富含红红杆菌的饮食是否能提高大水蚤的性能?

Frontiers in bioscience (Elite edition) Pub Date : 2022-06-29 DOI:10.31083/j.fbe1403016

Maria Marinho, Gustavo Jesus, Luís Spencer, José Catita, Olga M Lage, Sara C Antunes

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引用次数: 0

摘要

背景:在野生环境中，各种生物对水蚤的饮食有贡献。本研究的目的是评价红红多倍体作为大水蚤单一或补充食物来源的潜力。方法:根据慢性试验标准指南(21 d)进行饲养试验，测定生活史参数和几种生物标志物(蛋白质含量、氧化应激、能量储备和色素)。5种摄食方案共20个重复(A - R. subcapitata;0.2 -在0.2任意单位(AU)悬浮;0.4 -在0.4 AU时红毛菌悬液;0.2+A -红藻在0.2+海藻中的悬浮;0.2+ a -悬浮液，红唇在0.4 AU +藻类)。此外，还评估了3种饲料(A、0.2和0.2+A)对马格纳白鲟寿命的影响。结果:五种日粮的碳、氮和类胡萝卜素含量不同，混合日粮的含量有所增加。结果证实，混合饲粮改善了大鼠的生活史参数。观察到糖原减少，血红蛋白、蛋白和谷胱甘肽- s转移酶(GST)升高。此外，饲喂细菌单一饲料的大斑锦鸡的生活史参数变差，蛋白质含量下降。观察到氧化应激反应的诱导(过氧化氢酶和GST的增加)，脂质过氧化和糖原和类胡萝卜素的积累显著减少。总的来说，增加提供给D. magna的红毛藻量，从0.2 AU增加到0.4 AU，对水蚤的性能产生负面影响。在测试的三种饮食中，没有观察到对水蚤寿命(110天的测定)的显著影响。然而，与混合饲料饲喂的大鼠成活率和繁殖力显著(累积子代2倍以上)。结论:不同的日粮为水蚤提供了营养多样化的食物，从而导致了水蚤生产性能的差异。混合饲料被证明对D. magna的生产性能是有益的(随着后代的增加)，与细菌浓度测试无关。在单一日粮中，即使细菌浓度增加，其营养含量也不足以提高D. magna。

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Does a Diet Rich in the Bacterium Rhodopirellula rubra Improve Daphnia magna Performance?

Background: In the wild various organisms contribute to daphnids diet. This study, intendeds to evaluate the potential of the concentration of Rhodopirellula rubra as a single or supplementary food source for Daphnia magna.

Methods: Feeding assays were performed according to standard guidelines for chronic assays (21 days), and life-history parameters and several biomarkers (protein content, oxidative stress, energetic reserves and pigments) were measured. Five food regimens were conducted with 20 individual replicates (A - R. subcapitata; 0.2 - suspension of R. rubra at 0.2 arbitrary units (AU); 0.4 - suspension of R. rubra at 0.4 AU; 0.2+A - suspension of R. rubra at 0.2+alga; 0.2+A-suspension of R. rubra at 0.4 AU + alga). Additionally, the effects of three diets (A, 0.2, and 0.2+A) on the longevity of D. magna were assessed.

Results: The five diets showed a different C, N, and carotenoids composition, with an increase in the mixed diets. The results confirmed that the mixed diets improved D. magna life-history parameters. A decrease in glycogen, and the increase of haemoglobin, protein, and gluthione-S-transferase (GST) were observed. Furthermore, D. magna fed with bacterial single diets, presented worsen life history parameters and a decrease in the protein content. An induction of oxidative stress response (increased catalase and GST), and a significant decrease in lipid peroxidation and an accumulation of glycogen and carotenoids were observed. Overall, an increase in the amount of R. rubra provided to D. magna, from 0.2 AU to 0.4 AU, negatively impacted daphnid performance. No significant effects on Daphnia longevity (a 110-day assay) were observed among the three diets tested. However, a significant survival percentage and fertility (cumulative offspring is more than twice) was observed when D. magna was fed with the mixed diet.

Conclusions: Results demonstrated that different diets provided a nutritional diversified food to the daphnids that induced differences in D. magna performance. The mixed diets proved to be beneficial (with increase in offspring) on D. magna performance, independently of the bacterial concentration tested. When in single diet, bacterial concentration is not nutritionally sufficient to raise D. magna even when in increased concentration.

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Frontiers in bioscience (Elite edition)

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