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1.
《Journal Of Applied Aquaculture》2013,25(3-4):179-204
ABSTRACT Definition of breeding goals for sustainable fish production is considered, with emphasis on non-market (e.g., ethical) as well as market values. The need for long-term biologically, ecologically, and sociologically sound breeding goals is emphasized, because animal breeding determined only by short-term market forces has lead to unwanted side effects. Farmed fish is at an early stage of domestication and breeding, but rapid selection responses for growth have already been documented for several species. Reports of selection responses for fish and shellfish in both temperate and tropical environments are reviewed. Growth-rate responses of 4-20% have been obtained per generation. Broad breeding goals, including health and functional traits, in addition to production traits, are required. More basic knowledge of, e.g., animal welfare and behavioral disorders of fish is also needed. Less than 1% of the aquaculture fish material in 1993 originated from selection programs. For most species under improvement, only one or very few programs are running, and the effective population sizes are often limited. Such populations may however easily gain sufficient advantage above non-improved populations to capture much of the market. This will also discourage further genetic introductions into the breeding nucleus. Long-term inbreeding and loss of genetic variability because of genetic drift may then affect performance and further genetic progress. A sufficiently large and genetically diverse breeding population with appropriate family structure is therefore fundamental when establishing and running a selection program. Important prerequisites for breeding programs for sustainable production are appropriate governmental policies and awareness of our way of thinking about aquaculture, nature and society. A more communal worldview informed by a subjective epistemology (how we learn about/ analyze nature) and a holistic ontology (belief about what/how nature is) is also required. 相似文献
2.
《水生生物资源》2003,16(5):399-407
The common carp is one of the main aquaculture species in the world. Despite this, most of the production is carried out using unselected strains. Selective breeding for fast growth has not proven to be effective in this species, but other traits (disease resistance, shape) could be successfully selected for. Most heritability estimates in the literature are unreliable due to environmental biases, but complementary results from population genetics and comparison of strains seem to indicate that there should be a potential for selective breeding in this species, including selection for growth rate, provided the base populations are variable enough (e.g. synthetic strains). New techniques such as parentage assignment with microsatellites and use of doubled haploid progenies may help describe much more accurately, without environmental bias, the genetic determination of traits of interest in the carp. This could be a new opportunity to design efficient breeding programs in this important species. 相似文献
3.
种苗是海洋生物养殖产业的源头和必需的物质基础,种质是海洋养殖业的核心问题。海水养殖产业"种子工程"包括"健康苗种繁殖"和"优良种质创制"两个部分,前者以实现原种和良种的人工繁殖为中心目标,还包括与之相匹配的设施设备等建设,对鱼类原种开发、种子扩繁和产业发展起到支撑作用;后者强调应用现代生物技术,以不断改进和优化原种种质为目标,是增加产量的有效途径,是实现海水养殖业健康和可持续发展的有效保证。本文以海水鱼类为例,分析了"种子工程"两个方面的研究发展历程、研究中心目标及其内在既有联系又相对独立的研究特点,基于研究和产业平衡发展的共同需要,应坚持二者并列、并重的研究方向。文中还对当前海水养殖鱼类原种开发、种质改良和良种选育等研究领域提出了初步看法和设想。 相似文献
4.
Gen Hua Yue 《Fish and Fisheries》2014,15(3):376-396
Aquaculture is the fastest growing sector in agriculture. Substantial genetic gains have been achieved in a few cultured species using conventional selective breeding approaches. However, the majority of fish and shellfish species remain in their wild state. Due to the recognition of the enormous potential of marker‐assisted selection (MAS) to speed up genetic gain through early selection, aquaculture scientists have constructed linkage maps in over 40 species and mapped quantitative trait loci (QTL) for important traits in over 20 species since the 1990s. Although MAS and genomic selection (GS) have not been widely used in aquaculture, their application in breeding programmes is expected to be a fertile area of research. In this paper, I summarized the recent advances of linkage and QTL mapping, as well as MAS in aquaculture species. I also discussed the potentials of genome‐wide association studies (GWAS) and GS in aquaculture species. 相似文献
5.
