Toona sureni (blume) merr. Seeds invigoration using 60Co Gamma-Rays irradiation

IF 1.8 Q2 FORESTRY
M. Zanzíbar, Y. A. Nugraheni, K. P. Putri, N. Yuniarti, D. Sudrajat, Yulianti, D. Syamsuwida, A. Aminah, E. Rustam, A. Sukendro, Diana Septiningrum
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引用次数: 3

Abstract

Abstract Deteriorated seeds can be improved by invigoration treatment, including gamma-ray irradiation by Cobalt-60 (60Co). The purpose of this study was to determine the proper dose of gamma-ray irradiation (60Co) to increase the decreased vigor of suren (Toona sureni (Blume) Merr.) seeds. This study uses a factorial completely randomized design (CRD) with aging and irradiation as the treatments. Aging factors consisted of 0, 2, and 4 days. Irradiation factor consisted of 7 levels, namely 0, 5, 10, 20, 40, 80, and 100 Gy, repeated four times. The parameters observed were the electrical conductivity, germination percentage, germination speed, and seedling height. The results showed that Seed aging treatment significantly affected Suren seed germination with 75% (2 days aging) and 56% (4 days aging) germination. The 40 Gy dose of gamma-ray irradiation could increase germination percentage and germination speed of low suren seed vigor increasing 51.42% and 60.21%, respectively. Simultaneously, the cell membrane damage of stored suren increased with gamma-ray irradiation treatment of more than 40 Gy based on electrical conductivity. In seeds with high germination, such as seeds without aging and seed aging for two days with a germination percentage of 80% and 75%, respectively, the invigoration treatment was not effective. Invigoration treatment was effective in increasing the deteriorated or low viability and vigor of the suren seeds.
香椿(蓝色)merr。用60Co γ射线辐照活化种子
变质种子可以通过活化处理,包括钴-60 (60Co)的伽马射线照射来改善。本研究的目的是确定适当的γ射线照射剂量(60Co)以增加香椿(Toona sureni (Blume) Merr.)种子的活力。本研究采用因子完全随机设计(CRD),老化和辐照作为处理。衰老因子包括0、2和4天。辐照因子由0、5、10、20、40、80、100 Gy 7个水平组成,重复4次。观察电导率、发芽率、发芽率和幼苗高度。结果表明:种子老化处理显著影响苏仁种子萌发,分别为75% (2 d)和56% (4 d);40 Gy辐照能使低活力种子的发芽率和萌发速度分别提高51.42%和60.21%。同时,根据电导率,超过40 Gy的γ射线辐照对储存的苏木细胞膜的损伤增加。对于高发芽率的种子,如未老化和老化2 d发芽率分别为80%和75%的种子,补药处理无效。补益处理能有效提高变质或低活力的苏木种子。
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来源期刊
CiteScore
3.30
自引率
5.30%
发文量
0
审稿时长
21 weeks
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