Browse > Article
http://dx.doi.org/10.12791/KSBEC.2020.29.3.219

Rooting Rate and Survival Rate as Affected by Humidification Period and Medium Type of 'Maehyang' Strawberry on Cutting Propagation  

Hwang, Hee Sung (Division of Crop Science, Graduate School of Gyeongsang National University)
Jeong, Hyeon Woo (Division of Applied Life Science, Graduate School of Gyeongsang National University)
Lee, Hye Ri (Division of Applied Life Science, Graduate School of Gyeongsang National University)
Hwang, Seung Jae (Department of Agricultural Plant Science, College of Agriculture & Life Sciences, Gyeongsang National University)
Publication Information
Journal of Bio-Environment Control / v.29, no.3, 2020 , pp. 219-230 More about this Journal
Abstract
This study was conducted to determine the optimum medium and humidification period for the strawberry (Fragaria × ananassa Duch. cv. Maehyang) cutting seedling production. The cuttings were planted in coir (CO), rockwool (RW), phenolic foam (PF), and organic foam medium (OFM) with fogging treatment in 0, 3, 6, 9, or 12 days on February, 2019. And, as the field verification examination research, cuttings were planted in CO, RW, PF, and OFM, with misting treatment in 0, 6, 9, 12, or 15 days on June, 2019. In fogging treatments, rooting and survival rates of seedlings tended to increase with longer fogging periods, and rooting and survival rates were showed significantly higher in CO medium with more than 9 days of fogging periods. In misting treatments, rooting rate was significantly higher in CO and RW medium with more than 9 days of misting periods, and survival rate was significantly higher with more than 12 days of misting periods. There was no significantly difference by growth medium and humidification period in shoot and root growth. Therefore, when considering the rooting and survival rate the CO medium with 9 days of humidification period could be beneficial for the production of the 'Maehyang' strawberry cutting seedlings.
Keywords
coir; fogging; misting; phenolic foam; rockwool;
Citations & Related Records
Times Cited By KSCI : 8  (Citation Analysis)
연도 인용수 순위
1 Tetsumura, T., S. Ishimura, C. Honsho, and H. Chijiwa. 2017. Improved rooting of softwood cuttings of dwarfing rootstock for persimmon under fog irrigation. Sci. Hortic. 224:150-155.   DOI
2 Zheng, J., F. Ji, D. He, and G. Niu. 2019. Effect of light intensity on rooting and growth of hydroponic strawberry runner plants in a LED plant factory. Agronomy. 9:875-887.   DOI
3 Kim, G.H., and B.R. Jeong. 2003. Hydroponic culture of a pot plant Ficus benjamina 'King' using mixtures of used rockwool slab particles and chestnut woodchips. J. Kor. Soc. Hort. Sci. 44:251-254 (in Korean).
4 Kim, G.H., E.J. Won, and B.R. Jeong. 2006. Use of cellular glass foam (CGF) as a propagation medium of Dendranthema grandiflorum 'Backgwang' and Euphorbia pulcherrima 'Freedom Red'. Flower Res. J. 14:186-190 (in Korean).
5 Kim, H.M., H.M. Kim, H.W. Jeong, H.R. Lee, B.R. Jeong, N.J. Kang, and S.J. Hwang. 2018. Growth and rooting rate of 'Maehyang' strawberry as affected by irrigation method on cutting propagation in summer season. Protected Hort. Plant Fac. 27:103-110 (in Korean).   DOI
6 Kim, H.M., K.O. No, and S.J. Hwang. 2016. Use of pellet of cube-type phenolic foam as an artificial medium for production of tomato plug seedlings. Korean J. Hortic. Sci. Technol. 34:414-423 (in Korean).
