Addition of Molasses Ameliorates Water and Bio-Floc Quality in Shrimp Pond Water

IF 1.1 Q3 BIOLOGY

Tropical life sciences research Pub Date : 2022-03-01 DOI:10.21315/tlsr2022.33.1.8

Y. Alfiansah, J. Harder, M. Slater, A. Gärdes

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引用次数: 0

Abstract

Suspended particulate matter, phytoplankton and bacteria can be exploited to form larger aggregates, so-called bio-flocs. These serve as feeds for cultured shrimps, govern inorganic nutrients and load bacteria including pathogens. The current study aimed to simulate aggregate formation from available particulate matter in shrimp pond water and investigate quality of aggregates as well as possible impact to the pond water. Molasses was added to cylindrical tanks containing shrimp pond waters, and the tanks were rolled for 48 h. Besides water quality (inorganic nutrients and physical parameters), the researchers investigated and separated bacterial community compositions (BCC) to free-living (FL) and bio-flocs/particle-attached (PA) bacteria via 16S rRNA amplicon sequencing, and measured macro-molecules contents (carbohydrates, lipids and proteins) in the bio-flocs. Molasses addition increased bacterial numbers in the bio-flocs to two-fold higher than the FL’s. Moreover, potential probiotics such as Halomonas, Psychrobacter, Mesonia and Chromohalobacter were detected associated to bio-flocs and dominated the BCC. In contrast, bio-flocs without molasses showed 4-fold less carbohydrates and harboured elevated potential pathogens such as Vibrio and Alteromonas. Results show that molasses (at C/N ratio 1:2) increases pH (to 8.2 ± 0.09 and 8.0 ± 0.04 after 24 h and 48 h, respectively) in pond water, improving beneficial biofloc formation. Molasses also increased carbohydrates and proteins in bio-flocs and maintained abundances of beneficial bacteria resulting in low inorganic nutrient concentrations. Thus, molasses is suitable for shrimp farming to improve rearing processes.

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添加糖蜜改善虾池水质和生物浮体质量

悬浮颗粒物、浮游植物和细菌可以被用来形成更大的聚集体，即所谓的生物絮体。这些可以作为养殖虾的饲料，控制无机营养物质，并装载包括病原体在内的细菌。目前的研究旨在模拟虾池水中有效颗粒物形成的骨料，并研究骨料的质量以及对池水的可能影响。将糖蜜加入装有虾池水的圆柱形罐中，并将罐滚动48小时。除了水质（无机营养物质和物理参数）外，研究人员还通过16S rRNA扩增子测序，调查并分离了细菌群落组成（BCC）与自由生活（FL）和生物絮凝物/颗粒附着（PA）细菌，并测量生物絮凝物中的大分子含量（碳水化合物、脂质和蛋白质）。添加糖蜜使生物絮凝物中的细菌数量增加到FL的两倍。此外，还检测到潜在的益生菌，如Halomonas、Psychrobacter、Mesonia和Chromohalobacter，与生物絮凝物相关，并在BCC中占主导地位。相比之下，不含糖蜜的生物絮体显示出的碳水化合物减少了4倍，并携带了更高的潜在病原体，如弧菌和Alteromonas。结果表明，糖蜜（C/N比为1:2）可提高池水的pH值（24小时和48小时后分别为8.2±0.09和8.0±0.04），改善有益的生物块形成。糖蜜还增加了生物絮凝物中的碳水化合物和蛋白质，并保持了有益细菌的丰度，导致无机营养物浓度较低。因此，糖蜜适合用于养虾，以改善饲养过程。

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来源期刊

Tropical life sciences research BIOLOGY-

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

20 weeks

期刊介绍： Tropical Life Sciences Research (TLSR) formerly known as Journal of Bioscience seeks to publish relevant ideas and knowledge addressing vital life sciences issues in the tropical region. The Journal’s scope is interdisciplinary in nature and covers any aspects related to issues on life sciences especially from the field of biochemistry, microbiology, biotechnology and animal, plant, environmental, biomedical and pharmaceutical sciences. TLSR practices double blind peer review system to ensure and maintain the good quality of articles published in this journal. Two issues are published annually in printed and electronic form. TLSR also accepts review articles, experimental papers and short communications. The Chief Editor would like to invite researchers to use this journal as a mean to rapidly promote their research findings.