[
Abdelaziz, A.M., Soliman, S.S.A., Ahmed, T.A.S., Heakal, R.M., Hassanin, A.A., 2019. Micropropagation of Zaglol and Barhy date palm cultivars using immature female inflorescence explants: effect of growth regulatorsbalance. Zigzag Journal Agriculture Research, 46 (6A): 2023–2035.10.21608/zjar.2019.51922
]Search in Google Scholar
[
Al-Asadi, A.Z., AL-Mayahi, A.M.W., Abdulwahid, A.H., 2020. Effect of phloroglucinol (PG) on in vitro growth and multiplication of the date palm cv. Barhee. Basrah Journal of Date Palm Research, 14 (1): 31–45.
]Search in Google Scholar
[
Al-Khayri, J.M., Naik, P.M., 2017. Date palm micropropagation: advances and applications. Ciência e Agrotecnologia, 41 (4): 347–358.10.1590/1413-70542017414000217
]Search in Google Scholar
[
Al-Mayahi, A.M.W., Ahmed, A.N., Al-Khalifa, A.A., 2010. Isolation and diagnose of fungi associated with the cultivation of tissues of five cultivars of date palm (Phoenix dactylifera L.) and the effect of fungicide Benlate in control. Basrah Journal for Date Palm Research, 9 (2): 79–97.
]Search in Google Scholar
[
Al-Mayahi, A.M.W., 2012. Effect of the media on vegetative buds and rooting of vegetative shoot of date palm cv. Khadrawi propagated by in vitro culture. Journal of Agricultural and Veterinary Sciences, 5 (1): 27–46.
]Search in Google Scholar
[
Al-Mayahi, A.M.W., 2014. Effect of copper sulphate and cobalt chloride on growth of the in vitro culture tissues for date palm (Phoenix dactylifera L.) cv. Ashgar. American Journal of Agricultural and Biological Sciences, 9 (1): 6–18.10.3844/ajabssp.2014.6.18
]Search in Google Scholar
[
Al-Mayahi, A.M.W., 2015. An efficient protocol for indirect somatic embryogenesis and shoot organogenesis from leaf segments of date palm (Phoenix dactylifera L.) CV. Quntar. African Journal of Agricultural Research, 10 (10): 1031–1042.10.5897/AJAR2014.9305
]Search in Google Scholar
[
Al-Mayahi, A.M.W., 2016. Effect of red and blue light emitting diodes ‘‘CRB-LED’’on in vitro organogenesis of date palm (Phoenix dactylifera L.) cv. Alshakr. World Journal of Microbiology and Biotechnology, 32: art. no. 160.10.1007/s11274-016-2120-627562594
]Search in Google Scholar
[
Al-Mayahi, A.M.W., 2019. Effect of aluminium on the growth of the in vitro culture tissues of the date palm (Phoenix dactylifera L.) cv. Um-Adelhin. Folia Oecologica, 46 (2): 164–169.10.2478/foecol-2019-0019
]Search in Google Scholar
[
Al-Mayahi, A.M.W., Jafar, O.N., Mohsen, K.A., 2020a. Effect of glutathione (GSH) on Date palm (Phoenix dactylifera L.) micropropagation. Folia Oecologica, 47 (1): 64–69.10.2478/foecol-2020-0008
]Search in Google Scholar
[
Al-Mayahi, A.M.W., 2020b. Effect of calcium and boron on growth and development of callus and shoot regeneration of date palm cv. Barhee. Canadian Journal of Plant Science, 100 (4): 357–364.10.1139/cjps-2019-0084
]Search in Google Scholar
[
Aliyu, O.M., 2005. Application of tissue culture to cashew (Anacardium occidentale L.) breeding: an appraisal. African Journal of Biotechnology, 4 (13): 1485–1489.
