怀头鲇早期发育阶段消化酶及碱性磷酸酶活性变化(英文)

采用动物性饵料和人工饲料培育1～10日龄怀头鲇(Silurus soldatovi)仔稚鱼,分析测定了全鱼酸性、碱性蛋白酶、淀粉酶、脂肪酶以及碱性磷酸酶的活性。结果表明:孵化后3天开口期仔鱼已具有较高的碱性蛋白酶活性,5日龄时碱性蛋白酶比活力达到较高值,8日龄时出现低值,总体变化呈波动上升趋势;酸性蛋白酶活性在1～8日龄处于较低水平,8日龄后开始迅速升高;淀粉酶活性在5日龄左右达到最高值,随后酶活性开始下降至较低水平;脂肪酶活性变化波动较大,表现为双峰型,两个峰值分别出现在3～4日龄和6～8日龄。摄食动物性饵料仔稚鱼消化酶活性和碱性磷酸酶活性均高于摄食人工饲料。在整个早期发育过程中,碱性蛋白酶比酸性蛋白酶活性高,碱性蛋白酶、淀粉酶比活力在约8日龄仔稚鱼转变期明显下降,而酸性蛋白酶活性开始迅速升高,这说明消化酶活性的变化与仔稚鱼发育过程中消化机能转换具有相关性。怀头鲇在10日龄内碱性磷酸酶活性呈上升趋势,表明怀头鲇胃肠道功能的逐步发育完善。     

不同投料方式对黑水虻幼虫生长性能的影响

以获得黑水虻Hermetia illucens转化有机废弃物的养殖投喂工艺参数为目标,采用实验室小试模拟试验,以餐厨垃圾为试验原料,研究不同投料方式（1次、2次、3次和4次投料）对黑水虻转化餐厨垃圾过程中幼虫生长性能的影响。结果表明,采用多次投料方式,随着投料次数增加,对转化物料料温波动影响较大,不利于幼虫快速生长;在投虫量和投料量相同条件下,养殖周期为10 d,其中以1次投料处理组的收虫体重、体长、单位面积虫产量为最高,料虫比为最低,与2次投料差异不显著（P＞0.05）,但与3次、4次投料处理组差异显著（P＜0.05）;黑水虻转化废弃物前期较低的物料含水率更加有利于虫体生长,而后期物料含水率较高则更为有利。通过生产性能分析发现,从投料回报效果角度考虑生产性能以1次投料为最佳,而从高效率处理餐厨垃圾和投料回报效果两者角度综合分析,生产性能以2次投料为最佳。该结果可为构建黑水虻转化餐厨垃圾标准化生产工艺参数技术体系奠定基础。     

不同生态环境中铜绿丽金龟幼虫肠道细菌 产消化酶活性比较

目的测定不同生态环境中铜绿丽金龟幼虫肠道细菌产消化酶活性。方法采用平板透明圈法和分光光度计法。结果平板透明圈法测得废弃菜园和花生田中铜绿丽金龟幼虫肠道细菌产蛋白酶和淀粉酶活性差异无统计学意义(F=1.089、0.4963,P0.05),而细菌的产纤维素酶活性有显著差异,其中花生田铜绿丽金龟幼虫肠道中分离到的粘质沙雷菌产酶活性显著高于其他菌株;分光光度计测得的不同生态环境中铜绿丽金龟幼虫肠道细菌的产蛋白酶、淀粉酶和纤维素酶活性差异均有统计学意义(F=461.565、42.349、18.7673,P0.05)。从变异系数来看,分光光度计法测得的蛋白酶、淀粉酶和纤维素酶的变异程度较低,而脂肪酶测定时平板透明圈法的变异系数较低。结论平板透明圈法和分光光度计法均可用于铜绿丽金龟幼虫肠道细菌产消化酶活性测定。通过分析研究比较,分光光度计法适于测定细菌的产蛋白酶、淀粉酶和纤维素酶活性,平板透明圈法适于测定细菌的产脂肪酶活性。     

