通过杂交和回交将沼泽水牛转变为奶和肉的生产者

L. Cruz
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Utilization of the existing population of swamp buffaloes to meet the growing domestic demand for milk and meat, against the background of increasing farm mechanization, is a good reason to transform the huge number of draft animals into producers of milk and meat. According to the UNDP/FAO-assisted project in the Philippines carried from 1982 to 1998, that crossing swamp buffalo and riverine buffaloes, despite the differences in chromosome numbers, is producing crossbreds with high growth rate potentials and milk production abilities several folds over the swamp buffalo parents. The known fact that swamp and riverine buffaloes have different chromosome number, the diploid chromosome number of the swamp buffalo is 48 and that of the river buffalo is 50. When crossbreeding between the 2 buffalo types occur, males and females of the F1 generation are heterozygous for the fusion and are apparently fertile with chromosome 2n = 49. Three-way crossbred hybrids were obtained by (native buffalo x Murrah x Nili Ravi) or (native buffalo x Nili Ravi x Murrah). They had two chromosome categories viz. 2n=49 and 2n=50, respectively. Crossbreeding Swamp with Riverine Breed is done for quality beef . Most of the NT produced TenderBuff is farm-bred or purchased from other suppliers as swamp buffalo yearlings and growth out for a further 8 – 16 months to achieve target weights on the pastures. The reproductive performance of F1 females produced out of crossing Murrah buffalo and Philippine carabao are not different. Assessment of the fertility of F1 bulls was made on the basis of the pregnancy rate obtained from AI on Philippine carabaos using frozen semen. The data indicated that there was no significant difference between the pregnancy rate of the Philippine carabaos inseminated with either Murrah buffaloes or F1 frozen semen. However, a signigicant difference on conception rate was observed (P < 0.05) compared to hybrid with 2n = 50 chromosomes. The calving rate of hybrids with 2n = 49 chromosomes decreased by 17.77 – 17.89% and the total calves reduced by 1.33 – 1.54 heads from the first calving to age of 11 years. The fundamental initiative that is most consistent with the envisaged improvement in the productivity of the carabao is the establishment of germplasm pools from where superior materials can be obtained on a sustainable basis such as Gene Pools for Selected Native Philippine Carabao (PC), Gene Pool for Riverine Buffalo for Meat Improvement, Gene Pool for Improvement for Milk Production. From the above point of view, the future will see sustained and more intensive efforts to pursue the goal of transforming genetically the traditionally draft animal to producer of milk and meat and eventually establishment of viable and progressive buffalo-based enterprises. 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引用次数: 7

