Barcelos Edson, Rios Sara de Almeida, Cunha Raimundo N V, Lopes Ricardo, Motoike Sérgio Y, Babiychuk Elena, Skirycz Aleksandra, Kushnir Sergei
Embrapa Amazonia Ocidental, Empresa Brasileira de Pesquisa Agropecuária , Manaus, Brazil.
Department of Phytotechnology, Federal University of Viçosa, Viçosa , Brazil.
Front Plant Sci. 2015 Mar 27;6:190. doi: 10.3389/fpls.2015.00190. eCollection 2015.
African oil palm has the highest productivity amongst cultivated oleaginous crops. Species can constitute a single crop capable to fulfill the growing global demand for vegetable oils, which is estimated to reach 240 million tons by 2050. Two types of vegetable oil are extracted from the palm fruit on commercial scale. The crude palm oil and kernel palm oil have different fatty acid profiles, which increases versatility of the crop in industrial applications. Plantations of the current varieties have economic life-span around 25-30 years and produce fruits around the year. Thus, predictable annual palm oil supply enables marketing plans and adjustments in line with the economic forecasts. Oil palm cultivation is one of the most profitable land uses in the humid tropics. Oil palm fruits are the richest plant source of pro-vitamin A and vitamin E. Hence, crop both alleviates poverty, and could provide a simple practical solution to eliminate global pro-vitamin A deficiency. Oil palm is a perennial, evergreen tree adapted to cultivation in biodiversity rich equatorial land areas. The growing demand for the palm oil threatens the future of the rain forests and has a large negative impact on biodiversity. Plant science faces three major challenges to make oil palm the key element of building the future sustainable world. The global average yield of 3.5 tons of oil per hectare (t) should be raised to the full yield potential estimated at 11-18t. The tree architecture must be changed to lower labor intensity and improve mechanization of the harvest. Oil composition should be tailored to the evolving needs of the food, oleochemical and fuel industries. The release of the oil palm reference genome sequence in 2013 was the key step toward this goal. The molecular bases of agronomically important traits can be and are beginning to be understood at the single base pair resolution, enabling gene-centered breeding and engineering of this remarkable crop.
非洲油棕在栽培油料作物中生产力最高。该物种可构成单一作物,有能力满足全球对植物油不断增长的需求,预计到2050年植物油需求将达到2.4亿吨。商业规模上从棕榈果中提取两种植物油。粗棕榈油和棕榈仁油具有不同的脂肪酸组成,这增加了该作物在工业应用中的多功能性。当前品种的种植园经济寿命约为25至30年,且全年都结果。因此,可预测的年度棕榈油供应有助于制定营销计划并根据经济预测进行调整。油棕种植是潮湿热带地区最有利可图的土地利用方式之一。油棕果是维生素A原和维生素E最丰富的植物来源。因此,这种作物既能减轻贫困,又能为消除全球维生素A原缺乏问题提供一个简单可行的解决方案。油棕是一种多年生常绿树,适合在生物多样性丰富的赤道地区种植。对棕榈油不断增长的需求威胁着雨林的未来,并对生物多样性产生重大负面影响。植物科学面临三大挑战,以使油棕成为构建未来可持续世界的关键要素。全球平均每公顷产油量3.5吨应提高到估计的11至18吨的完全产量潜力。必须改变树型结构以降低劳动强度并提高收获机械化程度。油的成分应根据食品、油脂化工和燃料行业不断变化的需求进行调整。2013年油棕参考基因组序列的发布是朝着这一目标迈出的关键一步。农艺重要性状的分子基础能够且已经开始在单碱基对分辨率上得到理解,从而实现以基因为中心对这种非凡作物进行育种和工程改造。