进境小麦下脚料养殖黑水虻幼虫的饲料配比研究

黑水虻Hermetia illucens是一种备受关注的资源昆虫,主要用于处理粪便和餐厨余垃圾,虫体也可作为蛋白源进入下游的牲畜饲料。本研究以黑水虻幼虫为试验对象,设置5个不同配比的黑水虻饲料配方,探究进境小麦下脚料用于黑水虻饲养的可行性。研究发现,黑水虻幼虫抗逆性极好,不同饲料配方饲养的黑水虻幼虫存活率均超过95%。幼虫干虫的营养成分分析表明,进境小麦下脚料所养殖的幼虫蛋白成分可达45%,油脂含量可达30%,比常规蛋白饲料豆粕的44.2%蛋白含量稍高。综合黑水虻幼虫鲜重、干重、干重率以及饲料降解量的养殖结果,小麦下脚料含量为60%的饲料配方具有最佳的转化产出。     

逆境条件下小麦种子活力与种子萌发相关酶活性及其基因表达的关系

分析不同基因型小麦品种逆境萌发过程中种子萌发相关酶活性及基因表达差异,明确在逆境条件下,种子活力与种子萌发相关酶活性及基因表达量的关系.通过标准发芽试验和逆境(冷浸、人工老化、干旱胁迫)发芽试验,测定4个小麦品种种子活力、萌发过程中可溶性总糖和可溶性蛋白含量、α-淀粉酶活性、半胱氨酸蛋白酶活性及相关基因表达量.结果表明:干旱、人工老化和冷浸胁迫3种逆境对种子活力都有一定影响.不同萌发条件下,可溶性总糖含量呈现先小幅度升高后小幅度降低再迅速升高的趋势;而可溶性蛋白含量随着萌发时间的延长呈现逐渐下降的趋势.α-淀粉酶活性整体呈现逐渐升高的趋势,但在冷浸胁迫处理后,豫农949和轮选061的α-淀粉酶活性在萌发60 h后出现下降.半胱氨酸蛋白酶活性整体呈先降低后升高的趋势,但在干旱胁迫条件下,豫农949、豫麦49-198和轮选061的半胱氨酸蛋白酶活性呈现先升高后降低再升高的趋势.不同逆境萌发条件下,α-AMY(α-淀粉酶基因)表达量整体呈先上升后下降的趋势.冷浸胁迫处理后,轮选061的α-AMY表达量高于对照,在其他逆境萌发条件下,4个品种的α-AMY表达量均低于对照;人工老化处理后,长4738的CP(半胱氨酸蛋白酶基因)表达量与对照差异不显著,在其他逆境萌发条件下,4个品种的CP表达量均高于对照.种子萌发期间,不同萌发条件下α-淀粉酶和半胱氨酸蛋白酶活性与其基因表达并没有直接关系,α-淀粉酶活性与可溶性总糖含量达到显著正相关,半胱氨酸蛋白酶活性与可溶性蛋白含量的相关性不显著.在标准发芽条件下,α-淀粉酶活性与活力指数呈显著正相关,而在逆境萌发过程中,其相关性不显著.冷浸胁迫处理后,半胱氨酸蛋白酶活性与活力指数呈显著正相关,但在标准发芽、干旱胁迫、人工老化处理后,其相关性不显著.     

重金属Cd胁迫对红树蚬的抗氧化酶、消化酶活性和MDA含量的影响

摘要：本文在实验室条件下,观测不同Cd胁迫处理（时间和水平）对红树蚬（Geloina coaxans (Gmelin)）的胃组织中超氧化物歧化酶(SOD)和过氧化氢酶(CAT)活性、丙二醛(MDA)含量,及淀粉酶、脂肪酶和蛋白酶等3种消化酶活性的影响效应。结果表明,高浓度组（4.00 mg?L-1和8.00 mg?L-1）在较短的暴露时间即出现SOD 活性显著诱导,而低浓度组则需要更长的暴露时间。所有处理组的CAT活性均先受诱导而后抑制,但去除胁迫后低浓度组活性上升,高浓度组则持续下降。低浓度处理组在胁迫初期MDA含量上升,但随后下降至较低水平;高浓度处理组MDA含量上升稍为滞后,但随后上升至较高水平。在消化酶方面,Cd对红树蚬胃组织淀粉酶的影响基本上表现为抑制;在胁迫初期脂肪酶活性受到显著诱导,随着胁迫时间延长酶活性则下降,同时胁迫解除后不同程度恢复;对蛋白酶的影响效应规律性不明显。显著的效应-剂量间相关关系存在于特定时间的SOD活性（1d）,CAT、淀粉酶活性和MDA含量（7d和恢复6d）。本文还探讨了这些指标作为生物标记物应用于监测海洋重金属污染的可能性。 关键词：红树林;红树蚬;Cd胁迫;消化酶;抗氧化酶;脂质过氧化     

