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Characterization of Physical, Thermal and Spectral Properties of Biofield Treated Date Palm Callus Initiation Medium

By Trivedi Effect
November 09, 2015

Journal: International Journal of Nutrition and Food Science PDF  

Published: 9-Nov-15 Volume: 4 Issue: 6 Pages: 660-668

DOI: 10.11648/j.ijnfs.20150406.20 ISSN: 2327-2694 (Print) 2327-2716 (Online)

Authors: Mahendra Kumar Trivedi, Alice Branton, Dahryn Trivedi, Gopal Nayak, Rakesh Kumar Mishra, Snehasis Jana

Citation: Mahendra Kumar Trivedi, Alice Branton, Dahryn Trivedi, Gopal Nayak, Rakesh Kumar Mishra, Snehasis Jana. Characterization of Physical, Thermal and Spectral Properties of Biofield Treated Date Palm Callus Initiation Medium. International Journal of Nutrition and Food Sciences. Vol. 4, No. 6, 2015, pp. 660-668. doi: 10.11648/j.ijnfs.20150406.20

 

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Abstract

The date palm is mainly cultivated for the production of sweet fruit. Date palm callus initiation medium (DPCIM) is used for plant tissue culture applications. The present work is intended to evaluate the impact of Mr. Trivedi’s biofield energy treatment on physical, thermal and spectral properties of the DPCIM. The control and treated DPCIM were evaluated by various analytical techniques such as X-ray diffraction (XRD), differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), Fourier transform infrared (FT-IR) spectroscopy, particle size analyzer (PSA), surface area analyzer and ultra violet-visible spectroscopy (UV-vis) analysis. The XRD analysis revealed a decrease in intensity of XRD peaks of the treated sample as compared to the control. The crystallite size of the treated DPCIM (81.02 nm) was decreased with respect to the control sample (84.99 nm). The DSC analysis showed a slight decrease in melting temperature of the treated sample. Additionally, the latent heat of fusion of treated sample was changed by 45.66% as compared to the control sample. The TGA analysis showed an increase in onset degradation temperature of the treated sample (182ºC) as compared to the control sample (142ºC). This indicated the increase in thermal stability of the treated DPCIM. PSA results demonstrated an increase in average particle size (d50) and size showed by 99% of particles (d99) by 19.2 and 40.4%, respectively as compared to the control sample. The surface area analyzer showed a decrease in surface area of treated DPCIM by 13.4%, which was well supported by the particle size results. UV spectra of the treated sample showed the disappearance of absorption peak 261 nm in treated sample as compared to the control. Overall, the result showed that biofield energy treatment has a paramount influence on physical, thermal and spectral properties of DPCIM. Therefore, it is assumed that biofield treated DPCIM could be used as a better medium for plant tissue culture applications.

Conclusion

In summary, the XRD analysis showed a decrease in crystallite size of treated DPCIM as compared to the control sample. Moreover, the intensity of the XRD peaks of treated sample was decreased with respect to the control. It is assumed that presence of micro strain causes a decrease in crystallite size of the treated sample. The DSC analysis showed a decrease in latent heat of fusion of treated sample by 45.66% with respect to the control sample. It is assumed that treated sample might be present in the high-energy state that led to an alteration in latent heat of fusion of the sample. The TGA evaluation showed a substantial increase in onset temperature of treated sample (182ºC) as compared to the control sample (142ºC). The PSA analysis results showed a substantial increase in d50 and d99 by 19.2 and 40.4% respectively with respect to control. This was well supported by surface area result that was decreased by 13.4% in the treated sample. It is presumed that the high thermal stability and bigger particle size might improve DPCIM uses as tissue culture medium. Hence, it is presumed that biofield treated DPCIM could be used as a medium for plant tissue culture applications.

 

 

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