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9. Exogenous growth regulators amplify the morpho‐physiology, root architecture and dry‐matter accumulation in seed potato.

Author

Singh, Amanpreet, Aulakh, Charanjit Singh, Chawla, Neena, and Khepar, Varinder

Subjects
SEED potatoes, GROWTH regulators, POTATO seeds, GIBBERELLIC acid, AGRICULTURE
Abstract

Enhancing the productivity of seed potato production systems by improving the size of the tubers is a primary concern. Punjab, a state located in the northwest region of India, meets 60% of the country's seed requirements. In order to optimize the morpho‐physiological aspects, root structure, and overall yield of seed‐sized tubers, research trials were carried out at Punjab Agricultural University, Ludhiana over two consecutive years. The trial consisted of 11 different treatments and was conducted using a randomized complete block design with three replications. The application of Gibberellic acid at a concentration of 200 ppm, at 45 and 60 days after sowing (DAS), resulted in significantly higher yields of seed‐sized tubers measuring <4.5 cm. This treatment also exhibited superior root architecture parameters and accumulation of dry matter, outperforming all other growth regulation treatments. Compared to the untreated control group, the Gibberellic acid application led to a remarkable increase of 45.9% and 39.8% in seed‐sized tuber yields. Furthermore, it significantly boosted the protein, starch, antioxidant (total phenols), sugar (total and reducing), and mineral content (nitrogen, phosphorus, and potassium) in the tubers, surpassing the effects of all other growth regulation treatments. These results suggested that the exogenous use of gibberellic acid (200 ppm) at 45 and 60 DAS substantially improved the physiology, root architecture, and yield of seed‐sized tubers. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Zinc carbonate nanoparticles (ZnC-NPs) augmented the growth of rice seedlings by suppressing Fusarium fujikuroiand modulating Zn content in rice seedlings

Author

Sidhu, Anjali, Rajput, Priambidha, Ahuja, Radha, Khepar, Varinder, and Gill, Arsh Alam Singh

Abstract

Sustainable agriculture necessitates the exploration of eco friendly materials to eradicate the pathogenic menace without causing any adverse and residual impact on the environment. Nanotechnology proposes the prodigious aptitude by developing the nanometric-materials to change the pathological scenario of seeds. In this study, zinc carbonate nanoparticles (NPs) of varying sizes (ZnC-1 NPs, ZnC-2 NPs and ZnC-3 NPs) were prepared in aqueous media under sonochemical conditions to visualize the size-dependedant antifungal potential of ZnC NP. Topo-morphological parametric details were achieved by TEM, SEM-EDS, XRD, IR and UV-visible spectroscopic techniques. In vitro suppression of pathogenic fungi of rice seeds by ZnC NPs revealed the size-dependent inhibition of mycelial growth of Fusarium fujikuroi. The nanopriming of rice seeds with ZnC-3 NPs at 150 µg/ml for 6 h caused significant reduction in seedling blight (82 ± 2%) and seed rot (81 ± 4%) relative to control, while seeds nanoprimed for 8 h resulted in augmentated percent germination (90 ± 2%), root length (13 ± 1.0 cm), shoot length (9.9 ± 0.6 cm), dry weight (0.076 ± 0.003 g) and overall vigor index (6.84 ± 0.5) when comparad to control. The enhanced internalization of zinc in ZnC-3 NPs primed seedlings, compared to hydroprimed seeds, provides the evidence for the role of nano zinc in promoting growth of nanoprimed seedlings. Inclusively, by conducting extensive field trials on rice, ZnC nanoforms can be endorsed as environmentally friendly antifungal agents and classified as “nanofungicides” in the agricultural sector.

Published
2024
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16. Nanomaterized zinc sulfide‐meerschaum biomatrix efficiently suppressed Fusarium verticilloides with augmented rice seed quality benefits during storage.