水产种业是水产养殖业发展的基础,是渔业战略性、基础性核心产业,也是保障未来养殖业绿色、健康发展的核心竞争力。随着水产业全球化、市场化的发展,我国种业正面临着前所未有的机遇与挑战。特别是随着生物技术的快速发展,水产育种也由传统的选择育种和杂交育种,发展至细胞工程育种、分子标记辅助育种、全基因组选择育种、分子设计育种和基因组编辑等精准设计育种。水产动物重要经济性状的基础研究及其遗传改良技术的创建驱动着我国水产种业的蓬勃发展,截止2022年,通过全国水产原种和良种审定委员会审定并由农业农村部公告的水产新品种就有266个,其中鲤新品种数量最多,为31个,表明鲤育种工作卓有成效。本文重点回顾了我国鲤的种质和基因组资源现状,鲤的主要品种及其育种方法;简要介绍了鲤生长、抗病、体色、饲料转化率等经济性状关联的遗传研究进展,并由此提出了新时代背景下鲤种业的发展方向和措施建议,以期为我国鱼类育种提供借鉴。 相似文献
6.
随着全球水产品养殖产量快速增长,水产养殖业在近二十年间正快速替代捕捞业,成为满足人类对优质蛋白需求极具潜力的生产活动。世界水产品消费量近几十年来快速增长,水产品在人类食物系统中具有越来越重要的地位。遗传改良作为发展水产养殖业的关键环节而备受关注,长期以来,以选择育种和杂交育种为主要的育种方法,以生长速度、成活率等经济性状为主要改良的目标性状,对世界水产养殖业的发展发挥了基础性、先导性和战略性作用。随着人们对优质蛋白需求的不断增加以及“大食物观”概念的广泛普及,将水产品打造为更加高效的食物生产系统是大势所趋。但纵观全球,水产养殖业存在遗传改良种类不多、覆盖面不广、改良性状滞后于产业发展需求等问题,需要加强水产育种技术创新和品种培育,培育更多的遗传改良种,推进水产养殖业高质量发展。本文基于已有研究结果,结合渔业各类统计数据,对世界水产养殖业发展概况、重要养殖种遗传改良情况、水产育种技术应用、目标性状改良以及部分主要人工改良种产量数据进行整理概述,总结发展状况,分析存在问题,以期为水产种业研究以及产业高质量发展提供参考。 相似文献
7.
Markus Kankainen Jari Setälä Antti Kause Cheryl Quinton Susanna Airaksinen Juha Koskela 《Aquaculture Economics & Management (Blackwell Science)》2016,20(2):131-164
Economic values of different fish traits are needed to direct breeding programs to optimize economic benefits for aquaculture industry. The aim of this article is to highlight and calculate how different traits affect the value of farmed fish supply chain. Supply chain approach is needed to calculate economic impact of fish traits because several fish traits affect costs and returns not only in fish farming but also at the processing and retail level. In this article, economic values are calculated for 14 productivity and product quality traits in European whitefish (Coregonus lavaretus). Productivity affecting traits, such as growth, mortality and different yields, are included in the study. In addition, economic values are calculated for several quality traits like fillet gaping, appearance and fat content of flesh.Productivity traits had the highest economic importance if the traits could be improved. However, quality traits may cause even higher economic losses, if the quality decreases. Thus, the management of the breeding program should pay simultaneous attention to both quality and productivity traits. 相似文献
8.
近交及其对水产养殖的影响 总被引:10,自引:3,他引:7
因大多数野生物种的捕捞已接近甚至超过了可开发的限度,因此必须大量增加水产品的养殖以满足人们对水产品的需要。目前,许多水产养殖种类的苗种来源于野生亲体或野生种苗,但是当野生种群被过度捕捞或数量大量减少时,越来越多的苗种将来源于人工蓄养的亲体群体。 相似文献
9.