]Search in Google Scholar
[
Beruto, M., Beruto, D., Debergh, P., 1999. Influence of agar on in vitro cultures. II. Biological performance of Ranunculus on media solidified with three different agar brands. In Vitro Cellular and Developmental Biology – Plant, 35: 93–101.10.1007/s11627-999-0017-x
]Search in Google Scholar
[
Buah, J. N., Kawamitsu, Y., Sato, S., Murayama, S.,1999. Effects of different types and concentrations of gelling agents on the physical and chemical properties of media and the growth of banana (Musa spp.) in vitro. Plant Production Science, 2 (2): 138–145.10.1626/pps.2.138
]Search in Google Scholar
[
Cresser, M.S., Parsons, J.W., 1979. Sulphuric perchloric acid digestion of plant material for the determination of nitrogen, phosphours, potassium, calcium and magnesium. Analytica Chimica Acta, 109: 43–436.10.1016/S0003-2670(01)84273-2
]Search in Google Scholar
[
Debergh, P.C., 1983.Affect of agar brand and concentration on the tissue culture medium. Physiologia Plantarum, 59: 270–276.10.1111/j.1399-3054.1983.tb00770.x
]Search in Google Scholar
[
Ebrahim, M.K.H., Ibrahim, I.A., 2000. Influence of medium solidification and pH value on in vitro propagation of Maranta leuconeura cv. Kerchoviana. Scientia Horticulturae, 86: 211–221.10.1016/S0304-4238(00)00148-5
]Search in Google Scholar
[
Gaines, T.P., Mitchell, G.A., 1979. Boron determination in plant tissue by azomethine H method. Communication in Soil Science and Plant Analysis, 10:1099–1108.10.1080/00103627909366965
]Search in Google Scholar
[
Gangopadhyay, G., Roy, S.K., Mukherjee, K.K., 2009. Plant response to alternative matrices for in vitro root induction. African Journal of Biotechnology, 8 (13): 2923–2928.
]Search in Google Scholar
[
Ivanova, M., Van Saden, J., 2010. Influence of gelling agent and cytokinins on the control of hyperhydricity in Aloe polyphylla. Plant Cell Tissue Organ Culture, 104: 13–21.10.1007/s11240-010-9794-5
]Search in Google Scholar
[
Joshi, N., 2009. In vitro growth and shoot multiplication in Nicotiana tabacum L. – influence of gelling agent and carbon source. International Journal of Plant Developmental Biology, 3 (1): 29–33.
]Search in Google Scholar
[
Ibrahim, M.A., Al-Mayahi, A.M.W., Al-Taha, H.A.,2013. Plantlet regeneration from root segments of Date palm tree (Phoenix dactylifera L. cv. Barhee) producing by in vitro culture. Advances in Agriculture & Botanics – International Journal of the Bioflux Society 5 (1): 45–50.
]Search in Google Scholar
[
Kacar, Y.A., Bicen, B., Varol, I., Mendi, Y.Y., Serce, S., Çetiner, S., 2010. Gelling agents and culture vessels affect in vitro multiplication of banana plantlets. Genetics and. Molecular Research, 9 (1): 416–424.10.4238/vol9-1gmr744
]Search in Google Scholar
[
Lebedev, V., Arkaev, M., Dremova, M., Pozdniakov, I., Shestibratov, K., 2019. Effects of growth regulators and gelling agents on ex vitro rooting of raspberry. Plants, 8 (3): 1–10.10.3390/plants8010003
]Search in Google Scholar
[
Murashige, T., Skoog, F., 1962. A revised medium for rapid growth and bioassay of tobacco tissue cultures. Physiologia Plantarum, 15: 473–497.10.1111/j.1399-3054.1962.tb08052.x
]Search in Google Scholar
[
Murphy, J., Riley, J. P., 1962. A modified method for the determination of phosphate in natural waters. Analytica Chimica Acta, 27:31-36.10.1016/S0003-2670(00)88444-5
]Search in Google Scholar
[