西江鲤仔稚鱼生长及消化酶活性变化

为了探究了鲤(Cyprinus carpio)仔稚鱼的生长过程中主要消化酶活性变化规律, 实验测定了鲤从孵化出膜到40 日龄(日龄, Day after hatching)仔稚鱼期间的生长、可溶性蛋白含量和几种消化酶活性变化。结果显示: 仔稚鱼全长以及体重在15 日龄后增速加快, 特定生长率为14.81%。淀粉酶、脂肪酶、胰蛋白酶, 糜乳蛋白酶、碱性磷酸酶以及氨基肽酶在1 日龄仔鱼体内均能检测到活性。在仔稚鱼发育过程中, 其可溶性蛋白含量先下降后上升。仔鱼摄食前消化酶的活性出现一定的上升, 随着仔稚鱼消化系统发育以及营养方式的转变, 其消化酶活性从3到25 日龄处于不断的变化状态, 而25 日龄到实验结束鲤仔稚鱼的消化酶处于一种相对稳定的状态, 标志着其消化功能趋于完善。根据不同发育时期鲤消化酶活性的变化, 设计有机可腐化的材料制备人工鱼巢以提高人工鱼巢的生态修复功能, 降低饥饿对仔稚鱼成活率的影响。     

不同饲料对稻纵卷叶螟取食代谢及消化酶活性影响

【目的】研究稻纵卷叶螟Cnaphalocrocismedialis对水稻、玉米和人工饲料的取食代谢效应以及取食后幼虫生长发育、物质积累和中肠消化酶活性变化。【方法】在实验室条件下以水稻叶片、玉米叶片及人工饲料饲养稻纵卷叶螟,观察生长发育状况,取特定龄期幼虫测定消化代谢、营养物质积累及中肠消化酶活性。【结果】取食水稻的稻纵卷叶螟蛹重最高、历期最短,与玉米和人工饲料差异显著,取食人工饲料幼虫历期最长。取食不同饲料后单雌产卵量、产卵历期以及成虫寿命之间无显著差异;取食水稻的食物转化率显著高于玉米和人工饲料,取食人工饲料近似消化率最高;取食水稻和玉米的幼虫体内脂肪积累量显著高于人工饲料,取食人工饲料幼虫体内蛋白质和可溶性糖含量明显增加,显著高于水稻和玉米。人工饲料的幼虫体内总蛋白酶、淀粉酶、脂肪酶三种消化酶活性显著高于水稻和玉米。【结论】不同饲料饲养对稻纵卷叶螟生长发育及营养物质累积均有影响,而稻纵卷叶螟幼虫可能通过调节取食量及消化酶活性的方式保证对食料中营养物质摄取。     

长足大竹象幼虫消化酶活性的初步研究

应用酶学分析法研究了长足大竹象Cyrtotrachelus buqueti Guer幼虫消化酶的主要种类和活性.结果 表明,长足大竹象幼虫主要有7种消化酶.长足大竹象幼虫的消化酶活性大小排列顺序为:半纤维素酶＞果胶酶＞纤维素酶＞淀粉酶＞蔗糖酶＞脂肪酶＞蛋白酶;在40～55℃、pH值7.4～8.5时,半纤维素酶和果胶酶活...     

蛹虫草固体发酵大豆基质的成分及抗氧化活性变化研究

以大豆为培养基质,对蛹虫草固体发酵过程中的pH值、淀粉酶、蛋白酶、总糖、还原糖、总酚、ABTS自由基清除率和FRAP进行测定,分析各种物质含量及抗氧化活性变化。结果表明,发酵过程中pH值、淀粉酶和蛋白酶先增加后减少,还原糖含量随着发酵时间延长不断下降,可溶性总糖先减少后增加。总酚含量、ABTS自由基清除率和FRAP值随着发酵时间延长先减少后增加,22d达最大值。发酵成品有望开发成为食品基料及抗氧化食品。     

Biochemical characterization of digestive enzymes in the black soldier fly,Hermetia illucens (Diptera: Stratiomyidae)

The black soldier fly, Hermetia illucens, is beneficial because its larvae feed on organic materials derived from plants, animals and humans and promote the recycling of food waste and organic materials. We investigated the biochemical properties of digestive enzymes released from the salivary gland and gut of the black soldier fly. Because the gut extracts of the black soldier fly larvae had high amylase, lipase and protease activities, we suggested that the black soldier fly might belong to the polyphagous insect group. In addition, a strong trypsin-like protease activity was observed in the gut extracts of the black soldier fly larvae. Higher activities of leucine arylamidase, α-galactosidase, β-galactosidase, α-mannosidase and α-fucosidase were observed from the gut extracts of the black soldier fly larvae compared with those of house fly larvae. These findings may explain previous reports that the black soldier fly larvae can digest food wastes and organic materials more efficiently than any other known species of fly.     