Pedigree information is important in selective breeding programs and hatchery management of aquaculture. However, in aquaculture species, tagging of young fish with physical tags is very difficult. Molecular parentage analyses have been used in reconstructing pedigrees in aquaculture species since the 1990s. Some studies have been carried out to optimize every step to reduce the cost and improve the efficiency of molecular parentage analysis. However, molecular parentage analysis of a large number of individuals is still too expensive because some steps of molecular parentage analysis are very cost‐intensive. In this review, we have summarized the techniques of major steps in parentage analysis, and provided a guide for aquaculture scientists on how to cost‐effectively and rapidly extract DNA from a large number of samples, select the right types of DNA markers, optimize multiplex polymerase chain reaction, and select appropriate methods and software to analyze the genotyping data for reconstructing pedigrees. In addition, we discuss the challenges and future directions of molecular parentage analysis in aquaculture species. 相似文献
10.
水产动物分子标记辅助育种研究进展 总被引:3,自引:1,他引:2
本文介绍了水产动物分子标记辅助育种技术的发展。获得与经济性状连锁的标记是开展分子标记辅助育种的基础,因此,本文重点介绍了获得基因/标记技术的进步,探讨了基因/标记与性状间相互关系的复杂性,论述了准确鉴定性状紧密连锁的基因/标记的难度,指出难点主要源于基因组对性状的形成具有非常复杂的影响。近十年来,已有多个利用分子标记辅助育种技术培育的品种在产业上应用,表明这项新技术具有推动产业技术进步的作用;同时指出了分子标记辅助育种包括全基因组选择育种的不足之处,其根本原因在于鱼类性状的形成机制极其复杂、多变,从而决定了分子标记辅助育种技术具有发展阶段论的特征。 相似文献
11.
12.
Wei Luo Cong Zeng Wei Deng Nicholas Robinson Weimin Wang Zexia Gao 《Aquaculture Research》2014,45(11):1881-1888
Blunt snout bream (Megalobrama amblycephala) is an herbivorous freshwater fish species native to China and has been recognized as a main aquaculture species in the Chinese freshwater polyculture system with high economic value. The genetic parameter estimates for important economic traits are needed for its selective breeding. The aim of this study was to estimate the heritabilities for its growth‐related traits and explore the genetic and phenotypic correlations among the traits using microsatellite‐based pedigree approach. Offspring from a mass‐spawning of 92 broodstocks (42 sires and 50 dams) were reared in a communal pond and nine microsatellites were used to identify the parents of each sampled offspring. Of 749 offspring randomly selected, 708 (94.53%) could be assigned directly to a single parental pair, which was used for heritability estimates. Data were analysed using the method of restricted maximum likelihood (REML) using animal model and the results showed that the heritabilities of body weight, body length, total length and body height were 0.65, 0.53, 0.53 and 0.50, respectively. High genetic correlations were found among these four traits. According to these results, selection for growth seems to be feasible in M. amblycephala and the other growth traits will be heightened accordingly with the selection based on body length. 相似文献
13.
国际虹鳟育种产业简介及其对我国的借鉴意义 总被引:1,自引:0,他引:1
虹鳟Oncorhynchus mykiss原产于北美地区,为典型的冷水性鱼类,是世界性重要经济养殖鱼类之一和水产遗传育种领域的重要研究对象。虹鳟是最早采用数量遗传学理论指导遗传选育的水产动物之一,BLUP育种值估计和配合力分析等遗传评定方法以及家系选育、杂交和配套系育种等技术均在虹鳟育种实践中广泛应用。淡水鱼类养殖中,必须使用遗传选育的优良品种的行业共识,最早在虹鳟中确立。目前,在欧洲、北美以及智利等主要鲑鳟鱼养殖国家和地区,虹鳟良种覆盖率均已达到90%以上。鉴于虹鳟仍是我国养殖产量最高的鲑鳟鱼类,其育种工作在许多非原产国都取得了令人瞩目的成就,本文以全球化的视角,从虹鳟养殖与选育的历史概况、虹鳟种业的主要技术手段及产业格局、主要虹鳟育种机构的组织形式与类型特点等方面,简要介绍了国际虹鳟种业的发展及对我国虹鳟种业的借鉴意义。 相似文献
14.
