An experiment to study the effect of cobalt 60 gamma irradiation on agronomic traits of Malaysian rice variety, MR284, was performed by using randomized complete block design (RCBD) with three replications in Gamma Green House (GGH) located at Malaysia Nuclear Agency. The GGH facility can produce a low dose rate of chronic gamma-ray which causes less damage to the plant cell and eliminate undesirable traits as well as produce wide mutation spectrum. Seedlings in pots at the age of 14 days were exposed to gamma rayS in GGH at different dose rate from 0.03 Gy/hour to 0.66 Gy/hour for 77 days (flowering stage). Data on survival rate and growth performance such as plant height and tiller number were recorded every 7th day. The result showed that, chronically irradiated MR284 plant exhibited various significant responses of agronomic characteristic against different doses of chronic gamma irradiation. Based on the survival curve, growth reduction (GD50) for MR284 was recoded at 318.63 Gy based on filled grain per plant trait. At cumulative doses of 68.87 Gy and 167.25 Gy (0.07 and 0.17 Gy/hour, respectively), the rice seedlings demonstrated the highest plant height with maximum tillering and highest number of filled grains. Those rates are stimulating to the growth and development of the plants. This study helps explicate the dose-response on local rice varieties through chronic radiation in a Gamma Green House facility in Malaysia.
A new high-yielding mutant rice cultivar, IS21, has been released by the Malaysian Nuclear Agency (MNA) in 2021. This cultivar matures in 105-108 days after transplanting. Since there is a need to reduce days to maturity (DTM) in most Malaysian rice mega-varieties to minimise the impacts of abiotic and biotic stresses, crossing IS21 with early maturing rice genotypes could be an efficient strategy to address these issues. Preliminary screening has successfully identified two early maturing and shorter plant statue rice genotypes, MR220CL2 and UKMRC16. Therefore, these rice genotypes were crossed to IS21 to generate two F1 populations. These F1 populations (IS21 × MR220CL2 and IS21 × UKMRC16) were planted in the MNA glasshouse with parental lines from December 2021 to March 2022. The agro-morphological data for F1 populations and parental lines were recorded and analysed using the RStudio software package. The putative F1 progenies were confirmed using two polymorphic simple sequence repeat (SSR) SSR markers, RM628 and RM140. About 75% of the putative F1 are F1 hybrids. IS21 × MR220CL2 F1 progenies showed better morpho-agronomical performances compared to IS21 × UKMRC16 F1 progenies. This crossing combination also had positive mid-parents and better parent heterosis values of all evaluated traits except for thousand-grain weight, days to flowering and DTM. This study suggested the potential use of IS21 x MR220CL2 F1 progenies for rice breeding programmes with high-yielding and early maturity traits.
Synthesis of cerium oxide (CeO2) nanoparticles (NPs) via biological approach has received a lot of interest to reduce the harmful effects of chemical synthesis. In the present study, Colocasia esculenta leaf extract facilitated the preparation of CeO2-NPs by using the sol-gel technique. The crystal structural of CeO2-NPs was proven by X-ray powder diffraction (XRD) investigation to be cubic with size of 2.94 nm according to Debye–Scherrer equation. As demonstrated in the transmission electron microscopy (TEM) image, CeO2-NPs have a spherical form with an average size of 2.04 nm which is almost consistent with a finding from XRD analysis. Energy dispersive X-ray (EDX) measurements exhibited high-intensity peaks attributed to Ce and oxygen and further proved the creation of CeO2-NPs. The Fourier transform infrared spectroscopy (FTIR) analysis revealed the presence of Ce-O stretching, indicating the formation of CeO2-NPs. Functional groups of O-H, C-O, and C=O peaks were found in a spectrum due to the phytochemical components that were responsible for reducing and stabilizing during the synthesis process of CeO2-NPs. The examined UV-visible spectra exhibited the absorbance peak at 213 nm. The synthesized NPs produced in this study were further investigated for mung bean seed germination, whereby the influence of grain germination and growth rate demonstrated the significant finding.
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