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首页|期刊导航|水产学报|改进鱼类营养和饲料研究范式:从大口黑鲈和大黄鱼配合饲料在养殖生产中的应用谈起

改进鱼类营养和饲料研究范式:从大口黑鲈和大黄鱼配合饲料在养殖生产中的应用谈起OA北大核心CSTPCD

Paradigm shift of fish nutrition and feed:the necessity revealed by the application of formulated feed in Micropterus salmoides and Larimichthys crocea farming

中文摘要英文摘要

鱼类营养和饲料研究起始于 20 世纪 50 年代,并借鉴对人类和畜、禽营养研究的经验建立了研究范式.在过去 70 年中,鱼类营养和饲料研究遵循已有的范式取得了大量的成果,这些研究成果推动了水产配合饲料技术的进步,为水产饲料产业从无到有、从小到大做出了贡献.然而,随着全球水产养殖规模的不断扩大,水产养殖产业面临的资源和环境压力日益增加,对水产饲料也提出了更多和更高的要求.养殖生产实践表明,根据一些肉食性鱼类营养和饲料研究结果设计配方生产的饲料不能取得预期的应用效果,这意味着遵循已有研究范式所得到的结果难以完全满足现代鱼类养殖生产的需要.本文总结了两种具有重要经济价值的肉食性鱼类(大口黑鲈和大黄鱼)配合饲料在养殖生产中应用的曲折历程,指出早期研究明显低估了饲料蛋白水平是导致配合饲料长期无法在养殖生产中成功应用的主要原因.早期研究报道大口黑鲈的饲料蛋白需求为 400~440 g/kg,大黄鱼的饲料蛋白需求为 450~470 g/kg,但投喂配合饲料的鱼的生长明显比投喂冰鲜鱼的鱼慢.重新评估发现大口黑鲈和大黄鱼饲料蛋白需求分别为 480~510 g/kg和 490~520 g/kg,投喂含适量蛋白的配合饲料时鱼生长与投喂冰鲜鱼时接近.对大口黑鲈和大黄鱼饲料蛋白需求的明显低估反映出已有鱼类营养和饲料研究范式中存在不足,其表现为:①强调食物对鱼类生长的影响,但忽视了鱼类遗传背景和食物外的其他环境条件对鱼类生长和摄食的作用;②强调鱼类个体生长可反映其营养需求和饲料质量,但忽视了鱼类个体生长并不能完全反映养殖产量和效益;③强调生长和饲料利用效率在评价水产养殖效益方面的重要性,但忽视了投饵养殖对自然资源和环境所产生的负面影响是限制水产养殖可持续发展的瓶颈;④基础饲料配方对评价营养需求或饲料质量的影响没有得到足够重视,因基础饲料组成不合理导致一些研究结果缺乏实际意义.针对上述问题,作者建议对已有范式的概念、理论和研究方法做如下改进:①重视鱼类遗传背景和食物以外的其它环境条件对鱼类生长的影响,明确鱼类生长潜力决定营养需求,而食物营养是实现生长潜力的条件;②重视食物中各种营养素之间的相互作用,明确不同饲料原料在配方的营养平衡中发挥不同的作用;③进行饲养实验时重视实验鱼种质和种群结构,重视对照组和处理组个体生长的差异幅度在判断处理效应方面的指示意义,重视饲料配方对自然资源和环境等制约水产养殖可持续发展的因素的影响.改进后的研究范式更符合现代水产养殖生产实际,遵循其开展研究获得的结果能够更好地指导饲料配方设计,所生产的配合饲料也能更好地应用于水产养殖生产.

