Effect of modified atmosphere packaging on storability, shelf life and quality of snow peas [electronic resource]
Language: English Summary language: Arabic Description: p. 81-90Other title:- تأثير التعبئة فى الجو علي القدرة التخزينية ، وفترة البقاء والجودة في البسلة الجلدية [Added title page title]
- Hortscience journal of Suez Canal university, 2018 v. 7 (2) [electronic resource].
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Main | ART HJSU V7 NO2 10 (Browse shelf(Opens below)) | Available |
Includes bibliographic reference
Quinoa (Chenopodium quinoa Willd.) is a pseudocereal that has been cultivated in the Andean region for
thousands of years. It is considered as a new non-traditional leafy vegetable crop newly introduced to Egypt. Nitrogen is
more important than any other elements for plant growth. It plays a vital role in the growth, yield and nutritional quality
of leafy vegetable crops. In order to evaluate the influence of two sources of nitrogen (ammonium sulfate 20.6% and
calcium nitrate 15.5%) used at rates of 40, 60 and 80 kg N/fed. on vegetative growth and productivity of two quinoa
cultivars Cica and Hualhuas harvested after 40 days from sowing date. A field experiment was carried out at the
Experimental Farm of the Horticulture Department, Faculty of Agriculture, Ain Shams University, Shoubra El-Kheima,
Cairo, Egypt, during the two winter seasons of 2015 and 2016. The treatments were arranged in a split plot design, with
three replicates. The obtained results showed that Cica cultivar was superior to Hualhuas concerning all vegetative
growth parameters and yield except for leaf area in both seasons of the study. Regarding nitrogen rates and sources,
quinoa plants received 80 kg N/fed. from ammonium sulfate or calcium nitrate recorded the highest values of plant
length, leaf area, plant fresh and dry weights, and fresh and dry weights of leaves/plant, as well as leaf moisture content
without significant differences between the two nitrogen sources. On the other hand, the lowest values were recorded by
40 kg N/fed. from ammonium sulfate or calcium nitrate except for number of leaves/plant in both seasons and leaf
moisture content in the second season. However, no significant differences were detected among all nitrogen treatments
(rates or sources) on the number of leaves/plant. A higher significant yield was attained by ammonium sulfate at 80 kg
N/fed. in relative to the rest of nitrogen treatments. Concerning the interaction effect, the results clearly revealed that
Cica plants received calcium nitrate at 80 kg N/fed. gave the highest values of plant length. Furthermore, Cica plants
treated with 80 kg N/ fed. either from ammonium sulfate or calcium nitrate recorded significant increases in plant fresh
and dry weights as well as yield without significant differences between them. On the other hand, the best values of leaf
area were detected when Hualhuas plants were fertilized by 80 kg N/fed. from ammonium sulfate or calcium nitrate
without significant difference between them.
Summary in Arabic
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