This experiment was conducted to investigate the response of pepper seeds germination process and vegetative growth traits in seedlings stages as well as plant growth and productivity of open field to rare earth elements (REEs) i.e., cerium nitrate, neodymium nitrate, and praseodymium nitrate at concentrations of 0.0, 0.5, 1.0, and 1.5 ppm. Among the various REEs treatments, cerium nitrate at 0.5, 1.0, and 1.5 ppm were more significantly effective than others in increasing most of the seedling parameters and 1.5 ppm cerium nitrate exhibited the maximum effect in germination characteristics with no significant differences among 0.5, 1.0 and 1.5 ppm cerium nitrate as well as 1.5 ppm neodymium in all germination parameters in both seasons. The superiority of vegetative growth, fruit physical and total yield as well as fruit chemical content (ascorbic acid and carbohydrates) were obtained with neodymium followed by praseodymium foliar spray applications with compared to cerium or control treatments. The foliar spray treatment of 1.5 ppm neodymium nitrate exhibited an increment up to 54.1, 23.7, 29.5, and 33.1% over that observed in the control of average fruit weight, fruit diameter, fruit length, and total yield, respectively.
Two experiments were conducted to investigate the influence of propolis ethanolic extract (PEE) on development and productivity of sweet pepper plants in the first experiment and both of PEE and propolis aqueous extract (PAE) through fruit shelf life at room temperature during June of seasons 2019 and 2020 for 7 days in the second experiment. The concentrations of the two extracts were 3%, 6%, 9% and 12%. The results indicated that PEE at concentrate 9% was sufficient to obtain maximum values of vegetative growth yield characters i.e., fruit diameter, average fruit weight and total yield/feddan except plant dry weight which registered highly values with level 6%. The augment results for chemical fruit content i.e., TSS and ascorbic acid were obtained by the application of 12% of PEE. Data also indicated in the second experiment after shelf life period that PEE and PAE at concentrate 12% was significantly able to obtain the least percentage of fruit physical characters expressed as fruit weight, length and diameter especially PEE which was most superior to PAE. Concerning fruit chemical contents, dipping the fruits in the high concentrate 12% of PEE was the most effective in reducing the increase of TSS, while the same concentrate of PAE had the ability to reduce loss of ascorbic acid. On the other hand, both of two extracts PEE and PAE at high level 12% resulted in reduced fruit deterioration percentage in treated fruits especially those produced from plants that were treated by the same level (12%) in comparison with control treatment.
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