92, 101, 104, 211−50 (in Chinese)

Cheng H, Gu G. 2006. Forcing cultivation of Hippeastrum. China Flowers & Horticulture 00(6):26−28 (in Chinese)

Lü WT. 2013. Study on the bulb cutting propagation and cultivation of Hippeastrum. Thesis. Nanjing Agricultural University, China. pp. 2–3 (in Chinese)

Yi M, Zhang Y, Qu L. 2024. Chinese bulbous flowers. Beijing: China Forestry Publishing House Press. 308 pp (in Chinese) www.flowery.net.cn

Ren Z. 2019. Mechanisms of bullet formation and development in Lycoris based on aerial culture system. Thesis. Zhejiang University, China. pp. 6 (in Chinese)

Song X, Wan X, Shen Z. 2009. Characteristics and forcing cultivation techniques of Hippeastrum. Modern Agricultural Science and Technology 2009(17):197−99 (in Chinese)

Liu J, Zhao Z, Wang J. 2000. Study on growth pattern of onion in vegetative growth stage. Journal of Inner Mongolia Agricultural University 21(2):49−52 (in Chinese)

Hu W, Hou H, Wang J, Chen Y. 2003. Changes of soluble protein content and POD activity in different organs during onion bulb expansion. Acta Botanica Boreali-Occidentalia Sinica 23(9):1601−4 (in Chinese)

Sun Q, Zhang B, Yang C, Wang W, Xiang L, et al. 2022. Jasmonic acid biosynthetic genes TgLOX4 and TgLOX5 are involved in daughter bulb development in tulip (Tulipa gesneriana). Horticulture Research 9:uhac006

Wang JY. 2001. The study on growth patter of onion in vegetative growth stage. Thesis. Inner Mongolia Agricultural University, China. pp. 5–8 (in Chinese)

Stancato GC, Mazzafera P. 1995. Effects of light on the propagation and growth of bulbs of Hippeastrum hybridum cv. Apple Blossom (Amaryllidaceae). Scientia Agricola 52(2):331−34

Stancato GC, Mazzafera P, Magalhães AC. 1995. Dry matter partitioning during the propagation of Hippeastrum hybridum as affected by light. Scientia Horticulturae 62:81−87

Zakizadeh S, Kaviani B, Onsinejad R. 2013. Role of photoperiod on some growth characters of Amaryllis (Hippeastrum johnsonii), a Bulbous plant. Pelagia Research Library 3(1):289−91

Zhou A, Liu L, Liu G, Wen X, Zhao H. 2013. Preliminary study on the characteristics of onion bulbs. Bulletin of Agricultural Science and Technology 2013(10):112−113,166 (in Chinese)

Zhang X, Li X, Deng X, Wang Y, Jia L, et al. 2012. Factors influencing the development of Narcissus tazetta var. chinesis after bulb sprouting. Journal of Shanghai Jiaotong University 30(2):66−71 (in Chinese)

Mathew D, Forer Y, Rabinowitch HD, Kamenetsky R. 2011. Effect of long photoperiod on the reproductive and bulbing processes in garlic (Allium sativum L.) genotypes. Environmental and Experimental Botany 71:166−73

Wang S, Liu X, Liu X, Xue J, Ren X, et al. 2022. The red/blue light ratios from light-emitting diodes affect growth and flower quality of Hippeastrum hybridum 'Red Lion'. Frontiers in Plant Science 13:1048770

Qie Y. 2020. Effects of LED light quality on growth and physiology characteristics of Hippeastrum spp. Northern Horticulture 2020(22):66−71 (in Chinese)

Doorduin JC. 1990. Growth and development of Hippeastrum grown in glasshouses. Acta Horticulturae 266:123−32

Hayashi I, Suzuki M. 1970. Studies on the growth and flowering of Hippeastrum hybridum. 1. (i) Effect of temperature on the growth of young seedlings and bulbs, (ii) Growth and flowering out-of-doors and the effects of autumn temperature on growth. Bulletin of the Kanagawa Horticultural Experiment Station 18:171−88

Ijiro Y, Ogata R. 1997. Effect of ambient temperature on the growth and development of Amaryllis (Hippeastrum hybridum Hort.) bulbs. Journal of the Japanese Society for Horticultural Science 66:575−79

