Prospects for utilization of the relationship between zoometrical measurements and performance traits for poultry and livestock genetic improvement in developing countries

N. Assan
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引用次数: 3

Abstract

The preceding review looks at the prospects for utilization of the relationship between zoometrical measurements and performance traits for poultry and livestock genetic improvement in developing countries.  Improvement of poultry and livestock indigenous to developing countries is paramount in order to increase their contribution to the much needed animal protein due to human population increase in this part of the world. However, this is on the background that the estimates of genetic parameters for performance traits in poultry and livestock are scarce in  developing countries because of failure of  most attempted selection schemes, which has been  exacerbated  by the problems of measuring of performance traits due to lack of appropriate technologies.  Assessment of the performance of poultry and livestock species is done using various indices, most especially on growth and development traits as well as body conformational traits. The significant genotypic correlations between the body weight and the zoometrical measurements and the heritability of the body weight at various stages of livestock production indicate a systematic cause which can be important to consider for livestock breeding and selection purposes. In case, where the genetic correlations between zoometrical measurements and performance traits of concern are positive and high this implies that the traits are genetically linked. Morphological properties can provide to some extent a reasonable representation of the differences among the genotypes within the same species, though not exhaustive, it serves as the foundation upon which DNA analysis can be built. Selection for improved production within poultry and livestock breeds or ecotypes is problematic for one of the following reasons: for effective selection depends on accurate recording of pedigree and performance traits. The complexity of measuring some of the performance traits due to lack of necessary equipment or technology presents considerable obstacles to effective selection for improved performance in developing countries. Unlike the developing world, recently, DNA analysis through molecular markers has provided an invaluable new technology in poultry and livestock improvement for determining the relationships among individuals, breeds and ecotypes. To increase meat yield from poultry and livestock breeds in developing countries require genetic improvement of their live weight and other performance traits which have a history of relationship with linear body measurements. Proper measurement of live weight as a performance trait, which is often hard with resource poor rural farmers due to lack of weighing scale, is requisite for achieving this goal. The need for estimation of live weight from simple   and more easily measurable variable such as zoometrical measurements therefore arises. Therefore, the use of zoometrical measurements which are simple to measure and are highly correlated to desirable performance traits is feasible option for livestock genetic improvement in developing countries. The relationship between zoometrical measurements and performance traits, apart from being used for breed characterization should rather be used for pro poor poultry and livestock improvement ventures in developing countries, which are mainly constrained by lack of modern animal improvement technologies. Poultry and livestock improvement specialists need to establish the relationship that exists between easily measureable zoometrical measurements with performance traits and to organize the genetic improvement  programmes so as to achieve  optimum poultry and livestock performance  for maximum economic returns in developing countries.
在发展中国家利用动物测量和性能性状之间的关系进行家禽和牲畜遗传改良的前景
前面的审查着眼于在发展中国家利用动物测量和性能性状之间的关系进行家禽和牲畜遗传改良的前景。改善发展中国家的家禽和牲畜是至关重要的,以便增加它们对由于世界这一地区人口增加而急需的动物蛋白的贡献。然而,这是基于这样的背景:由于大多数尝试的选择方案失败,发展中国家对家禽和牲畜性能性状的遗传参数的估计很少,而由于缺乏适当的技术,性能性状的测量问题又加剧了这种情况。对畜禽生产性能的评价采用各种指标,尤其是生长发育性状和身体构象性状。体重与动物测量值之间的显著基因型相关性以及牲畜生产各阶段体重的遗传力表明了一个系统性的原因,这对于牲畜育种和选择的目的是重要的。在这种情况下,动物测量和关注的性能性状之间的遗传相关性是正的和高的,这意味着这些性状是遗传相关的。形态特征可以在一定程度上提供同一物种内基因型差异的合理表示,虽然不是详尽的,但它是DNA分析可以建立的基础。在家禽和牲畜品种或生态型中进行提高产量的选择是有问题的,原因之一是:有效的选择取决于对系谱和性能性状的准确记录。由于缺乏必要的设备或技术,测量某些性能特征的复杂性对发展中国家为提高性能而进行的有效选择构成了相当大的障碍。与发展中国家不同,最近,通过分子标记进行的DNA分析为家禽和牲畜改良提供了宝贵的新技术,用于确定个体、品种和生态型之间的关系。为了提高发展中国家家禽和牲畜品种的肉类产量,需要对其活重和其他与线性身体测量有历史关系的性能性状进行遗传改良。要实现这一目标,就必须对活重进行适当的测量,将其作为一项性能特征,而资源贫乏的农村农民由于缺乏称重秤,往往很难做到这一点。因此,需要从简单和更容易测量的变量(如动物测量值)来估计活重。因此,在发展中国家,使用易于测量且与理想性能性状高度相关的动物计量测量是牲畜遗传改良的可行选择。动物测量和性能性状之间的关系,除了用于品种特征之外,还应该用于发展中国家的亲贫家禽和牲畜改良企业,这些企业主要受到缺乏现代动物改良技术的限制。家禽和牲畜改良专家需要建立易于测量的动物测量与性能性状之间的关系,并组织遗传改良计划,以便在发展中国家实现家禽和牲畜的最佳性能,以获得最大的经济回报。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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