7 Kim, H.M., Y.J. Kim, and S.J. Hwang. 2018. Physicochemical properties of newly developed artificial medium and proper irrigation interval for production of tomato plug seedlings. Protected Hort. Plant Fac. 27:71-79 (in Korean).   DOI
8 Lee, H.R., H.M. Kim, H.M. Kim, S.H. Park, and S.J. Hwang. 2019a. Applicability of artificial light source and newly developed growing medium for lettuce cultivation in a closed-type plant production system. Protected Hort. Plant Fac. 28:134-142 (in Korean).   DOI
9 Kim, I.J., M.J. Kim, S.Y. Nam, C.H. Lee, and H.S. Kim. 2004.Effects of bedsoil and growth regulator on cutting propagation of Cudrania tricuspidata bureau. Korean J. Medicinal Crop Sci. 12:285-288 (in Korean).
10 Ku, B.S., and M.S. Cho. 2014. Effects of IBA and rooting media on rooting of cut Hydrangea macrophylla. Flower Res. J. 22:60-67 (in Korean).   DOI
11 Miller, R. 2014. Evaluation and propagation of Chinese wingnut, Pterocarya stenoptera, as a new bioenergy feedstock. http://ideals.illinois.edu.
12 Harrison-Murrey, R.S., B.H. Howard, and R. Thompson. 1988. Potential for improved propagation by leafy cuttings through the use of fog. Acta Hortic. 227:205-210.   DOI
13 Mudge, K.W., V.N. Mwaja, F.M. Itulya, and J. Ochieng. 1995. Comparison of four moisture management systems for cutting propagation of bougainvillea, hibiscus, and kei apple. J. Amer. Soc. Hort. Sci. 120:366-373.   DOI
14 Priapi, V.M. 1993. Outdoor mist propagation. Amer. Nurseryman. 178:30-38.
15 Saito, Y., M. Imagawa, K. Yabe, N. Bantog, K. Yamada, and S. Yamaki. 2008. Stimulation of rooting by exposing cuttings of runner plants to low temperatures to allow raising of strawberry seedlings during summer. J. Japan. Soc. Hort. Sci. 77:180-185.   DOI
16 Bae, M.J., E.N. Kim, H.K. Choi, M.S. Byun, K.H. Chung, J.A. Yoon, and J.H. An. 2019. Quality characteristics and antioxidant activities of strawberries according to various extraction methods. J. Korean Soc. Food Sci. Nutr. 48: 728-738 (in Korean).   DOI
17 Choi, J.M., J.W. Ahn, J.H. Ku, and Y.B. Lee. 1997. Effect of medium composition on physical properties of soil and seedling growth of red pepper in plug system. J. Kor. Soc. Hort. Sci. 36:618-624 (in Korean).
18 Choi, S.H., G.L. Choi, H.J. Jeong, S.Y. Kim, S.C. Lee, and H.G. Choi. 2017. Optimum nutrient concentration to improve growth and quality of strawberry cultivars 'Berrystar' and 'Jukhyang' in hydroponics. Protected Hort. Plant Fac. 26:424-431 (in Korean).   DOI
19 Fernandez, J., S. Pereira, and E. Miranda. 1992. Fog and substrate conditions for chestnut propagation by leafy cuttings, In: Mass production technology for genetically improved fast growing forest tree species: syntheses. AFOCEL. Bourdeaux, France. p. 379-383.
20 Fonteno, W.C. 1996. Growing media; types and physical/chemical properties. In: D.W. Reed. Water, media, and nutrition for greenhouse crops. Ball Publishing. IL. USA. p. 93-122.
21 Jurik, T.W. 1985. Differential costs of sexual and vegetative reproduction in wild strawberry populations. Oecologia. 66:394-403.   DOI
22 Korean Statistical Information Service (KOSIS). 2019. Agricultural area survey. http://kosis.kr/index/index.do (in Korean).