Inkham C, Piriyapongpitak P, Ruamrungsri S. 2019. Storage and growth temperatures affect growth, flower quality, and bulb quality of Hippeastrum. Horticulture, Environment, and Biotechnology 60:357−62

Doorduin JC, Verkerke W. 2002. Effects of bulb temperature on development of Hippeastrum. Acta Horticulturae 570:313−18

Ephrath JE, Ben-Asher J, Alekparov-Alekperov CK, Silberbush M, Wolf S, et al. 2001. The effect of temperature on the development of Hippeastrum: a phytotron study. Biotronics 30:51−62

Liu L. 2006. Effects of different sowing dates and vernalization on onion growth characters. Thesis. Shandong Agricultural University, China. pp. 8 (in Chinese)

Ruter JM, Ingram DL. 1990. ¹⁴Carbon-labeled photosynthate partitioning in Ilex crenata 'Rotundifolia' at supraoptimal root-zone temperatures. Journal of the American Society for Horticultural Science 115:1008−13

Klock KA, Graves WR, Taber HG. 1996. Growth and phosphorus, zinc, and manganese content of tomato, muskmelon, and honey locust at high root-zone temperatures. Journal of Plant Nutrition 19(5):795−806

Udagawa Y, Ito T, Gomi K. 1991. Effects of root temperature on the absorption of water and mineral nutrients by strawberry plants 'Reiko' grown hydroponically. Journal of the Japanese Society for Horticultural Science 59(4):711−17

Inkham C, Hongpakdee P, Kajornrungsilp I, Thanamatee C, Ruamrungsri S. 2020. Root-zone cooling by cold energy from LNG regasification process for quality improvement of flower and bulb of Hippeastrum. Horticulture, Environment, and Biotechnology 61:643−50

Bradford KJ, Hsiao TC. 1982. Physiological responses to moderate water stress. In Physiological Plant Ecology II, eds Lange OL, Nobel PS, Osmond CB, Ziegler H. Berlin, Heidelberg: Springer. Volume 11. pp. 263−324. doi: 10.1007/978-3-642-68150-9_10

Greenwood DJ, Lemaire G, Gosse G, Cruz P, Draycott A, et al. 1990. Decline in percentage N of C3 and C4 crops with increasing plant mass. Annals of Botany 66(4):425−36

Heffer P, Magen H, Mikkelsen RL, Wichelns D, Rijsberman FR. 2015. Managing water and fertilizer for sustainable agricultural intensification, 1^st edition. IFA, IWMI, IPNI and IPI, Paris, France. 270 pp

Sharma BR, Molden DJ, Cook S. 2015. Water use efficiency in agriculture: measurement, current situation and trends. In Managing Water and Fertiliser for Sustainable Agricultural Intensification, eds Magan H, Mikkelsen R, Wichlens D. Paris, France: International Fertiliser Association. pp. 39−64

Tombolato A. 2004. Cultivo comercial de plantas ornamentais. Campinas: Instituto Agronômico, Sao Paulo, Brazil. 211 pp

Slangen JHG, Krook GJ, Hendriks CHM, Hof NAA. 1989. Nitrogen dressing and nutrient absorption of lilies (Asiatic hybrids) on sandy soils. Netherlands Journal of Agricultural Science 37:269−72

Batal KM, Bondari K, Granberry DM, Mullinix BG. 1994. Effects of source, rate, and frequency of N application on yield, marketable grades and rot incidence of sweet onion (Allium cepa L. cv. Granex-33). Journal of Horticultural Science 69(6):1043−51

Díaz-Pérez JC, Purvis AC, Paulk JT. 2003. Bolting, yield, and bulb decay of sweet onion as affected by nitrogen fertilization. Journal of the American Society for Horticultural Science 128:144−49

Marschner H. 1995. Mineral nutrition of higher plants, 2^nd ed. Amsterdam: Elsevier

Li J. 2023. Effects of NPK fertilizers on tulip bulb enlargement and application research of related genes. Thesis. Huazhong Agricultural University, China. pp. 30–36 (in Chinese)

Jamil MK, Mizanur Rahman M, Mofazzal Hossain M, Tofazzal Hossain M, Karim AS. 2016. Response of N, P and K on the growth and flowering of Hippeastrum (Hippeastrum hybridum Hort.). Bangladesh Journal of Agricultural Research 41:91−101

