new model high oil yielding oil press plant in cameroon
- Product Using: Producing Cooking Oil
- Type: Cooking Oil Press Plant
- Main Machinery: Cooking Oil Press Plant Machine
- Production Capacity: 1t/day-1t/hour
- Voltage: 380V
- Dimension(L*W*H): refer to capacity
- Weight: 10000 KG
- Core Components: Motor, Pressure vessel, Pump
- Oil function: to extract oil from all kinds of oil cake
- Raw material: cooking oil cake, cooking oil cake, cooking oil cake, etc.
- Application: Edible Oil Production Line
- Advantage: Energy Saving Low Residual
- Material: Carbon Steel Stainless Steel
- Capacity: 5-500t/d
- Feature: Multifunction High Efficient
- Color: Custom-made
- Quality: China Profesional High Quality
- Product name: cooking oil solvent extraction plant for soy oil making manufacturer
- Project Location: cameroon
Genotype × environment interactions and oil content stability
Stability analysis identified the high oil content genotypes Blanc and Campana as the best lines for multilocation trials and these varieties could be released and used in breeding programs and development of mapping population to identify quantitative trait loci governing oil content. High oil content of peanut is a crucial trait for the processing industry, especially in developing countries
Oil palm (Elaeis guineensis Jacq.) is a heterogeneous, perennial crop having long breeding cycle with a genome size of 1.8 Gb. The demand for vegetable oil is steadily increasing, and expected that nearly 240–250 million tons of vegetable oil may be required by 2050. Genomics and next generation technologies plays crucial role in achieving the sustainable availability of oil palm with good
Genotype × Environment Interactions for Oil Content in Peanut
High oil content genotypes with superior and stable agronomic performance and high oil content were identified and promoted to multilocation adaptive trials required for their release for cultivation and used as parents in breeding programs and development of mapping population to identify quantitative trait loci governing oil content. Peanut (Arachis hypogaea L.) genotypes with superior and
Two Dura genotypes viz., IC0610049-40 and IC0610051-71 with high FFB yield (276.2 and 234.6 kg palm-1 year-1, respectively) with more number of bunches palm-1 year-1 (15.3 and 16.7, respectively) and high oil to bunch ratio (20.9% for both) and one Tenera genotype IC0610049-39 with 202.5 kg FFB with 11.7 bunches palm-1 year-1 and 23.0 per cent
Breeding and Genetics of the Oil Palm
The oil palm, being the highest yielding oil crop and its versatile oil uses besides food would play an increasingly important role, especially with new countries venturing into planting oil palm. The challenge is to be able to produce more palm oil sustainably in the future scenario of depleting suitable land, energy, environment, and,
Oil yield had significant positive correlation with oil content (0.43 to 0.74) and kernel yield (0.96 to 1.00), although the correlations were highest with kernel yield. Moreover, pod yield has no negative association with oil content, indicating that both can be improved simultaneously to realize high oil yield per unit area.
Breeding for oil yield and short oil palms in the second
for oil is predicted as a result of future increase in the world population and in per capita consump- tion of oils and fats (OilWorld 2004).Palm oil can contribute signicantly to meet this demand in view of its high yield (4–5 t/ha/year) (Barison and Ma 2000);almostthree timesthe yield of coconut and more than ten times that of soybean (Rajanaidu and Jalani 1994).Further improve- ment of
In Cameroon, palm oil meets 80% of total edible oil needs and it is estimated that 30% of crude palm oil (CPO) production is provided by none industrial oil mills.
Experimental modification of reciprocal recurrent selection
The recorded palm oil yield mean 5.52 ton ha -1 was remarkable high compared to the current Cameroon commercial variety (4.52 ton ha -1 ; thus 122%) reported by Bakoume et al. (2010). The Duncan's
Broad sense heritability was found to be very low for all the yield traits, however this parameter was high for vegetative traits with palm height having hB2 of 90%. In practice, progeny and individual palm selection are believed to be the most suitable breeding approach for improvement of quantitative traits in oil palm because their phenotypic expressions are strongly influenced by abiotic