Effective bioconversion of farmed chicken products by black soldier fly larvae at commercially relevant growth temperatures

Global population growth and an increasing demand for meat has driven the intensification of livestock production. On poultry farms, the accumulation of waste such as faeces, carcasses and unsellable eggs creates environmental and health hazards that need to be mitigated. The larvae of the black soldier fly (Hermetia illucens; BSFL) offer a potential solution to the problems of waste management on poultry farms. BSFL consume large quantities of organic waste and convert it into larval biomass, which can then be processed for use as livestock feeds or biofuels. This makes BSFL an ideal candidate for value-added waste management on chicken farms. Here, we examined the development and nutrient profile of BSFL given five different diet treatments: poultry feed (control), chicken meat, chicken egg, chicken manure and a mixture of equal parts chicken meat, egg and manure. Chicken meat, egg and mixed diets were all found to be suitable feedstocks for BSFL, but the manure-only treatment was associated with a high failure rate of larval development. Mixing manure with other poultry waste streams ameliorated the negative impacts of manure on BSFL. Larvae reared on chicken meat, egg and the mixed diet had equal or higher mean crude protein (CP) (39.9%, 33.8% and 31.5%, respectively) and crude lipid (CL) contents (30.1%, 29.00% and 28.7%, respectively), compared with BSFL reared exclusively on chicken feed (CP: 30.9%, CL: 23.8%), demonstrating the suitability of these waste-stream diets for the potential animal feed quality of the BSFL. We discuss how BSFL bioconversion could be implemented to address environment management issues on poultry farms.     

Enhancement of fruit byproducts through bioconversion by Hermetia illucens (Diptera: Stratiomyidae)

Bioconversion is a biological process by which organic materials are converted into products with higher biological and commercial value. During its larval stage the black soldier fly Hermetia illucens is extremely voracious and can feed on a wide variety of organic materials. To study the impact of different fruit byproducts on the insect's growth, final larval biomass, substrate reduction, bioconversion parameters, and larval nutritional composition, 10 000 black soldier fly larvae (BSFL) were reared on 7.0 kg of one of three substrates (strawberry, tangerine, or orange) or on a standard diet as a control. The results highlight that BSFL can successfully feed and grow on each of these diets, though their development time, growth rate, and final biomass were differently impacted by the substrates, with strawberry being the most suitable. The lipid and protein contents of BSFL were similar among larvae fed on different substrates; however, major differences were detected in ash, micronutrient, fiber, fatty acid, and amino acid contents. Overall, the results indicate that fruit waste management through the BSFL bioconversion process represents a commercially promising resource for regional and national agrifood companies. Our study offers new perspectives for sustainable and environmentally friendly industrial development by which fruit byproducts or waste might be disposed of or unconventionally enhanced to create secondary products of high biological and economic value, including BSFL biomass as animal feed or, in perspective, as alternative protein source for human nutrition.     

Black soldier fly larvae show a stronger preference for manure than for a mass-rearing diet

The attention for black soldier fly larvae (BSFL) as an alternative ingredient for food and feed products is on the rise. While many studies have reported the efficiency of BSFL to bio-convert a wide range of organic waste streams into larval biomass, so far, it is unknown whether BSFL prefer certain waste streams over others when they have the possibility to choose. Here, we performed a choice-test experiment to explore the preference of BSFL when exposed to pig manure and a mass-rearing diet consisting of plant by-products currently used for industrial BSFL production. We found that after 1 hr of exposure to both feeds, BSFL strongly preferred pig manure over the mass-rearing diet. The preference for manure became stronger as larval age increased. Our results provide the first evidence that BSFL express a distinct diet preference. Understanding the reasons for the strong preference for manure is relevant for a diverse array of practical applications and to inform the discussion on insect welfare.     