Nairn, B. J., Furneax, R.H., Stevenson, T.T., 1995. Identification of an agar constituent responsible for hydric control in micropropagation of radiata pine. Plant Cell Tissue Organ Culture, 43: 1–11.10.1007/BF00042665
]Search in Google Scholar
[
Onuoha, C. I., Chinonye, J. E., Unamba, C.I.N., 2011. In vitro prevention of browning in plantain culture. Online Journal of Biological Sciences, 11 (1): 13–17.10.3844/ojbsci.2011.13.17
]Search in Google Scholar
[
Palanyandy, S.R., Gantait, S.,Sinniah, U.R., 2020. Effects of some gelling agents and their concentrations on conversion of oil palm polyembryoids into plantlets. Journal of Genetic Engineering and Biotechnology, 18: art. no. 5. https://doi.org/10.1186/s43141-019-0018-z10.1186/s43141-019-0018-z
]Search in Google Scholar
[
Quiala, E., Jimenez-Tello, M.V., Barbon, R., Chavez, M., De Feria, M., La, O.M. Perez, M., 2014. Influence of 6-Benzyladenine and gelling agent on the reduction of hyperhydricity in Tectona grandis L. Revista Colombiana de Biotecnología,16 (1): 129–136.10.15446/rev.colomb.biote.v16n1.44279
]Search in Google Scholar
[
Rady, M.R., 2006. In vitro culture of Gypsophila paniculata L. and random amplified polymorphic DNA analysis of the propagated plants. Biologia Plantarum, 50 (4): 507–513.10.1007/s10535-006-0080-7
]Search in Google Scholar
[
Raina, R.J., 2017. Gelling agents for plant tissue culture media: a comparative study. International Journal Innovative Research in Science and Engineering, 3 (1): 324–331.
]Search in Google Scholar
[
Ramesh, Y., Ramassamy, V., 2014. The effect of gelling agents on in vitro multiplication of Banana var. poovan. International Journal of Advanced Biological Research, 4 (3): 308–311.
]Search in Google Scholar
[
Ramesh, Y., Ramassamy, V., 2015. Influence of gelling agents in micropropagation of banana var. Grand Naine. International Journal of Current Research in Biosciences and Plant Biology, 2 (5): 174–178.
]Search in Google Scholar
[
Romberger, A. Tabor, C.A., 1971. The Picea abies meristem in culture. 1. Agar and autoclaving effects. American Journal of Botany, 58: 131–140.10.1002/j.1537-2197.1971.tb09956.x
]Search in Google Scholar
[
Scholten, H.J., Pierik, R.L.M., 1998. Agar as gelling agent: differential biological effects in vitro. Scientia Horticulturae, 77: 109–116.10.1016/S0304-4238(98)00165-4
]Search in Google Scholar
[
Singleton, V.L., Rossi, J.A., 1965. Colorimetry of total phenolics with phosphomolybdic-phosphotungsic acid reagents. American Journal of Enology and Viticulture, 16 (3): 144–158.
]Search in Google Scholar
[
Te-Chato, S., Petsut, P., Nuchum, P., 2005. Effect of gelling agents on shoot growth and multiple shoot formation of mangosteen. Songklanakarin Journal of Science and Technology, 27, Suppl. 3: 637–643.
]Search in Google Scholar
[
Tremblay, L., Tremblay, F.M., 1991. Effects of gelling agents, ammonium nitrate and light on the development of Picea mariana (Mill.) BSP (black spruce) and Picea rubens Sarag. (red spruce), somatic embryos. Plant Science, 77: 233–242.10.1016/0168-9452(91)90092-M
]Search in Google Scholar
[
Turner, S. R., Singha, S., 1990. Vitrification of crabapple, pear, and geum on gellan gum-solidified culture medium. Horticultural Science, 5(12): 1648–1650.10.21273/HORTSCI.25.12.1648
]Search in Google Scholar
[
Yadav, M.K., Gaur, A.K., Garg, G.K., 2003. Development of suitable protocol to overcome hyperhydricity in carnation during micropropgation. Plant Cell Tissue Organ Culture, 72: 153–156.10.1023/A:1022236920605
]Search in Google Scholar