Flower development, pollen viability and pollen storage test of Aeschynanthus radicans
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Abstract
Abstract. Damayanti F, Garvita RV, Wawangningrum H, Rahayu S. 2021. Flower development, pollen viability and pollen storage test of Aeschynanthus radicans. Biodiversitas 22: 1940-1945. Aeschynanthus radicans Jack. commonly-known as lipstick flowers, is an epiphytic plant in Gesneriaceae family. It has an attractive morphology and is easy to grow. Therefore A. radicans is used as mother species for hybridization by plant breeders. The flowers of A. radicans are dichogamous and strongly protandrous. The pollen matures before the stigma becomes receptive and bends away and down when the stigma becomes receptive. As a thought-after material for hybridization, little is known about the flower development, pollen viability, and storability. The purpose of this study was to observe the development phase of A.radicans flowers, determine the viability of pollen during flower development, and investigate the pollen storability at -20?C. Flower development was observed in phases from small buds to anthesis. Pollen viability was tested in 10%, 15%, and 20% sucrose solution for 4 hours. Pollen storage was tested at -20?C for 77 days and tested for viability every three weeks. The best sucrose concentration for the germination of fresh pollen was 20%. The highest pollen viability was at H0 was 58±3% and gradually decreased with flowerage. The lowest viability was 18±14% at flower stage H5, coinciding with the first day of stigma receptive. Pollen storage at -20?C decreased pollen viability to 30,2±2% after 42 days and to 13,54% after 77 days.
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Bellusci F, Musacchio A, Stabile R, Pellegrino G. 2010. Differences in pollen viability in relation to different deceptive pollination staregies in Mediterranean orchids. Annals of Botany 106:769-774
Baninasab B, Tabori M, Yu J, Zhang Y, Wang X, Deschiffart I, Khanizadeh S. 2017. Low temperature storage and in vitro pollen germination of selected spring wheat accessions. Journal of Agricultural Science 9(9): 1-6
Cui J, Chen J, Henny RJ. 2009. Regeneration of Aeschynanthus radicans via direct somatic Embryogenesis and Analysis of Regenetants with Flow Cytometry. In Vitro Cell.Dev.Biol.Plant 45:34-43
Deswiniyanti NW, Astari IA, Puspawati NM. 2012. Flowering phenology study of Lilium longiflorum Thunb. Jurnal Metamorfosa I(1):6-10
Du G, Xu J, Gao C, Lu J, Li Q, Du J, Lu M, Sun X. 2018. Effect of low storage temperature on pollen viabilityof fifteen herbaceous peonies. Biotechnology Report 20 e00309
Gandadikusumah VG, Wawangningrum H, Rahayu S. 2017. Pollen Viability of Aeschynanthus trocolor Hook. The Journal of Tropical Life Science 7(1):53-60
Jayaprakash, P. 2018. Pollen germination in vitro. In: Mokwala, P.W. Pollination in plants. British Library Cataloguing-in-Publication Data. P. 81-96
Li Q, Deng M, Xiong Y, Coombes A, Zhao W. 2014. Research article: Morphological and photosynthetic response to high and low irradiance of Aeschynanthus longicaulis. The Scientific World Journal. http://dx.doi.org/10.1155/2014/34746
Mendum M, Lassing P, Weber A, Christie F. 2001. Testa and Seed Appendage Morphology in Aeschynanthus (Gesneriaceae): Phytogeographical Pattern and Taxonomic Implications. Botanical Journal of the Linnean Society 135:195-213
Middleton DJ. 2016. A revision of Aeschynanthus (Gesneriacceae) in Singapore and Peninsular Malaysia. Gardens’ Bulletin Singapore 68(1): 1-63
Missouri Botanical Garden. 2018. Aeschynanthus radicans. http://www.missouribotanicalgarden.org/PlantFinder/PlantFinderDetails.aspx?kempercode=b542, Accedded on 31 Maret 2019
Mondal S, Ghanta R. 2012. Studies on in vitro pollen germination of Lawsonia inermis Linn. Advances in Bioresearch 3(3): 63–66.
Thomas RJ, Josephrajkumar A. 2013. Flowering and pollination biology in coconut. Journal of Plantation Crops 41(2):109-117
Patel E, Mankad A. 2015. Sucrose Needs for Pollen Germination of Impatients Balsamina L. International Journal of Innovative Research in Sci, Eng. And Tech. 4(10):10242-10244
Rahayu S, Wawangningrum H, Garvita RV. 2015. Morfphological characteristic and flower development of Aeschynanthus tricolor Hook. (Gesneriaceae). Berita Biologi 14(3): 203-211.
Sari NLGCT, Kriswiyanti E, Darsini NN. 2013. The development of microgametophyte and pollen viability of Coconut Ancak (Cocos nucifera L. ‘Ancak’). Jurnal Simbiosis 1(2): 51-58
Solusoglu M, Cavusoglu A. 2014. In vitro pollen viability and pollen germination in cherry Laurel (Prunus lauroceratus L.). The Scientific World Journal. Article ID 657123, 7 pages.
Ulfah SM, Dorly, Rahayu S. 2015. Flower development and pollen viability of Aeschynanthus radicans var. ‘Monalisa’ at Bogor Botanic Gardens. Bulletin Kebun Raya 19(1):21-32
Vasil IK. 1987. Physiology and culture of pollen. In: Giles KL, Prakash J eds. International review of cytology (Vol. 107) Pollen: Cytology and development. Florida, Academic Press
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