Characteristics and nutrient function of intestinal bacterial communities in black soldier fly (Hermetia illucens L.) larvae in livestock manure conversion

The potential utility of black soldier fly larvae (BSFL) to convert animal waste into harvested protein or lipid sources for feeding animal or producing biodiesel provides a new strategy for agricultural waste management. In this study, the taxonomic structure and potential metabolic and nutrient functions of the intestinal bacterial communities of BSFL were investigated in chicken and swine manure conversion systems. Proteobacteria, Firmicutes and Bacteroidetes were the dominant phyla in the BSFL gut in both the swine and chicken manure systems. After the larvae were fed manure, the proportion of Proteobacteria in their gut significantly decreased, while that of Bacteroidetes remarkably increased. Compared with the original intestinal bacterial community, approximately 90 and 109 new genera were observed in the BSFL gut during chicken and swine manure conversion, and at least half of the initial intestinal genera found remained in the gut during manure conversion. This result may be due to the presence of specialized crypts or paunches that promote microbial persistence and bacteria–host interactions. Ten core genera were found in all 21 samples, and the top three phyla among all of the communities in terms of relative abundance were Proteobacteria, Firmicutes and Bacteroidetes. The nutrient elements (OM, TN, TP, TK and CF) of manure may partly affect the succession of gut bacterial communities with one another, while TN and CF are strongly positively correlated with the relative abundance of Providencia. Some bacterial taxa with the reported ability to synthesize amino acids, Rhizobiales, Burkholderia, Bacteroidales, etc., were also observed in the BSFL gut. Functional analysis based on genes showed that intestinal microbes potentially contribute to the nutrition of BSFL and the high-level amino acid metabolism may partly explain the biological mechanisms of protein accumulation in the BSFL body. These results are helpful in understanding the biological mechanisms of high-efficiency nutrient conversion in BSFL associated with intestinal microbes.     

Improvement in bioconversion efficiency and reduction of ammonia emission by introduction of fruit fermentation broth in a black soldier fly larvae and kitchen waste conversion system

The black soldier fly (BSF), Hermetia illucens (Diptera: Stratiomyidae), is an insect commonly used for the bioconversion of various organic wastes. Not only can the BSF convert organic waste into macromolecular organic substances, such as insect proteins, but it can also lessen the pollution associated with these waste products by reducing ammonia emissions, for example. In this study, we measured the effects of adding fruit fermentation broth (Fer) and commercial lactic acid bacteria fermentation broth (Em) to kitchen waste (KW), as deodorizing auxiliary substances, on the growth performance of black soldier fly larvae (BSFL), the intestinal flora structure of BSFL, the ammonia emission from the KW substrate, and the microbial community structure of the KW substrate. We found that the addition of Fer or Em increased the body weight of BSFL after 6 d of culture, increasing the growth rate by 9.96% and 7.96%, respectively. The addition of Fer not only reduced the pH of the KW substrate but also increased the relative abundance of probiotics, such as Lactobacillus, Lysinibacillus, and Vagococcus, which inhibited the growth of ammonifiers such as Bacillus, Oligella, Paenalcaligenes, Paenibacillus, Pseudogracilibacillus, and Pseudomonas, resulting in the reduction of ammonia emission in the KW substrate. Moreover, the addition of Fer or Em significantly increased the relative abundances of Bacteroides, Campylobacter, Dysgonomonas, Enterococcus, and Ignatzschineria in the gut of BSFL and increased the species diversity and richness in the KW substrate. Our findings provide a novel way to improve the conversion rate of organic waste and reduce the environmental pollution caused by BSF.     

The first insight into black soldier fly meal in brown trout nutrition as an environmentally sustainable fish meal replacement