Abou El-Ghait EM, Goma AO, Youssef ASM, Hamoud MMA. 2021. Effect of bulb size and chemical fertilization on growth, flowering, bulbs productivity and chemical composition of Hippeastrum vittatum plant. The Future Journal of Horticulture 2:21−30

Ding Y, Zhang L, Guo X, Gao H. 2018. Effects of different fertilization patterns on seedling growth indices of Hippeastrum hybridum 'double dragon'. Journal of Shanxi Agricultural Sciences 46(3):412−415,448

Ruamrungsri S, Inkham C. 2017. Effect of calcium nitrate addition on growth and bulb quality of Hippeastrum. Acta Horticulturae 1167:375−80

Lü W, Fang W, Zhou Y, Cheng H, Lou X, et al. 2014. Effects of imported water-soluble fertilizer on potted seedling growth of Hippeastrum hybridum. Hubei Agricultural Sciences 53(6):1352−54 (in Chinese)

Bose TK, Jana BK, Mukhopadhyay TP. 1980. Effects of growth regulators on growth and flowering in Hippeastrum hybridum hort. Scientia Horticulturae 12(2):195−200

Zhou M, Wu X, Yuan J, Guo X. 2019. Effects of three growth regulators on the seedling growth of Hippeastrum hybridum. Hubei Agricultural Sciences 58(8):97−102 (in Chinese)

Al-Amery L, Salman. 2016. Influence of cytokinins and sucrose concentrations on bulblet characters of in vitro Hippeastrum hybridum. Iraqi Journal of Agricultural Sciences 47:1384−91

Tombolato AFC, Azevedo C, Nagai V. 1994. Effects of auxin treatments on in vivo propagation of Hippeastrum hybridum Hort. by twin scaling. HortScience 29:922

Khokhar KM. 2017. Environmental and genotypic effects on bulb development in onion – a review. The Journal of Horticultural Science and Biotechnology 92:448−54

Xu J, Li Q, Yang L, Li X, Wang Z, et al. 2020. Changes in carbohydrate metabolism and endogenous hormone regulation during bulblet initiation and development in Lycoris radiata. BMC Plant Biology 20:180

Wu Y, Li Y, Ma YD, Zhang L, Ren ZM, et al. 2017. Hormone and antioxidant responses of Lilium Oriental hybrids 'Sorbonne' bulblets to humic acid treatments in vitro. The Journal of Horticultural Science and Biotechnology 92(2):155−67

Takayama S, Yokokawa A. 1996. Effects of abscisic acid (ABA) and light irradiation on mass propagation of Hippeastrum hybridum Hort. in shake- and jar fermentor-culture. Shokubutsu Kojo Gakkaishi 8:168−74

Chen M, Zhang Y, Cai Y, Su J, Li X, et al. 2022. Study on in vitro conservation and recovery growth of Hippeastrum tube seedlings. Acta Agriculturae Jiangxi 34(5):69−75 (in Chinese)

Zhou L, He J, Liu Q. 2024. Effects of hormones, carbon sources, and photoperiod on bulblet development in Lilium fargesii Franch during in vitro culture. Plant Cell, Tissue and Organ Culture (PCTOC) 157:30

Wang M, Li J, Pan W, Sang Q, Liang J, et al. 2025. Auxin regulates bulbil development by affecting carbohydrate metabolism in Lilium lancifolium. Scientia Horticulturae 341:113972

Xu J, Li Q, Li Y, Yang L, Zhang Y, et al. 2020. Effect of exogenous gibberellin, paclobutrazol, abscisic acid, and ethrel application on bulblet development in Lycoris radiata. Frontiers in Plant Science 11:615547

Li X, Wang C, Cheng J, Zhang J, da Silva JAT, et al. 2014. Transcriptome analysis of carbohydrate metabolism during bulblet formation and development in Lilium davidii var. unicolor. BMC Plant Biology 14:358

Wu Y, Sun M, Li S, Min R, Gao C, et al. 2021. Molecular cloning, characterization and expression analysis of three key starch synthesis-related genes from the bulb of a rare lily germplasm, Lilium brownii var. giganteum. Journal of Zhejiang University-Science B 22(6):476−91

