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Optimization of pre-sowing magnetic field doses through RSM in pea

100%

Iqbal M., Ahmad I., Hussain S. M., Khera R. A., Bokhari T. H., Shehzad M. A.

International Agrophysics

2013

tom 27

nr 3

Seed pre-sowing magnetic field treatment was reported to induce biochemical and physiological changes. In the present study, response surface methodology was used for deduction of optimal magnetic field doses. Improved growth and yield responses in the pea cultivar were achieved using a rotatable central composite design and multivariate data analysis. The growth parameters such as root and shoot fresh masses and lengths as well as yield were enhanced at a certain magnetic field level. The chlorophyll contents were also enhanced significantly vs. the control. The low magnetic field strength for longer duration of exposure/ high strength for shorter exposure were found to be optimal points for maximum responses in root fresh mass, chlorophyll ‘a’ contents, and green pod yield/plant, respectively and a similar trend was observed for other measured parameters. The results indicate that the magnetic field pre-sowing seed treatment can be used practically to enhance the growth and yield in pea cultivar and response surface methodology was found an efficient experimental tool for optimization of the treatment level to obtain maximum response of interest.

Cytotoxicity and antimicrobial activity of pivalic and benzoic acid complexed Cu and Mn complexes

84%

Ali B., Tahir S., Akhtar M. N., Yameen M., Ashraf R., Hussain T., Ghaffar A., Abbas M., Bokhari T. H., Iqbal M.

Polish Journal of Environmental Studies

2017

tom 26

nr 6

The complexes of Cu and Mn metals with carboxylates (pivalic acid and benzoic acid) and imidazole were prepared and characterized. The synthesized complexes were screened for antimicrobial activity and cytotoxicity. The FTIR technique was used for characterization. The antibacterial assay revealed that the ligand and complexes are active against Escherichia coli, Staphylococcus aureus and Pasteurella multocida bacterial strains. The haemolytic assay revealed that [Cu(imi)(N₃)] and [MnIII(piv)(imi)(N₃)] were nontoxic, whereas [Cu(piv)(imi)] and [MnIII(Benz)(imi)(OCH₃)] showed moderate toxicity, and [Mn(Him)(N₃)₂] was highly toxic against human red blood cells (RBCs). Results revealed that Cu and Mn complexes with carboxylates (pivalic acid and benzoic acid) have antimicrobial activities. However, haemlytic assay revealed that the metal complex cytotoxicity was variable and biological activity evaluatuion of newly synthesized metals complexes is suggested for safe applications.

Gamma radiation treatment for reducing cytotoxicity and mutagenicity in industrial wastewate

84%

Iqbal M., Abbas M., Arshad M., Hussain T., Khan A. U., Masood N., Tahir M. A., Hussain S. M., Bokhari T. H., Khera R. A.

Polish Journal of Environmental Studies

2015

tom 24

nr 6

Ograniczanie wyników

2 Polish Journal of Environmental Studies

1 International Agrophysics

3 Bokhari T. H.

3 Iqbal M.

2 Abbas M.

2 Hussain S. M.

2 Hussain T.

2 Khera R. A.

1 Ahmad I.

1 Akhtar M. N.

1 Ali B.

1 Arshad M.

1 Ashraf R.

1 Ghaffar A.

1 Khan A. U.

1 Masood N.

1 Shehzad M. A.

1 Tahir M. A.

1 Tahir S.

1 Yameen M.

1 2017

1 2015

1 2013

Wyniki wyszukiwania

Optimization of pre-sowing magnetic field doses through RSM in pea

Cytotoxicity and antimicrobial activity of pivalic and benzoic acid complexed Cu and Mn complexes

Gamma radiation treatment for reducing cytotoxicity and mutagenicity in industrial wastewate