长牡蛎壳金选育群体生长性状的选择效应 总被引:3,自引:1,他引:3
长牡蛎是一种世界性的养殖贝类,同时是我国最重要的经济贝类之一,壳色美观和快速生长是目前长牡蛎遗传育种的2个重要目标。2010年通过长牡蛎壳色性状的家系选育,获得了壳白、壳黑、壳金和壳紫4种壳色品系。实验以第二代壳金品系为基础群体,对长牡蛎壳金群体的生长性状进行定向选育,分析了长牡蛎壳金选育群体壳高性状的选择反应、遗传获得和现实遗传力。结果显示,养成阶段选择组的壳高均大于对照组,350日龄后表现出显著的生长优势;幼虫期,壳高性状的平均选择反应、遗传获得和现实遗传力分别为0.549±0.277、3.717%±2.611%和0.339±0.171,养成期分别为0.436±0.138、8.253%±1.014%和0.270±0.086。选择组的贝壳金黄色和外套膜金黄色比例分别提高了22%和10%。研究结果为长牡蛎壳金优良品系培育提供了重要基础资料。 相似文献
15.
Community livelihood and patterns of natural resources uses in the shrimp‐farm impacted Mekong Delta
This case study looks at changing livelihood strategies of the coastal population in Soc Trang Province in the Mekong Delta, Vietnam, and their impacts on natural resources. It provides an opportunity not only to document the impact of shrimp farming on coastal livelihood but also to better understand the link between brackish water aquaculture development and natural resource use. The approach includes a socio‐economic survey in six villages of the province focusing on risk strategies and livelihood diversification. Shrimp farming was found to be less risky and more profitable for households and private companies with a higher investment capacity than for poorer households. Households facing a high risk in shrimp farming diversified their aquaculture production, with other high‐value species like mud crab and elongated goby as a coping mechanism. The use of natural resources' collection is shifting from home consumption towards market‐oriented sales of juvenile mud crabs, clams or fish (elongated goby) to supply seed for brackish water aquaculture developments. 相似文献
16.
The agricultural world today is dominated by a few domesticated mammal species, that is, animals modified from their wild ancestors through selective breeding in captivity for traits beneficial to human usages. As a result, a clear dichotomy exists between wild (from hunting) and domesticated mammals (produced in farms) used for human consumption. Similar to agriculture, aquaculture is often viewed as the only solution that can provide more fish products given that harvesting wild stocks have reached an upper limit. Aquaculture is considerably younger than agriculture relying on natural sources to farm numerous species. To better describe the diverse strategies for fish production, we propose a new classification comprising five levels of ‘domestication’ with 1 being the least to 5 being the most domesticated. Our classification places 70% of the 250 farmed finfish species recorded in the 2009 FAO database into levels 1, 2 and 3 representing a transitory form of fish production dependent on the availability of the wild resource. In contrast, only a few species, or more accurately populations, can be considered truly domesticated, similar to cattle or sheep. Based on this classification, two scenarios for the future of aquaculture are discussed: either the industry focuses on few truly domesticated species, similar to the path taken by agriculture, but avoiding its negative impacts or aquaculture proceeds with inter‐specific diversification by focusing primarily on the domestication of native species. 相似文献
17.
The rising share of aquaculture in supplying seafood changes the mixture of species in the world's market, because capture fisheries target carnivorous species whereas aquaculture focuses on species that are lower in the food chain. Trophic level correlates with production volume (tons/yr) and with unit value (US$/ton) in aquaculture but not in capture fisheries (FAO's fisheries data). Apparently, sustainability and economics in aquaculture both depend on ecological efficiency, i.e., the use of resources and the production of waste. Species feeding low in the food chain use efficiently the natural resources. Each level up the food chain inflates costs related to the use of resources, the production of waste and the maintenance of water quality. This effect has further repercussions on the economics of aquaculture: (1) cost influences profit and unit price, and (2) price influences demand and market share. The overall ecological efficiency, sustainability and economics of culturing carnivorous fish are improved by growing them in an ecological balance with species from low trophic levels in integrated multi-trophic aquaculture. 相似文献
18.
