遮目鱼内脏和混合蔬菜废弃物中黑虻幼虫生长特性及脂质含量

K. Pamintuan, Judy Ann B. Cajayon, Gecille B. Dableo
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引用次数: 7

摘要

黑兵蝇幼虫(Hermetia illucens)长期以来一直被视为一种潜在的废物-能源生物转化工具,将有机废物转化为生物质(脂质),然后转化为生物燃料。本试验研究了不同饲料(鸡发酵剂(对照)、遮目鱼内脏和混合蔬菜废弃物)对黑虻幼虫生长特性和营养状况的影响。从孵化到蛹前,每天测量幼虫的长度、宽度和质量。通过Gompertz生长方程拟合了幼虫聚集质量随时间的函数。试验结果表明,以遮目鱼内脏饲养的幼鱼生长速率最高,终端质量、长度和宽度最大。此外,它们的消化饲料转化效率和成活率也显著高于其他两种基质(对照和植物废物)。营养成分由粗蛋白质、粗脂肪、碳水化合物和灰分组成。经近似分析,遮目鱼内脏中蛋白质和碳水化合物含量最高,分别为38.95%和44.45%。而在蔬菜废弃物中饲养的幼虫脂肪和灰分含量最高,分别为40.55%和15.2%。近似分析的结果表明,通过低成本的废物转化能源系统,在植物废物基质中饲养黑兵蝇作为生物柴油原料的脂质来源的潜力。
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Growth Characteristics and Lipid Content of Black Soldier Fly (Hermetia illucens) Larva Reared in Milkfish Offal and Mixed Vegetable Wastes
Black soldier fly larva (Hermetia illucens) of BSFL has long been eyed as a potential waste-to-energy bioconversion tool to convert organic waste into biomass (lipids) which would then be converted into biofuel. The effect of different feeds, namely, chick starter mash (control), milkfish offal, and mixed vegetable waste, on the growth characteristics and nutritional profile of black soldier fly larvae were determined in this study. Daily measurements of length, width, and mass of the larvae were done from hatching to the pre-pupal stage. The gathered mass of the larva as a function of time was fitted through a Gompertz growth equation. The growth experiment with these substrates showed that larvae reared in milkfish offal rendered the highest growth rate and largest terminal mass, length, and width. Furthermore, they also showed significantly higher efficiency of conversion of digested feed and survival rate than the other two substrates (control and vegetable waste). The nutritional profile was determined as fractions of crude protein, crude fat, carbohydrate, and ash. The proximate analysis reported the highest protein and carbohydrate content of the larvae reared in milkfish offal at 38.95% and 44.45%, respectively. Meanwhile, larvae raised in vegetable waste obtained the highest fat and ash content at 40.55% and 15.2%, respectively. The results dictated by the proximate analysis implies a potential for the rearing of black soldier fly in vegetable waste substrates as source of lipids for biodiesel feedstock through a low-cost waste-to-energy system.
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