Yu B, Huang L, Sun Y, Zhu G. 2015. A study on in vitro bulblets induced from tender ovaries and pedicels in Hippeastrum hybridum. Proc. the 2015 China Ornamental Horticulture Academic Symposium, Guangdong, 2015. Beijing: China Forestry Publishing House Press. pp. 242−46 (in Chinese)

Shao J, Wang X, Zhou J. 2010. Starch granule distribution characteristics in Lycoris chinensis bulb. Acta Botanica Boreali-Occidentalia Sinica 30(4):713−18 (in Chinese)

Zhang Y, Sun H, Shen X, Chen J. 2007. Changes in ultra-structure of starch granule in the middle scales of Lilium davidii var. unicolor during the bulb development and storage at low temperature. Acta Horticulturae 34(3):6 (in Chinese)

Xu JX, Li QZ, Yang LY, Li X, Wang Z, et al. 2020. Changes in starch synthesis and metabolism within developing bulbs of Lycoris radiata during the vegetative growth stage. Journal of Plant Growth Regulation 39:785−94

Gu J, Zeng Z, Wang Y, Lyu Y. 2020. Transcriptome analysis of carbohydrate metabolism genes and molecular regulation of sucrose transport gene LoSUT on the flowering process of developing oriental hybrid lily 'Sorbonne' bulb. International Journal of Molecular Sciences 21:3092

Tian S, Zhu X, Cheng H, Guo W. 2008. Study on the forcing cultivation technique of hybrid Hippeastrum varieties. Jiangsu Agricultural Sciences 2008:151−53

Jin C, Zhang H, Shen X, Xu B. 2020. Study on flowering regulation technology of Hippeastrum vittatum and its application in flower exhibition. Journal of Zhejiang Agricultural Sciences 61(1):72−75 (in Chinese)

Cao R, Zhang N, Wang Y, Hua N, Mao Q. 2012. Effect of harvest time and pre-treatment on forcing cultivation of Hippeastrum bulbs. Jiangsu Agricultural Sciences 40(7):165−66 (in Chinese)

Cai Z. 2007. Hippeastrum flowering traits and Lunar New Year flower production. China Flowers & Horticulture 22:28−29 (in Chinese)

Lu J, Guan B, Liu S, Pei X. 2019. Forcing culture technique of Hippeastrum vittatum in northern area. Horticulture & Seed 39(3):13−15 (in Chinese)

Seabrook JEA, Cumming BG. 1977. The in vitro propagation of amaryllis (Hippeastrum spp. hybrids). In Vitro 13:831−36

Lü W, Lou X, Zhou Y. 2012. Study on hybrid Hippeastrum bulb cutting propagation method. Jiangsu Agricultural Sciences 40(3):138−40 (in Chinese)

Wang X, Wei Z, Xiong M, Zhou D. 2017. Effects of storage time and varieties on Hippeastrum bulb scales propagation. Northern Horticulture 2017(2):63−66 (in Chinese)

Zhou M, Zhang L, Hu P, Zhu D, Miao Y, et al. 2009. Discussion on the forcing cultivation techniques of Hippeastrum. Shanghai Agricultural Science and Technology 2009(06):119 (in Chinese)

Gu GH. 2005. Forcing cultivation of Hippeastrum. Floriculture & Landscape 3:13−14 (in Chinese)

Yang L, Zhu L, Wang Z. 2011. BThe influence of different bulb treatments on the flower quality of Hippeastrum hybrid. Northern Horticulture 24:102−4 (in Chinese)

Yuan Y, Li S, Zhao J. 2009. Intensive culture of Hippeastrum hybridum for holidays. Journal of Northwest Forestry University 24(6):80−82 (in Chinese)

Lü W, Zhou Y, Cheng H, Lou X, Jiang H. 2010. Study on flowering time regulators of Hippeastrum hybridum. Northern Horticulture 20:110−12 (in Chinese)

Shu F, Wang D, Sarsaiya S, Jin L, Liu K, et al. 2024. Bulbil initiation: a comprehensive review on resources, development, and utilisation, with emphasis on molecular mechanisms, advanced technologies, and future prospects. Frontiers in Plant Science 15:1343222