Aalifar M, Arab M, Aliniaeifard S, Dianati S, Mehrjerdi MZ, Limpens E, Serek M. 2019. Embryogenesis efficiency and genetic stability of Dianthus caryophyllus embryos in response to different light spectra and plant growth regulators. Plant Cell, Tissue and Organ Culture (PCTOC) 139, 479-492.
Al-Shareefi MJH, Abbass JA, Abdulhussein MAA. 2020. Effect of light sources and culture systems on microtubers production of potato (Solanum tuberosum L.) in vitro. International Journal of Agricultural and Statistical Sciences 16(2), 679-686.
AL-Shmary RF, AL-Taey DK. 2020. The response of two potato cultivars to organic and bio fertilization and their interaction with chemical fertilization on some growth and yield traits. International Journal of Psychosocial Rehabilitation 24(6), 6774-6780.
Asadi A, Kafi A, Nabati J, Goldani M. 2017. Effect of different light sources in vitro on growth, morphology and minituber production of potato (Solanum tuberosum L.) in hydroponic conditions. Iranian Journal of Horticultural Science 48(4), 933-941.
Ashrostaghi T, Aliniaeifard S, Shomali A, Azizinia S, Abbasi Koohpalekani J, Moosavi-Nezhad M, Gruda NS. 2022. Light intensity: The role player in cucumber response to cold stress. Agronomy 12, 201.
Askari N, Aliniaeifard S, Visser RG. 2022. Low CO2 levels are detrimental for in vitro plantlets through disturbance of photosynthetic functionality and accumulation of reactive oxygen species. Horticulturae 8, 44.
Barceló-Muñoz A, Barceló-Muñoz M, Gago-Calderon A. 2022. Effect of LED lighting on physical environment and micro environment on in vitro plant growth and morphogenesis: The need to standardize lighting conditions and their description. Plants 11(1), 60.
Bello-Bello JJ, Perez-Sato JA, Cruz-Cruz CA, MartinezEstrada E. 2017. Light-emitting diodes: progress in plant micropropagation. In Tech 6, 93–103.
Chen L, Xue X, Yang Y, Chen F, Zhao J, Wang X, Khan AT, Hu Y. 2018. Effects of red and blue LEDs on in vitro growth and microtuberization of potato single-node cuttings. Frontiers of Agricultural Science and Engineering 5(2), 197–205.
Chen L, Zhang K, Gong XC, Wang HY, Gao YH, Wang XQ, Zeng ZH, Hu YG. 2020. Effects of different LED light spectra on the growth, leaf anatomy and chloroplast ultrastructure of potato plantlets in vitro and minituber production after transplanting in the greenhouse. Journal of Integrative Agriculture 19(1), 108–119.
Chen M, Chory J, Fankhauser C. 2004. Light signal transduction in higher plants. Annual Review of Genetics 38, 87–117.
Dessoky EDS, Attia OA, Ismail AI, Ehab IEH. 2016. In vitro propagation of potato under different hormonal combinations. International Journal of Advanced Research 4(1), 684– 689.
Devaux A, Goffart JP, Kromann P, Andrade-Piedra J, Polar V, Hareau G. 2021. The potato of the future: opportunities and challenges in sustainable agri-food systems. Potato Research 64: 681–720.
Eftekhari M, Javid MG, Aliniaeifard S, Nicola S. 2023. Alteration of flower yield and phytochemical compounds of saffron (Crocus sativus L.) by application of different light qualities and growth regulators. Horticulturae 9, 169.
Esmaeili S, Aliniaeifard S, Dianati Daylami S, Karimi S, Shomali A, Didaran F, Telesiński A, Sierka E, Kalaji HM. 2022. Elevated light intensity compensates for nitrogen deficiency during chrysanthemum growth by improving water and nitrogen use efficiency. Scientific Reports 12, 1-14.
Halterman D, Guenthner J, Collinge S, Butler N, Douches D. 2016. Biotech potatoes in the 21st century: 20 years since the first biotech potato. American Journal of Potato Research 93, 1–20.