The research on fish nutrition and feed started in 1950s,and the paradigm in this field was established based on that of researches targeting human beings and terrestrial animals.In the past seven decades,based on the paradigm,researches on fish nutrition and feed generated a great amount of valuable data,which promoted the fast development of technology,production and industry of aqua-feed.Challenges of natural resource depletion and environmental pollution to aquaculture industry has been growing with the worldwide expansion of aquaculture scale,and farming practices always raise more and higher demands or standards on aqua-feed.It is widely noted that the formulated feed designed on basis of the research on nutrition and feed for some carnivorous fish species cannot be used in commercial fish farming with success.The fact reveals that results of fish nutrition and feed research conducted following the current paradigm cannot well meet the demand of modern finfish aquaculture.In this paper,the author reviews results of the researches about nutrient requirement and dietary fish meal replace-ment for Micropterus salmoides and Larimichthys crocea,two carnivorous fish species with commercial import-ance in inland finfish aquaculture and marine finfish aquaculture in both the world and China.The application of formulated feed in commercial farming of M.salmoides and L.crocea is full of twists and turns,and these fishes had to be fed with raw fish diet for a long period due to the formulated feed did not provide fast growth displayed by the fish fed with raw fish diet.At present,it is known the poor growth of M.salmoides and L.crocea fed with the formulated feed was attributed to the obviously underestimated dietary protein levels.Earlier studies reported that the optimal dietary protein level was 400-440 g/kg for M.salmoides,and 450-470 g/kg for L.crocea.Latter studies reassessed dietary protein requirements of these fishes,and revealed the optimal protein levels for M.sal-moides and L.crocea are 480-510 g/kg and 490-520 g/kg,respectively,which are much higher than those reported in the earlier studies.Growth of M.salmoides and L.crocea fed with the formulated feed containing the optimal protein content are comparable to that of the fishes fed with raw fish diet.The story of formulated feed application in M.salmoides and L.crocea farming reveal the necessity of paradigm shift of fish nutrition and feed.The author indicates that the disadvantages in the currently used paradigm include the following:①The paradigm emphas-izes the role of food in regulating fish growth,but ignores the roles of fish genetics and environmental conditions other than food in determining growth and feed intake of fish.②The paradigm emphasizes that individual growth of fish reflects its nutrient requirements and demand on feed quality,but ignores that individual growth of fish can-not completely represent yield and economic income of commercial fish farming.③The paradigm emphasizes the importance of fish growth and feed utilization efficiency as indicators in evaluating benefits of fish farming,but ignores that the negative impacts of fed aquaculture on natural resources and environment are the bottle-neck limit-ing sustainability of aquaculture industry.④The paradigm ignores the effect of basal diet formula in evaluating nutrient requirements and feed quality,and the use of unreasonable basal diet in some research results in erroneous or senseless conclusion.To diminish the aforementioned disadvantages,the author proposes to improve the concept,theory and method of the currently used paradigm.①Emphasizing the importance of fish genetics and the environmental conditions except food in determining growth and feed intake of fish.Emphasizing that growth potential of fish determine its nutrient requirement,while emphasizing that nutrients from diets can support and modulate fish growth.②Emphasizing the interaction between different dietary nutrients,and emphasizing that different feed ingredients play their own role in establishing nutrient balance of diet formula.③Emphasizing the importance of genetics and population structure of the test fish used in feeding trials.Emphasizing the magnitude of difference in growth between individual fish fed with different diets is an indicator for assessing nutrient requirement and feed quality.Emphasizing the impacts of diet formula on natural resources and environment,which are factors limiting sustainability of aquaculture industry.After the shift or improvement,the paradigm for fish nutrition and feed research will be better in accord with the situation and demand of modern aquaculture farm-ing practices.The results of nutrition and feed research conducted following the shifted paradigm will be more reli-able and accurate for diet formula design of aqua-feed,and the formulated feed will be more successful in applica-tion in commercial aquaculture farming.

王岩

浙江大学海洋学院,浙江舟山 316021

水产学

大口黑鲈大黄鱼配合饲料范式饲料蛋白需求饲料鱼粉替代生长

Micropterus salmoidesLarimichthys croceaformulated feedparadigmdietary protein requirementdietary fish meal replacementgrowth

《水产学报》 2024 (004)

77-95 / 19

国家重点研发项目(2020YFD0900803);舟山市科技计划项目(2019C81054);国家自然科学基金(31772868);浙江省重点研发项目(2018C02033) National Key R&D Program of China(2020YFD0900803);Bureau of Science and Techno-logy of Zhoushan(2019C81054);National Natural Science Foundation of China(31772868);Science Technology Department of Zhejiang Province(2018C02033)

10.11964/jfc.20221213830

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