膳食生物碳对内陆盐碱地下水中养殖的万年青(Boone,1931 年)的生长性能、近似物组成和生理反应的影响

IF 2.5 2区 农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Arun Konduri , Vidya Shree Bharti , Sreedharan Krishnan , Saurav Kumar , Satya Prakash Shukla , Narottam Prasad Sahu , Ajay Adarsh Rao Manupati , Tao Kara , Chalungal Thampi Amal
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引用次数: 0

摘要

由于生物炭的独特特性,将原材料(生物质原料)转化为生物炭在各行各业都有不同的应用。本研究使用生物炭作为虾饲料添加剂。研究人员进行了为期 90 天的喂养试验,以评估不同生物炭对在盐度为 10 ppt 的内陆盐碱地下水中饲养的凡纳滨对虾的生长参数、血液学参数和消化酶的影响。将从不同来源制备的细磨生物炭(0.5 毫米)与市售对虾饲料(粗蛋白 35%、粗脂肪 5%、粗纤维 4%)混合,即 T1,稻草生物炭(PSB);T2,甘蔗渣生物炭(SBB);T3,香蕉梗生物炭(BPB);以及不含任何生物炭的对照组(C)。每个三联组放养 20 只虾(10.24 ± 0.01 克)。添加香蕉梗生物炭的日粮(T3)表现优异,显著(p<0.05)提高了增重(24.51±0.12 g)、特定生长率(1.39±0.00 % day-1)、蛋白质效率比(1.73±0.02 %)和饲料转化率(1.60±0.01)。所有生物炭处理对虾血淋巴中的总血清蛋白与对照组相比均有显著差异(p<0.05)。T1、T2 和 T3 组的全身粗蛋白含量最高;相反,对照组的全身粗蛋白含量最低。此外,膳食生物炭显著影响对虾的消化酶活性。不同生物炭喂养组的肝胰腺 AST 和 ALT 活性明显高于 C 组(p < 0.05)。另一方面,膳食生物炭处理对对虾鳃和肌肉的 SOD 以及肝胰腺、鳃和肌肉的过氧化氢酶活性没有显著影响(p > 0.05)。总之,在凡纳滨对虾的饲料中添加三种不同的生物炭似乎是一种有效的集约化养殖方法,此外还能显著减少各种应激反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dietary biochar effect on growth performance, proximate composition, and physiological response of Penaeus vannamei (Boone, 1931) cultured in inland saline groundwater

Transforming raw materials (biomass feedstock) into biochar finds diverse applications across various industries owing to the distinctive characteristics of biochar. This study used biochar as a feed additive for shrimp feeding. A 90-day feeding trial was conducted to assess the impacts of different biochars on growth parameters, haematological parameters, and digestive enzymes of Penaeus vannamei reared in inland saline groundwater of 10 ppt salinity. The finely ground biochar (0.5 mm) prepared from different sources was mixed with the commercially available shrimp feed (35 % crude protein, 5 % crude fat, and 4 % crude fibre), viz., T1, paddy straw biochar (PSB); T2, sugarcane bagasse biochar (SBB); T3, banana peduncle biochar (BPB); and the control group (C) without any biochar. Twenty shrimp (10.24 ± 0.01 g) were stocked in each triplicate. Banana peduncle biochar incorporated diet (T3) demonstrated superior performance as it significantly (p<0.05) improved the weight gain (24.51±0.12 g), specific growth rate (1.39±0.00 % day−1), protein efficiency ratio (1.73±0.02 %), and reduced feed conversion ratio (1.60±0.01). The total serum protein in the haemolymph of the shrimps for all the dietary biochar treatments differed significantly (p<0.05) from the control. The T1, T2, and T3 groups showed the highest whole-body crude protein content; contrary to this, the lowest amount of whole-body crude protein was observed in the control. In addition, the dietary biochar significantly influenced the digestive enzymatic activity of shrimp. The hepatopancreatic AST and ALT activities of different biochar-fed groups were significantly (p < 0.05) higher than the C group. On the other hand, dietary biochar treatments did not significantly (p > 0.05) influence the SOD of the gill, muscle, and catalase activity of the hepatopancreas, gill, and muscle in shrimp. Overall, the three different dietary biochar supplementations in the diet of Penaeus vannamei seem to be an effective way to culture it intensively, in addition to significantly reducing various stress responses.

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来源期刊
Animal Feed Science and Technology
Animal Feed Science and Technology 农林科学-奶制品与动物科学
CiteScore
6.00
自引率
6.20%
发文量
266
审稿时长
3 months
期刊介绍: Animal Feed Science and Technology is a unique journal publishing scientific papers of international interest focusing on animal feeds and their feeding. Papers describing research on feed for ruminants and non-ruminants, including poultry, horses, companion animals and aquatic animals, are welcome. The journal covers the following areas: Nutritive value of feeds (e.g., assessment, improvement) Methods of conserving and processing feeds that affect their nutritional value Agronomic and climatic factors influencing the nutritive value of feeds Utilization of feeds and the improvement of such Metabolic, production, reproduction and health responses, as well as potential environmental impacts, of diet inputs and feed technologies (e.g., feeds, feed additives, feed components, mycotoxins) Mathematical models relating directly to animal-feed interactions Analytical and experimental methods for feed evaluation Environmental impacts of feed technologies in animal production.
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