[논문]Reproduction rate and stolon production rate after transplantation of grass germplasm

Jung, Ji Hyeon; Han, Gyung Deok; Kim, Jaeyoung; Chung, Yong Suk

doi:10.7744/kjoas.20210036

Reproduction rate and stolon production rate after transplantation of grass germplasm 원문보기

Korean journal of agricultural science, v.48 no.3, 2021년, pp.465 - 471

Jung, Ji Hyeon (Department of Plant Resources and Environment, Jeju National University) , Han, Gyung Deok (Department of Plant Resources and Environment, Jeju National University) , Kim, Jaeyoung (Department of Plant Resources and Environment, Jeju National University) , Chung, Yong Suk (Department of Plant Resources and Environment, Jeju National University)

Abstract ▼ AI-Helper

Grass breeding starts with the process of selecting grass with good traits, and this operation consumes a lot of resources. Therefore, there is a need for an efficient screening method. Stolon is a unit for the storage of carbohydrates and vegetative propagation, which enhances grass growth and grass sod. Grass varieties with active production of stolons have excellent traits because they reproduce quickly and have a high density. To select grass with such a trait, the survival rate and the production rate of stolon after transplantation of 72 grass germplasms were investigated. After transplantation, the survival rate ranged from 75% to 100%. The majority of the grass cultivars showed a 100% survival rate. Therefore, the group was divided into two groups: A grass variety showing 100% survival and a grass variety that did not show 100% survival. The grass cultivar group, which showed a 100% survival rate after transplantation, included 61 turf varieties, and the rates of stolon production in these grass varieties ranged from 0 to 100%. In contrast, 10 varieties were included in the grass cultivar group that did not show 100% survival after transplantation. These cultivars had a stolon production rate of 0 to 33%. The results suggest that grass germplasms with a 100% survival rate should be selected.

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표/그림 (4)

표 Table 1. Grass survival and stolon produced grass percentage of 71 grass cultivar. (continued)
표 Table 1. Grass survival and stolon produced grass percentage of 71 grass cultivar.
그림 Fig. 1. The survival rate of 72 grass cultivars. The grass was planted July, 29 and the survival rate was confirmed December, 1.
그림 Fig. 2. Stolon produced grass rate of 100% survived grass group A and others B. The grass was planted July, 29 and the stolon produce grass rate was confirmed December, 1. Only the presence or absence of stolon was confirmed.

참고문헌 (17)

Bae EJ, Park NC, Lee KS, Lee SM, Choi JS, Yang GM. 2010. Distribution and morphology characteristics of native zoysiagrasses (Zoysia spp.) grown in South Korea. Asian Journal of Turfgrass Science 24:97-105. [in Korean]
Choi DL, Yang GM, Choi JS. 2008. Flowering periods, genetic characteristics, and cross-pollination rate of Zoysia spp. in natural open-pollination. Asian Journal of Turfgrass Science 22:13-24. [in Korean]
Choi JS, Ahn BJ, Yang GM. 1997. Distribution of native zoysiagrasses (Zoysia spp.) in the south and west coastal regions of Korea and classification using morphological characteristics. Journal of the Korean Society for Horticultural Science 4:399-407. [in Korean]
Choi JS, Yang GM, Bae EJ, Lee KS, Shon YM. 2020. Seed yields and germinabilities of Zoysiagrass species, cultivars and seed type breeding lines. Weed&Turfgrass Science 9:379-387. [in Korean]
Choi JS, Yang GM, Oh CJ, Bea EJ, 2012. Morphological characteristics and growth rate of medium-leaf type Zoysiagrasses collected at major sod production area in S. Korea. Weed&Turfgrass Science 26:1-7. [in Korean]
Chung YS, Kim KS, Kim C. 2018. Perspectives on high throughput phenotyping in developing countries. Korean Journal of Agricultural Science 45:318-323.
Forbes I. 1952. Chromosome numbers and hybrids in Zoysia 1. Agronomy Journal 44:194-199.

상세보기
Hong K. 1985. Studies on interspecific hybridization in Korean lowngrasses (Zoysia spp.). Korean Journal of Horticultural Science and Technology 26:169-178. [in Korean]
Hyun YH, Choi BJ, Kim YJ, Joo YK. 2012. Analysis of research trend on zoysiagrass (Zoysia spp.). Asian Journal of Turfgrass Science 26:89-95. [in Korean]
Jang DH, Park NI, Yang SW, Sim GY. 2011. Present situation of zoysiagrass (Zoysia spp.) culture, sod production, and bland by prefecture in Japan. Asian Journal of Turfgrass Science 25:229-236. [in Korean]
Kim HK, Kim KS, Joo YK, Hong KH, Kim KN, Lee JP, Mo SY, Kim DH. 1996. Variation of the morphological characteristics in the accessions of Zoysia species and their hybrid lines. Weed&Turfgrass Science 10:1-11. [in Korean]
Lee GJ, Lee SG, Kim YS, Jeon YS, Lee GY. 2018. Diversity assessment of radiation-induced mutants of Zoysiagrass (Zoysia japonica) based on morphology, physiology and AFLP analysis. Weed&Turfgrass Science 7:387-398. [in Korean]
Omari MK, Lee J, Faqeerzada MA, Joshi R, Park E, Cho BK. 2020. Digital image-based plant phenotyping: A review. Korean Journal of Agricultural Science 47:119-130.

원문보기 상세보기
Patton AJ, Schwartz BM, Kenworthy KE. 2017. Zoysiagrass (Zoysia spp.) history, utilization, and improvement in the United States: A review. Crop Science 57:S37-S72.
Patton AJ, Volenec JJ, Reicher ZJ. 2007. Stolon growth and dry matter partitioning explain differences in zoysiagrass establishment rates. Crop Science 47:1237-1245.

상세보기
Pornaro C, Macolino S, Richardson MD. 2019. Rhizome and stolon development of bermudagrass cultivars in a transition-zone environment. Acta Agriculturae Scandinavica, Section B-Soil & Plant Science 69:657-666.

상세보기
Rim YM, Kim KY, Kim MJ, Sung BR, Lim YC, Chung ES, Shin HK, Kim YS. 2003. Comparison on the growth characteristics of superior lines in the collected lines of zoysiagrass. Weed & Turfgrass Science 17:75-80. [in Korean]

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Reproduction rate and stolon production rate after transplantation of grass germplasm 원문보기

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Reproduction rate and stolon production rate after transplantation of grass germplasm 원문보기

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