Hasan MM, Bashir T, Ghosh R, Lee SK, Bae H. 2017. An overview of LEDs effects on the production of bioactive compounds and crop quality. Molecules 22(9), 1420.
Kanwal A, Ali A, Shoaib K. 2006. In Vitro microtuberization of potato (Solanum tuberosum L.) cultivar kuroda - a new variety in Pakistan. International Journal of Agriculture and Biology 8(3):337-340.
Lastochkina O, Aliniaeifard S, SeifiKalhor M, Bosacchi M, Maslennikova D, Lubyanova A. 2022. Novel approaches for sustainable horticultural crop production: advances and prospects. Horticulturae 8, 910.
Li R, Huang W, Wang X, Liu X, Xu Z. 2018. Effects of yellow, green and different blue spectra on growth of potato plantlets in vitro. Hortscience 53(4), 541–546.
Li R, You J, Miao C, Kong L, Long J, Yan Y, Xu Z, Liu X. 2020. Monochromatic lights regulate the formation, growth, and dormancy of in vitro-grown Solanum tuberosum L. microtubers. Scientia Horticulturae 261, 108947.
Lutaladio N, Castaidi L. 2009. Potato: The hidden treasure. Journal of Food Composition and Analysis 22, 491-493.
Ma Y, Xu A, Cheng Z.-M. (Max). 2021. Effects of light emitting diode lights on plant growth, development and traits a meta-analysis. Horticultural Plant Journal 7(6), 552-564.
Mamiya K, Tanabe K, Onishi N. 2020. Production of potato (Solanum tuberosum, L.) microtubers using plastic culture bags. Plant Biotechnology 37(2), 233– 238.
Massa GD, Kim HH, Wheeler RM, Mitchell CA. 2008. Plant productivity in response to LED lighting. Hortscience 43(7), 1951-1956.
Miler N, Kulus D, Woźny A, Rymarz D, Hajzer M,Wierzbowski K, Nelke R and Liwia S. 2019. Application of wide-spectrum light-emitting diode in micropropagation of popular ornamental plant species: a study on plant quality and cost reduction. In vitro Cellular and Developmental Biology - Plant 55, 99–108.
Mohamed Ali FH, Esmail MA. 2011. The impact of in vitro light quality on potato microtuberization from single-node cuttings. Acta Horticulturae 923; 73-77.
Mohapatra PP, Batra VK. 2017. Tissue culture of potato (Solanum tuberosum L.): a review. International Journal of Current Microbiology and Applied Sciences 6(4), 489-495.
Murashige T, Skoog F. 1962. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiologia Plantarum 15, 473–497.
Omar GF. 2017. Growth responses of potato plantlets cultured in vitro under different color light-emitting diodes (LEDs). Hortscience Journal of Suez Canal University 6(1), 65-71.
Pelacho AM, Mingo-Castel AM. 1991. Jasmonic acid induces tuberization of potato stolons cultured in vitro. Plant Physiology 97, 1253–1255.
Poudel PR, Kataoka I, Mochioka R. 2008. Effect of redand blue-light-emitting diodes on growth and morphogenesis of grapes. Plant Cell, Tissue and Organ Culture 92, 147–153.
Pundır RK, Pathak A, Upadhyaya DC, Muthusamy A, Upadhyaya CP. 2021. Red and blue light-emitting diodes significantly improve in vitro tuberization of potato (Solanum tuberosum L.). Journal of Horticultural Research 29(1), 95–108.
Rahman MH, Islam MJ, Azad MOK, Rana MS, Ryu BR, Lim YS. 2021. LED light pre-treatment improves prebasic seed potato (Solanum tuberosum L. cv. ‘Golden King’) production in an aeroponic system. Agronomy 2021, 11, 1627.
Seif M, Aliniaeifard S, Arab M, Mehrjerdi MZ, Shomali A, Fanourakis D, Li T, Woltering E. 2021. Monochromatic red light during plant growth decreases the size and improves the functionality of stomata inchrysanthemum. Functional Plant Biology 48, 515-528.
Thorpe TA. 2007. History of plant tissue culture. Journal of Molecular Microbiology and Biotechnology 37, 169-180.