Effect of Dissolved Oxygen and Chemical Scarification on Andrographis paniculata Seed Germination in Macrobubble Conditions

IF 1.5 Q2 AGRONOMY
Athakorn Promwee, S. Islam, Thanet Khomphet
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Abstract

Andrographis paniculata is used in Thai traditional medicine. This plant contains a bitter compound called andrographolide, which is highly effective in the prevention of many diseases. It is an effective treatment for infectious diseases and has a prophylactic effect owing to its powerful immunity-boosting benefits. Recently, it has been widely used to treat COVID-19. However, commercial planting of A. paniculata is performed by seeding, which leads to seed germination problems. The seed germination is relatively low and not efficient under normal conditions for various reasons, such as a combined dormancy of physical and innate nature, the diversity of the seeds in different lots, and the fact that the germination duration was not uniform in the same lot. An easily applied and inexpensive method for farmers to develop mass plantings to stimulate germination is by using macrobubble conditions by aerating seeds in sterile water in collaboration with chemical scarification, which is the idea of creating a hard seed coat that causes seed dormancy to break while root germination occurs at 25°C. Germination was completed after 16 days. The dissolved oxygen (DO) concentrations in this environment were 5, 6, 7, 8, and 9 mg·L−1. The oxygen intensity of 9 mg·L−1 showed the highest germination percentage (26.33%). It was found to be optimal for macrobubble conditions. Seedlings were treated with chemicals (PEG, NaCl, H2SO4, KCl, KNO3, NaHClO3, and GA3) after soaking in macrobubbles with optimum DO. The results showed that NaHClO3 conc. (30 min) showed a generation percentage reaching 92%, which could greatly promote up to 3.63 folds compared with the control in the macrobubble aeration system.
溶解氧和化学刻蚀对大泡条件下穿心莲种子萌发的影响
穿心莲是泰国传统医药中的一种药材。这种植物含有一种叫穿心莲内酯的苦味化合物,对预防许多疾病非常有效。它是一种有效的治疗传染病和预防作用,因为它具有强大的免疫增强作用。最近,它被广泛用于治疗COVID-19。然而,金针藤的商业种植是通过播种进行的,这导致种子发芽问题。由于物理和先天双重休眠、不同批次种子的多样性、同一批次种子的萌发时间不均匀等原因,在正常条件下,种子萌发率相对较低,效率不高。对农民来说,大规模种植刺激发芽的一种简单易行且价格低廉的方法是利用大泡条件,在无菌水中给种子充气,并配合化学划伤,这是一种创造坚硬的种皮的想法,在25°C的温度下,当根发芽时,种子休眠会被打破。16 d后完成萌发。溶解氧(DO)浓度分别为5、6、7、8和9 mg·L−1。氧强度为9 mg·L−1时,萌发率最高,为26.33%。结果表明,该方法在宏观气泡条件下最优。幼苗在适宜DO的大气泡中浸泡后,分别用PEG、NaCl、H2SO4、KCl、KNO3、NaHClO3和GA3进行处理。结果表明:NaHClO3能有效地催化氧化。(30 min)的产率达到92%,与对照相比,大泡曝气系统的产率提高了3.63倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.60
自引率
5.30%
发文量
66
审稿时长
16 weeks
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