{"title":"未来油棕种植材料的进展","authors":"R. Nookiah","doi":"10.56333/tp.2022.005","DOIUrl":null,"url":null,"abstract":"The development of shorter planting materials based on MPOB Nigerian population 12 and E.oleifera x E.guineensis inter-specific hybrids is highlighted in this paper. The progeny test results of Nigerian Population 12 with selected Deli duras showed that the DxP oil yield ranges from 8.1-8.5 tonnes per hectare per year. The height increment of DxP is 33-39 cm per year. In comparison, the height increment of Deli x AVROS is about 60 cm per annum. In Colombia where DxP commercial plantations are devastated by bud rot disease, Cinepalma demonstrated that application of naphthalene acetic acid (NAA) increased the oil yield of inter-specific hybrids which are tolerant to the disease. It was demonstrated in commercial plantations that applying NAA can produce more than 40 tonnes fresh fruit bunch (FFB) per hectare per year, with an extraction rate of about 27 per cent giving >10 tonnes oleic oil per hectare. The tissue culture labs in Kuala Lumpur-Kepong (KLK) and Asian Agri are also cloning their elite Deli duras and pisiferas to create semi- and bi- seeds. Applied Agricultural Resources (AAR) is the largest semi-clonal seed producer in Malaysia, and produces about 8 million per year and sells the seeds at a premium. A number of plantation companies in Malaysia and Indonesia have initiated programmes to produce Ganoderma tolerant planting material. Companies have adopted an integrated disease management (IDM) approach, covering land preparation, planting tolerant varieties, use bioagents, early detection, and removal of infected materials. Asian Agri AA TOPAZ GT variety, partially tolerant to Ganoderma, has an average oil yield potential of 9.2 tonnes crude palm oil (CPO) per hectare per year. Digitalisation refers to the process of integrating advanced digital technologies such as artificial intelligence (AI), big data, robotics, unmanned aerial vehicle (UAV), sensors, and communication networks, all connected through Internet of Things (IoT) into farm production system. A major breakthrough was achieved by the oil palm Genome Programme at the Malaysian Palm Oil Board (MPOB), where the identification of the gene controlling Shell has made it possible to identify and differentiate dura, tenera and pisifera at the nursery stage. This led to the first molecular diagnostic assay known as SureSawitTMSHELL, which the breeders can use to identify and isolate dura, tenera and pisifera seedlings from TxT and TxP breeding crosses. The kit can be used for identification of dura and pisifera contaminants in the nursery and more recently at the seed production facility. The planter has an important role to help realise the full potential of planting materials. The planter’s role starts from receipt of germinated seeds to field planting. The planter is assigned to monitor ripeness standard, harvesting, loose fruit collection and managing of workers, all of which are major tasks to ensure productivity. Climate change is real and we have to confront drought and floods more frequently. In order to minimise the impact of drought, it is advisable to plant planting materials with high bunch number. MPOB has collected oil palm germplasm in the dry areas of Nigeria. This germplasm has attributes such as high bunch number, low bunch weight and high chlorophyll content in the leaves. 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In Colombia where DxP commercial plantations are devastated by bud rot disease, Cinepalma demonstrated that application of naphthalene acetic acid (NAA) increased the oil yield of inter-specific hybrids which are tolerant to the disease. It was demonstrated in commercial plantations that applying NAA can produce more than 40 tonnes fresh fruit bunch (FFB) per hectare per year, with an extraction rate of about 27 per cent giving >10 tonnes oleic oil per hectare. The tissue culture labs in Kuala Lumpur-Kepong (KLK) and Asian Agri are also cloning their elite Deli duras and pisiferas to create semi- and bi- seeds. Applied Agricultural Resources (AAR) is the largest semi-clonal seed producer in Malaysia, and produces about 8 million per year and sells the seeds at a premium. A number of plantation companies in Malaysia and Indonesia have initiated programmes to produce Ganoderma tolerant planting material. Companies have adopted an integrated disease management (IDM) approach, covering land preparation, planting tolerant varieties, use bioagents, early detection, and removal of infected materials. Asian Agri AA TOPAZ GT variety, partially tolerant to Ganoderma, has an average oil yield potential of 9.2 tonnes crude palm oil (CPO) per hectare per year. Digitalisation refers to the process of integrating advanced digital technologies such as artificial intelligence (AI), big data, robotics, unmanned aerial vehicle (UAV), sensors, and communication networks, all connected through Internet of Things (IoT) into farm production system. A major breakthrough was achieved by the oil palm Genome Programme at the Malaysian Palm Oil Board (MPOB), where the identification of the gene controlling Shell has made it possible to identify and differentiate dura, tenera and pisifera at the nursery stage. 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引用次数: 0
