蓝藻生物转化过程中处理工艺对幼虫生长性能和营养物质产量的影响

P. Gu, L.Q. Chen, K.N. Zhang, H.R. Hu, K.L. Yang, Z.S. Zhang, X. Ren, C. Liu, Z.H. Zhang, J. Zhou, H. Miao
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引用次数: 0

摘要

蓝藻水华是一个全球性的环境问题,在全球范围内造成了严重的经济和生态灾难。众所周知,黑兵蝇幼虫(BSFL)可在多种饲料源上取食和发育,因此利用 BSFL 生物转化收获的蓝藻很有前景。本研究通过三种不同的处理方法将蓝藻复合成原料,然后将 BSFL 放入基质中,以探索处理方法对 BSFL 生长性能和营养物质产量的影响。结果发现,不同处理对基质营养成分和关键化合物(维生素 C 和微囊藻毒素-LR)含量的改变是导致 BSFL 生长性能不同的原因。处理过程和基质含水量的变化导致幼虫消化酶活性的差异,最终会影响 BSFL 营养物质的产生。幼虫对不同处理工艺的应激反应表明,低含水量环境对 BSFL 的生长有抑制作用,而经晒干处理工艺处理的收获蓝藻对 BSFL 的干扰较小。通过简单的经济评估,我们得出结论:蓝藻只有在晒干处理工艺中才能产生效益,而晒干处理工艺中基质含水量需要保持在 70-80%,破壁和加热处理工艺以及加热处理工艺由于成本较高和产量较低而出现亏损。该研究为促进蓝藻的利用提供了参考,并对蓝藻的生物转化具有指导意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of treatment process on larvae growth performance and nutrient yield during cyanobacteria bioconversion by black soldier fly
Cyanobacteria blooms, a global environmental problem, have caused serious economic and ecological disasters worldwide. Black soldier fly larvae (BSFL) are known to feed and develop on a wide range of feed sources, which makes the use of BSFL bioconversion promising for harvested cyanobacteria. In this study, cyanobacteria were compounded into feedstock by three different treatments, and then BSFL was placed into the substrates to explore the effect of treatments on BSFL growth performance and nutrient yield. It was found that the alterations in the nutrient composition of the substrate and the content of key compounds (vitamin C and microcystin-LR) caused by different treatments were responsible for the different growth performance of BSFL. Difference in larvae digestive enzyme activities caused by changes in treatment processes and substrate moisture content will ultimately affect the BSFL nutrient production. The larvae stress response to different treatment processes demonstrated that the low moisture content environment has an inhibitory effect on the growth of BSFL, and the harvested cyanobacteria treated by the sun-drying treatment process exhibited less interference on BSFL. Through a brief economic assessment, we conclude that cyanobacteria can only produce benefits with the sun-drying treatment process where the substrate moisture content needs to be maintained at 70-80%, wall-breaking and heating treatment and heating treatment processes showed a deficit due to a higher cost and a lower output. This study provides a reference for promoting the utilization of cyanobacteria and proffer instructive significance for the biotransformation of cyanobacteria by BSFL.
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