The place of the oil palm, Elaeis guineensis Jacq., in the market for fats of vegetable commodities makes it a strategic plant which requires continuous improvement. In this context, it seems appropriate to better des...The place of the oil palm, Elaeis guineensis Jacq., in the market for fats of vegetable commodities makes it a strategic plant which requires continuous improvement. In this context, it seems appropriate to better describe the effects of the Sh gene in the developing fruit. This study aims to set a benchmark for the development of the seed in the natural palm (Elaeis guineensis var. dura) Thus the growth and development of the two major seed tissues were monitored every two weeks from pollination to maturity of the fruit. The results show that the endosperm is still liquid six weeks after pollination. It then begins an accelerated development which leads it, 11 weeks later, to completely fill the seed cavity, with an average mass of 0.81 g. This mass remains stable until the maturity of the fruit. The embryo is only visible when the endosperm is gelatinous, around 70 DPP (days post-pollination). It then has an average length of 1.00 mm. At 126 DPP, the embryo has finished growing and measures 2.82 mm on average. This length also remains stable until 168 DPP (3.04 mm). In perspective, a detailed follow-up of the development of the zygote from the pollination to 100 DPP is proposed. In parallel, the analysis of the chemical composition of the endosperm between 100 DPP and 168 DPP is necessary. These two complementary studies will allow to better specifying the benchmark of seed development in Elaeis guineensis var. dura.展开更多
This work aims to study the development of the pericarp of the fruit of Elaeis guineensis Jacq. var. dura. The thickness, the water and the oil contents of its tissues are evaluated every two weeks, from pollination t...This work aims to study the development of the pericarp of the fruit of Elaeis guineensis Jacq. var. dura. The thickness, the water and the oil contents of its tissues are evaluated every two weeks, from pollination to the maturity of the fruit. The development of the oil palm fruit takes 5.5 months. The endocarp reaches its maximum thickness at the 70th DPP (day post-pollination), with a water content of 72%. It then starts its dehydration, while sclerifying. It therefore isolates the seed at start and later protects it. The mesocarp is visible at anthesis and its water content is close to 92%. From the 100th DPP, it begins a continuous dehydration associated, from the 130th DPP, with an active lipids biosynthesis. Ultimately, the pericarp of the oil palm fruit fulfills both functions, namely to protect the seed by early sclerification of the endocarp and ensure the dissemination of the species by the high oil content of the mesocarp. A comparative anatomy of the pericarp tissues of the three genotypes.of E. guineensis Jacq., during the first three weeks of fruit development, will enhance the understanding of the primary effect of sh gene.展开更多
文摘The place of the oil palm, Elaeis guineensis Jacq., in the market for fats of vegetable commodities makes it a strategic plant which requires continuous improvement. In this context, it seems appropriate to better describe the effects of the Sh gene in the developing fruit. This study aims to set a benchmark for the development of the seed in the natural palm (Elaeis guineensis var. dura) Thus the growth and development of the two major seed tissues were monitored every two weeks from pollination to maturity of the fruit. The results show that the endosperm is still liquid six weeks after pollination. It then begins an accelerated development which leads it, 11 weeks later, to completely fill the seed cavity, with an average mass of 0.81 g. This mass remains stable until the maturity of the fruit. The embryo is only visible when the endosperm is gelatinous, around 70 DPP (days post-pollination). It then has an average length of 1.00 mm. At 126 DPP, the embryo has finished growing and measures 2.82 mm on average. This length also remains stable until 168 DPP (3.04 mm). In perspective, a detailed follow-up of the development of the zygote from the pollination to 100 DPP is proposed. In parallel, the analysis of the chemical composition of the endosperm between 100 DPP and 168 DPP is necessary. These two complementary studies will allow to better specifying the benchmark of seed development in Elaeis guineensis var. dura.
文摘This work aims to study the development of the pericarp of the fruit of Elaeis guineensis Jacq. var. dura. The thickness, the water and the oil contents of its tissues are evaluated every two weeks, from pollination to the maturity of the fruit. The development of the oil palm fruit takes 5.5 months. The endocarp reaches its maximum thickness at the 70th DPP (day post-pollination), with a water content of 72%. It then starts its dehydration, while sclerifying. It therefore isolates the seed at start and later protects it. The mesocarp is visible at anthesis and its water content is close to 92%. From the 100th DPP, it begins a continuous dehydration associated, from the 130th DPP, with an active lipids biosynthesis. Ultimately, the pericarp of the oil palm fruit fulfills both functions, namely to protect the seed by early sclerification of the endocarp and ensure the dissemination of the species by the high oil content of the mesocarp. A comparative anatomy of the pericarp tissues of the three genotypes.of E. guineensis Jacq., during the first three weeks of fruit development, will enhance the understanding of the primary effect of sh gene.