摘要
本文重点介绍了以MPOB尼日利亚居群12和油橄榄与几内亚橄榄种间杂交种为基础的矮秆种植材料的开发。尼日利亚种群12选用Deli duras的子代试验结果表明,DxP石油产量为每年每公顷8.1-8.5吨。DxP的高度增长量为33 ~ 39 cm /年。相比之下,Deli x AVROS的高度增量约为每年60 cm。在哥伦比亚,DxP商业种植园受到芽腐病的破坏,Cinepalma证明,施用萘乙酸(NAA)提高了耐该疾病的种间杂交种的油产量。在商业种植园中,应用NAA每年每公顷可生产40吨以上的新鲜果束(FFB),提取率约为27%,每公顷可生产10吨以上的油料。吉隆坡吉邦(KLK)和亚洲农业的组织培养实验室也在克隆他们的优质德利硬膜和pisifera,以创造半种子和双种子。应用农业资源公司(AAR)是马来西亚最大的半克隆种子生产商,每年生产约800万颗种子,并以溢价出售种子。马来西亚和印度尼西亚的一些种植园公司已经启动了生产耐灵芝种植材料的方案。各公司采用了综合病害管理方法,包括土地准备、种植耐受性品种、使用生物制剂、早期检测和去除受感染材料。亚洲农业AA TOPAZ GT品种,部分耐受灵芝,平均每公顷每年有9.2吨的原油产量潜力(CPO)。数字化是指将人工智能(AI)、大数据、机器人、无人机(UAV)、传感器、通信网络等先进数字技术通过物联网(IoT)连接到农业生产系统中的过程。马来西亚棕榈油委员会(MPOB)的油棕基因组计划取得了重大突破,其中鉴定了控制壳的基因,使得在苗圃阶段鉴定和区分硬脑膜,tenera和pisifera成为可能。这导致了第一个被称为SureSawitTMSHELL的分子诊断试验,育种者可以使用它从TxT和TxP育种杂交中鉴定和分离硬脑膜,tenera和pisifera幼苗。该试剂盒可用于鉴定苗圃和最近的种子生产设施中的硬脑膜和pisifera污染物。播种机在帮助实现种植材料的全部潜力方面发挥着重要作用。播种机的作用从接收发芽的种子到田间种植。种植园主负责监督成熟标准、收获、散果收集和工人管理,这些都是确保生产力的主要任务。气候变化是真实的,我们不得不更频繁地面对干旱和洪水。为尽量减少干旱的影响,宜选用高束数的种植材料。MPOB在尼日利亚干旱地区收集了油棕种质。该种质具有高束数、低束重和叶片叶绿素含量高的特点。这些性状对开发耐旱种植材料具有重要意义。
ADVANCEMENT IN OIL PALM PLANTING MATERIALS IN THE FUTURE
The development of shorter planting materials based on MPOB Nigerian population 12 and E.oleifera x E.guineensis inter-specific hybrids is highlighted in this paper. The progeny test results of Nigerian Population 12 with selected Deli duras showed that the DxP oil yield ranges from 8.1-8.5 tonnes per hectare per year. The height increment of DxP is 33-39 cm per year. In comparison, the height increment of Deli x AVROS is about 60 cm per annum. In Colombia where DxP commercial plantations are devastated by bud rot disease, Cinepalma demonstrated that application of naphthalene acetic acid (NAA) increased the oil yield of inter-specific hybrids which are tolerant to the disease. It was demonstrated in commercial plantations that applying NAA can produce more than 40 tonnes fresh fruit bunch (FFB) per hectare per year, with an extraction rate of about 27 per cent giving >10 tonnes oleic oil per hectare. The tissue culture labs in Kuala Lumpur-Kepong (KLK) and Asian Agri are also cloning their elite Deli duras and pisiferas to create semi- and bi- seeds. Applied Agricultural Resources (AAR) is the largest semi-clonal seed producer in Malaysia, and produces about 8 million per year and sells the seeds at a premium. A number of plantation companies in Malaysia and Indonesia have initiated programmes to produce Ganoderma tolerant planting material. Companies have adopted an integrated disease management (IDM) approach, covering land preparation, planting tolerant varieties, use bioagents, early detection, and removal of infected materials. Asian Agri AA TOPAZ GT variety, partially tolerant to Ganoderma, has an average oil yield potential of 9.2 tonnes crude palm oil (CPO) per hectare per year. Digitalisation refers to the process of integrating advanced digital technologies such as artificial intelligence (AI), big data, robotics, unmanned aerial vehicle (UAV), sensors, and communication networks, all connected through Internet of Things (IoT) into farm production system. A major breakthrough was achieved by the oil palm Genome Programme at the Malaysian Palm Oil Board (MPOB), where the identification of the gene controlling Shell has made it possible to identify and differentiate dura, tenera and pisifera at the nursery stage. This led to the first molecular diagnostic assay known as SureSawitTMSHELL, which the breeders can use to identify and isolate dura, tenera and pisifera seedlings from TxT and TxP breeding crosses. The kit can be used for identification of dura and pisifera contaminants in the nursery and more recently at the seed production facility. The planter has an important role to help realise the full potential of planting materials. The planter’s role starts from receipt of germinated seeds to field planting. The planter is assigned to monitor ripeness standard, harvesting, loose fruit collection and managing of workers, all of which are major tasks to ensure productivity. Climate change is real and we have to confront drought and floods more frequently. In order to minimise the impact of drought, it is advisable to plant planting materials with high bunch number. MPOB has collected oil palm germplasm in the dry areas of Nigeria. This germplasm has attributes such as high bunch number, low bunch weight and high chlorophyll content in the leaves. These traits are useful to develop drought tolerant planting materials.