摘要

世界上有两种主要的水牛,河流型和沼泽型。沼泽水牛的总数为3760万头,占世界水牛总数的21.8%。沼泽水牛在依赖动物的农业系统中起着重要作用。但是,在灌溉地区,集约化水稻生产变得更加明显,这导致小型农业机械的利用率增加,大大取代了土地耕作的水牛。在一定程度上,引进拖拉机对玉米、甘蔗等产区的作物进行整地和运输也有类似的效果。在农业机械化程度不断提高的背景下,利用现有沼泽水牛种群来满足国内对奶和肉日益增长的需求,是将数量庞大的役畜转变为奶和肉生产者的一个很好的理由。根据1982年至1998年在菲律宾进行的开发计划署/粮农组织协助的项目,杂交沼泽水牛和河流水牛,尽管染色体数目不同,但产生的杂交品种具有高生长潜力和产奶能力,是沼泽水牛亲本的几倍。已知的事实是沼泽水牛和河流水牛的染色体数目不同,沼泽水牛的二倍体染色体数目为48,河流水牛的二倍体染色体数目为50。当两种水牛杂交时,F1代雄性和雌性为杂合子,染色体2n = 49,明显可育。通过(本地水牛x Murrah x Nili Ravi)或(本地水牛x Nili Ravi x Murrah)获得三元杂交杂种。它们有两个染色体类别,分别是2n=49和2n=50。沼泽与河流品种杂交是为了获得优质牛肉。大多数北领地生产的TenderBuff都是农场饲养的,或者是从其他供应商那里购买的,作为沼泽水牛的一岁仔,在牧场上再生长8 - 16个月,达到目标体重。穆拉水牛与菲律宾水牛杂交产生的F1雌性繁殖性能没有差异。利用冷冻精液对菲律宾大鲵进行人工授精,获得受孕率,对F1公牛的育性进行评价。结果表明,用穆拉水牛和F1冷冻精液受精的菲律宾水牛受孕率无显著差异。但与2n = 50染色体杂交的受精率有显著差异(P < 0.05)。2n = 49染色体杂交种的产犊率从第一次产犊到11岁减少了17.77 ~ 17.89%,总产仔数减少了1.33 ~ 1.54头。与提高卡拉巴生产力的设想最一致的根本举措是建立种质资源库,从那里可以可持续地获得优质材料,如菲律宾精选本地卡拉巴基因库(PC)、肉品改良河流水牛基因库、牛奶生产改良基因库。从上述观点来看,未来将会看到持续和更密集的努力,以追求将传统的役用动物转化为奶和肉的生产者的目标,并最终建立可行和进步的水牛企业。关键词:沼泽水牛,杂交,回交
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Transforming Swamp Buffaloes to Producers of Milk and Meat Through Crossbreeding and Backcrossing
There are two major types of water buffaloes in the world, the riverine type and the swamp type. The total number of Swamp buffalo is 37.6 M and represents 21.8% of the world’s buffalo population. The swamp buffaloes have played a major role in draft animal-dependent farming system. But intensified rice production became more pronounced in irrigated areas and this has led to increased utilization of small farm machineries, displacing significantly the draft buffaloes for land tillage. To some extent, the introduction of tractors for land preparation and transport for corn, sugarcane and other crops in production areas has similar effect. Utilization of the existing population of swamp buffaloes to meet the growing domestic demand for milk and meat, against the background of increasing farm mechanization, is a good reason to transform the huge number of draft animals into producers of milk and meat. According to the UNDP/FAO-assisted project in the Philippines carried from 1982 to 1998, that crossing swamp buffalo and riverine buffaloes, despite the differences in chromosome numbers, is producing crossbreds with high growth rate potentials and milk production abilities several folds over the swamp buffalo parents. The known fact that swamp and riverine buffaloes have different chromosome number, the diploid chromosome number of the swamp buffalo is 48 and that of the river buffalo is 50. When crossbreeding between the 2 buffalo types occur, males and females of the F1 generation are heterozygous for the fusion and are apparently fertile with chromosome 2n = 49. Three-way crossbred hybrids were obtained by (native buffalo x Murrah x Nili Ravi) or (native buffalo x Nili Ravi x Murrah). They had two chromosome categories viz. 2n=49 and 2n=50, respectively. Crossbreeding Swamp with Riverine Breed is done for quality beef . Most of the NT produced TenderBuff is farm-bred or purchased from other suppliers as swamp buffalo yearlings and growth out for a further 8 – 16 months to achieve target weights on the pastures. The reproductive performance of F1 females produced out of crossing Murrah buffalo and Philippine carabao are not different. Assessment of the fertility of F1 bulls was made on the basis of the pregnancy rate obtained from AI on Philippine carabaos using frozen semen. The data indicated that there was no significant difference between the pregnancy rate of the Philippine carabaos inseminated with either Murrah buffaloes or F1 frozen semen. However, a signigicant difference on conception rate was observed (P < 0.05) compared to hybrid with 2n = 50 chromosomes. The calving rate of hybrids with 2n = 49 chromosomes decreased by 17.77 – 17.89% and the total calves reduced by 1.33 – 1.54 heads from the first calving to age of 11 years. The fundamental initiative that is most consistent with the envisaged improvement in the productivity of the carabao is the establishment of germplasm pools from where superior materials can be obtained on a sustainable basis such as Gene Pools for Selected Native Philippine Carabao (PC), Gene Pool for Riverine Buffalo for Meat Improvement, Gene Pool for Improvement for Milk Production. From the above point of view, the future will see sustained and more intensive efforts to pursue the goal of transforming genetically the traditionally draft animal to producer of milk and meat and eventually establishment of viable and progressive buffalo-based enterprises. Key words: Swamp buffalo, crossbreeding, backcrossing
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