Author

Khepar, Varinder, Sidhu, Anjali, and Sharma, Anju Bala

Subjects
RICE quality, SEED quality, ZINC sulfide, FUSARIUM, GENTIAN violet, RICE seeds, SEEDLINGS
Abstract

BACKGROUND: The seed‐borne mycopathogen Fusarium verticilliodes is a serious and deleterious pathogen causing substantial losses of rice seeds and grains. Rice seeds are prone to infestation at all points of the production chain and the fungal pathogen continues dormant devastation even during storage, adversely affecting the seed parameters. Its control is compromised due to the nonavailability of recommended fungicides during storage. Nanotechnological interventions can provide effective and ecofriendly alternative against mycopathogens during resting periods. Herein, the zinc sulfide‐meerschaum nano bio‐matrix (nZnS‐MR) is presented to show this strategy, which worked well against F. verticilliodes when applied on freshly harvested rice seeds during 6 months of storage. RESULTS: The healthy, smooth and rounded girths of F. verticilloides mycelium were reduced with loss of turgidity, disrupting the hyphal exterior architecture, during in vitro treatment with nZnS‐MR, endorsed by staining methodology, crystal violet and intracellular soluble protein leakage assays. In vivo application on rice seeds optimized 750 μg g−1 of nano zinc sulfide (nZnS) for 6 months of application during storage with maximum reduction of disease parameters [seedling blight (1.19%) and seed rot (5.43%)] and most augmented quality parameters [maximum germination (94.14%), seedling length (22.50 cm), dry weight (0.121 g) and vigor index (11.37)]. nZnS‐MR acted as a slow release nanoformulation of nZnS for long‐term antifungal activity. CONCLUSION: nZnS‐MR is presented as an ecofriendly, biocompatible, bio‐efficient, profertilization, cost‐effective green material for the control of F. verticilliodes with rice seed invigorating effect, describing it as new a nano‐generation material for efficient storage application. [ABSTRACT FROM AUTHOR]

Published
2023
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17. Topologically Zn2+hybridized ZnS nanospheres (Zn2+/nZnS) efficiently restrained the infection of Fusarium verticillioidesin rice seeds by hyphal disorganization and nutritional modulationElectronic supplementary information (ESI) available. See DOI: 10.1039/d2en00914e

Author

Khepar, Varinder, Sidhu, Anjali, and Sharma, Anju Bala

Abstract

Surface-modified zinc sulfide nanoparticles (ZnS NPs) were prepared and their zeta potentials modulated by the topological adsorption of Zn2+and S2−ions viathe common ion adsorption property of colloids to visualize the effect of surface charge on their antifungal potential. The in vitrosuppression of Fusarium verticillioidesby ZnS©-6 NPs (ζ= +20.04 mV) revealed the charge-dependent enhancement in their antifungal potential, indicating that electrostatic interactions are their interactive mode. Specifically, the variation in the zeta potential of the fungal hyphae was measured to range from ζ= −13.20 mV to ζ= −5.34 mV during contact with the positively charged ZnS NPs. The SEM-EDS analysis and staining of the treated hyphae confirmed the association of the nanoparticles on the external surface of the hyphae, disrupting their external structure, which resulted in the leakage of their intercellular proteins, and finally their death. Nanopriming of rice seeds with ZnS©-6 NPs at 48 μg mL−1for 8 h significantly reduced the seed rot (66.62%) and seedling blight (75.27%) to the maximum extent compared to carbendazim as the standard fungicide. The enhancement in seed invigorating factors, i.e., germination (47.82%), shoot length (68.03%), root length (51.46%), dry weight (39.86%) and vigor index (68.63%), was maximum at this concentration with respect to the hydroprimed seeds (control). The positively charged ZnS©-6 NPs supported 2.5-times higher nutritional Zn modulation in the treated seedlings compared to the hydroprimed rice seeds serving as the control. Overall, these results suggest that ZnS©-6 NPs are potential dual-targeting bio-assimilative and agro-compatible nanoplatforms for constraining the growth of F. verticillioidesin rice seeds with health invigorating effects.

Published
2023
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