Genetic improvement for important farmed aquaculture species with a reference to carp,tilapia and prawns in Asia: achievements,lessons and challenges 
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下载免费PDF全文 Nguyen Hong Nguyen 《Fish and Fisheries》2016,17(2):483-506
This study provides an overview of successful genetic improvement programmes for important farmed aquaculture species in Asia, with a focus on lessons and experiences gained as well as challenges remaining. In both fish and prawns (Macrobrachium rosenbergii), conventional selective breeding approaches have resulted in significant improvement in productivity, with genetic gains ranging from 8 to 12% per generation. Selection for high growth has also brought about beneficial changes in fillet weight of fish and edible meat in prawns without detrimental effects on flesh quality attributes and fitness‐related traits. Genetically improved animals show remarkable vigour and high adaptation to a range of culture environments/conditions in Asian countries. Despite these successes, however, the conduct and practical implementation of such breeding programmes still present several challenges. These include the expansion of breeding objectives, management of inbreeding in closed‐selection populations, controlling the effects of genotype by environment interactions, simultaneous production of large number of full‐ and half‐sib families for species with asynchronous spawning behaviour, maintaining pedigree records, dissemination of the improved strains for widespread production, as well as a reluctance by many to carry out systematically designed genetic improvement for aquatic animal species. There are also challenges with regard to the application of genomic information in genetic enhancement programmes and the development of genetically improved strains in response to climate and environmental changes. In this study, each of these challenges is discussed and solutions are proposed to increase efficiency of future genetic improvement programmes for economically important aquaculture species. 相似文献
19.
镜鲤与建鲤生长性状共享 QTL 标记及优势基因型 总被引:1,自引:0,他引:1
本研究以1个镜鲤(Cyprinus carpio L.)全同胞家系(190个个体)构建的微卫星遗传图谱(992个标记)为基础,从体重、体长、体高和体厚的QTL区间内发掘了54个标记,其与性状具有显著相关性,进而通过对不同基因型性状间的比较,筛选出83个优势基因型。在此基础上,用54个镜鲤QTL标记分析了建鲤(Cyprinus carpio var.jian)作图群体,其中40个标记在建鲤中表现出多态性,比例为74.07%;相关性分析结果显示,其中22个标记与建鲤家系的体重、体长、体高或体厚性状具有显著相关性(P0.05),占多态标记的55.00%;镜鲤与建鲤共享的22个QTL标记中,18个标记与至少1个相同的性状具有显著相关性(P0.05),从中筛选出建鲤性状具有优势的基因型30个,可用于指导建鲤的选育。品种间共享QTL的发掘能够扩展QTL标记的使用空间,减少新品种重新构建图谱进行QTL标记定位的工作量和成本。 相似文献
20.
Genetic improvement of aquaculture species offers a substantial opportunity for increased production efficiency, health, product quality and, ultimately, profitability in aquacultural enterprises. Technolo‐gies exist that can be implemented immediately to improve multiple traits that have economic value, while simultaneously accounting for inbreeding effects. Genetic improvement techniques for delivering genetic gain include formal definition of the breeding objective, estimation of genetic parameters that describe populations and their differences, evaluation of additive and non‐additive genetic merit of individuals or families and defining the structure of a breeding programme in terms of mating plans. Novel genetic technologies involving the use of DNA‐based tools are also under development for a range of aquaculture species. These gene marker technologies can be used for identification and monitoring of lines, families and individuals, monitoring and control of inbreeding, diagnosis of simply inherited traits and genetic improvement through selection for favourable genes and gene combinations. The identification of quantitative trait loci (QTL), and direct or linked markers for them, will facilitate marker‐assisted selection in aquaculture species, enabling improvement in economically important traits, particularly those that are difficult to breed for, such as food conversion efficiency and disease resistance. 相似文献