Insect meals are considered among the most promising feed materials in fish nutrition due to their sustainability and possibility of fish meal replacement. The present study is the first application of full-fat black soldier fly larvae (BSFL) meal in brown trout (Salmo trutta m. fario) diets. Two experiments were performed on 240 brown trout fingerlings (average body mass 4.85 g) distributed into four groups (12 tanks for the growth performance experiment, 10 fish/tank; and 12 metabolic tanks for the digestibility test, 10 fish/tank). The experimental group design was conducted as follows: control diet, with no BSFL and 35% fish meal, and experimental diets: BSFL5 – with 5% BSFL full-fat meal and 32.5% fish meal; BSFL10 – with 10% BSFL full-fat meal and 30% fish meal; and BSFL20 – with 20% BSFL full-fat meal and 25% fish meal. No effects were recorded in the case of growth performance and feed utilization parameters. The environmental sustainability of the usage of insect meals in fish diets was proven – due to the lower fish meal inclusion, the fish-in-fish-out ratio decreased by 31% in BSFL20. In the case of the viscerosomatic index, increases in BSFL5 and BSFL20 were reported. In all experimental groups, decreases in hepatosomatic index values were observed. Crude protein digestibility decreased in BSFL5 and BSFL20, while crude fat digestibility decreased only in the BSFL20 group. The effect of including BSFL full-fat meal in a brown trout diet on serum biochemical parameters was reported. The aspartate transaminase concentration increased in BSFL10 and BSFL20, while the gamma-glutamyl transpeptidase values decreased in BSFL20. In the case of total cholesterol, higher values were observed in BSFL10 and BSFL20. The albumin content decreased in the BSFL20 group, while globulin showed the highest values in the control group. The microbiota composition was not affected by insect meal inclusion. In conclusion, the results of the present study showed the high potential of BSFL full-fat meal application of up to 20% in a brown trout diet.     

Morphofunctional characterization of hemocytes in black soldier fly larvae

In insects, the cell-mediated immune response involves an active role of hemocytes in phagocytosis, nodulation, and encapsulation. Although these processes have been well documented in multiple species belonging to different insect orders, information concerning the immune response, particularly the hemocyte types and their specific function in the black soldier fly Hermetia illucens, is still limited. This is a serious gap in knowledge given the high economic relevance of H. illucens larvae in waste management strategies and considering that the saprophagous feeding habits of this dipteran species have likely shaped its immune system to efficiently respond to infections. The present study represents the first detailed characterization of black soldier fly hemocytes and provides new insights into the cell-mediated immune response of this insect. In particular, in addition to prohemocytes, we identified five hemocyte types that mount the immune response in the larva, and analyzed their behavior, role, and morphofunctional changes in response to bacterial infection and injection of chromatographic beads. Our results demonstrate that the circulating phagocytes in black soldier fly larvae are plasmatocytes. These cells also take part in nodulation and encapsulation with granulocytes and lamellocyte-like cells, developing a starting core for nodule/capsule formation to remove/encapsulate large bacterial aggregates/pathogens from the hemolymph, respectively. These processes are supported by the release of melanin precursors from crystal cells and likely by mobilizing nutrient reserves in newly circulating adipohemocytes, which could thus trophically support other hemocytes during the immune response. Finally, the regulation of the cell-mediated immune response by eicosanoids was investigated.     

Effects of aeration rate and feed on growth,productivity and nutrient composition of black soldier fly (Hermetia illucens L.) larvae

Black soldier fly larvae (Hermetia illucens L.) are widely cultivated as bioconversion agents. These larvae are known to be highly sensitive to changes in the external environment, such as temperature and relative humidity. Therefore, a rearing hive equipped with an instrumentation system known as the Modular Fly Hive was designed to cultivate black soldier larvae. This study aimed to determine the effects of aeration rate (0 – 0.84 m³/s.) and feed type (coconut endosperm waste and soybean curd) on growth and productivity of black soldier fly cultivated in Modular Fly Hives as well as well as feed digestibility and nutrient composition of the larval biomass. Increasing aeration rate decreased the average temperature and relative humidity within the hives. The results showed that the larvae demonstrated a sigmoidal growth curve for all types of feed and the type of feed significantly affects the average wet weight and length of the larvae. The greatest dry biomass productivity (52.85 ± 3.85 g/m²/day) was observed when the larvae were cultivated using soybean curd residue with an aeration rate of 0.84 m³/s, while the lowest dry biomass productivity (35.27 ± 9.72 g/m²/day) was observed when the larvae were cultivated using coconut endosperm waste without aeration. Proximate analysis revealed that the larval biomass had total protein, lipid, ash and carbohydrate content in the range of 37.20 – 48.60%, 9.61 – 20.02%, 4.80 – 6.40%, 33.86 – 38.70%, respectively. Amino acid in the biomass were dominated by glutamic acid (11.11–12.30%), aspartic acid (8.25 – 10.35%), leucine (8.09 – 8.57%), and lysine (6.74 – 8.14%). Lipid isolated from the larval biomass were mainly composed of lauric acid (28.35–61.68%), linoleic acid (6.27 – 30.29%), palmitic acid (7.62 – 15.23%), and myristic acid (5.05 – 14.34%).