23 Kang, D.I., H.K. Jeong, Y.G. Park, H. Wei, J. Hu, and B.R. Jeong. 2019. Humidification and shading affect growth and development of cutting propagated 'Maehyang' strawberry (Fragaria ${\times}$ ananassa Duch.) at propagation stage. Protected Hort. Plant Fac. 28:429-437 (in Korean).   DOI
24 Kang, D.J., and I.J. Lee, 2003. Water deficit in salt- and droughtstressed rice (Oryza sativa L.) seedlings. Agric. Res. Bull. Kyungpook Natl. Univ. 21:1-9 (in Korean).
25 Kim, T.K., H.C. Kim, J.Y. Song, H.S. Lee, S.H. Ko, Y.M. Lee, and C.K. Song. 2015. Cutting propagation and seedling growth effect according to fertilizer application of Elsholtzia minima Nakai. Korean J. Plant Res. 28:243-252 (in Korean).   DOI
26 Lee, H.R., H.M. Kim, H.W. Jeong, G.G. Kim, C.I. Na, M.M. Oh, and S.J. Hwang. 2019b. Growth characteristics of Adenophora triphylla var. japonica Hara seedlings as affected by growing medium. Plants. 8:446-455.   DOI
27 Lee, K.C., and S.S. Han. 2012. Evaluation of drougth tolerance of Pleurospermum camtschaticum, Cirsium setidens and Parasenecio firmus obtained from pressure-volume curves. Korean J. Medicinal Crop Sci. 20:36-41 (in Korean).   DOI
28 Liu, C., Z. Guo, Y.G. Park, H. Wei, and B.R. Jeong. 2019. PGR and its application method affect number and length of runners produced in ‘Maehyang’ and ‘Sulhyang’ strawberries. Agronomy. 9:59-75.   DOI
29 Mann, C.E.T. 1930. Studies in the root and shoot growth of the strawberry. V. the origin, development, and function of the roots of the cultivated strawberry (Fragaria Virginiana ${\times}$ Chiloensis). Ann. Bot. 44:55-86.   DOI
30 Nam, S., Y.H. Rhie, and J. Kim. 2017. Effect of substrate volumetric water content levels on rooting and growth of hydrangea cuttings. Flower Res. J. 25:47-53 (in Korean).   DOI
31 No, K.O., J.H. Kang, H.M. Kim, C.G. An, B.R. Jeong, and S.J. Hwang. 2012. Use of pellet type phenolic foam as a medium for production of plug seedlings of 'Madison' tomato. J. Bio-Environ. Control 21:199-206 (in Korean).
32 Park, G.S., Y.C. Kim, and S.W. Ann. 2016. Impact of transplant timing of mother plants for seedling strawberries on growth and development of daughter plants and initial field stage. J. Environ. Sci. Int. 25:289-294 (in Korean).   DOI
33 Park, G.W. and Y.S. Kim. 2017. Theory and reality of hydroponic cultivation. World science, Seoul, Korea. p. 185-259 (in Korean).
34 Park, J.E., C.G. An, B.R. Jeong, and S.J. Hwang. 2012. Use of phenolic foam as a medium for production of plug seedlings of paprika. Kor. J. Hort. Sci. Technol. 30:34-41 (in Korean).
35 Peterson, B.J., O. Sanchez, S.E. Burnett, and D.J. Hayes. 2018. Comparison of four systems for propagation of coleus by stem cuttings. HortTechnology. 28:143-148.   DOI
36 Rural Development Administration (RDA). 2009. Strawberry. 1st ed. Human culture Arirang, Yangpyeong, Korea. p. 64-68 (in Korean).
37 Rugienius, R., and V. Stanys. 2001. In vitro screening of strawberry plants for cold resistance. Euphytica. 122:269-277.   DOI
38 Shin, J.H., and J.E. Son. 2015. Comparisons of water behavior and moisture content between rockwools and coir used in soilless culture. Protected Hort. Plant Fac. 24:39-44 (in Korean).   DOI
39 Suraj, P.G., M. Suresh, P.R. Babu, and M. Varghese. 2019. Variation in rooting pattern of Leucaena leucocephala in relation to propagation system and stock mother plants. J. Trop. For. Sci. 9:7-18.