不同饲养密度对亮斑扁角水虻幼虫生长发育及新鲜牛粪转化率的影响

为了解决养牛业中粪便污染问题,本研究利用亮斑扁角水虻(黑水虻)来转化利用牛粪,探讨了饲养密度对新鲜牛粪的转化效率。本试验以亮斑扁角水虻为研究对象,选择设置每20.0 kg牛粪投入3500头、8750头、17500头4日龄幼虫3个处理密度,在每个密度日均1.0 kg等量饲喂条件下,分析亮斑扁角水虻幼虫百虫重、粗蛋白、粗脂肪、牛粪转化率指标的差异,探索一种适于亮斑扁角水虻幼虫处理新鲜牛粪的饲养密度。结果表明:百虫重、粗蛋白、粗脂肪3个指标在3组处理之间都存在极显著差异。百虫重和粗脂肪两个指标和试验组密度情况在0.01的水平上显著负相关,但3个处理中转化率最高的为8750头的饲养密度。综合评价认为亮斑扁角水虻4日龄幼虫8750头/20.0 kg牛粪的投入量为实验范围内最佳饲养密度。     

亮斑扁角水虻幼虫酶解制备蛋白胨工艺优化及蛋白胨性质

【背景】用于餐厨垃圾等有机废弃物处理的亮斑扁角水虻(Hermetia illucens, HI)含有丰富的氨基酸和营养物质,是一种优质、经济的蛋白来源。【目的】利用亮斑扁角水虻幼虫(Hermetia illucens larvae, HIL)制备蛋白胨用于细菌培养,为亮斑扁角水虻的应用方式提供新的思路。【方法】以亮斑扁角水虻幼虫为原料,利用单因素试验确定最佳酶解条件,对比分析HIL蛋白胨和市售胰蛋白胨的基本性质和功能性状,并进行细菌培养、生物化学试验,利用两种蛋白胨分别培养大肠杆菌(Escherichia coli) ATCC 25922模式细菌并通过生长动力学分析评价应用效果。【结果】制备HIL蛋白胨的最佳酶解工艺为按1.3%(质量分数)添加复合酶(胰酶:碱性蛋白酶质量比为1:1),在pH 7.0、54℃条件下反应4 h,此时HIL的水解度为(19.34±0.15)%。HIL蛋白胨和市售胰蛋白胨的功能性状和生物化学试验差异不显著(P>0.05)。大肠杆菌ATCC25922在HIL蛋白胨培养基中生长的X_max和λ分别为6.44和2.45,在市售胰蛋白胨生长的...     

亮斑扁角水虻对有机废弃物的应用及其肠道微生物研究进展

有机废弃物的安全处理与二次利用是当今社会发展进程中的一大难题,亮斑扁角水虻Hermetia illucens强大的生物转化能力可有效解决此类问题：一方面,亮斑扁角水虻可大量消耗有机废弃物,有效治理环境污染;另一方面,转化后的虫体营养价值高,广泛应用于养殖领域。然而,亮斑扁角水虻的生物转化作用机制目前尚不明确,可转化的有机废弃物范围及其转化效率的影响因素仍有待探讨。本文结合近年来关于亮斑扁角水虻领域的研究,主要从亮斑扁角水虻对有机废弃物的生物转化作用、转化效率的影响因素、虫沙的应用和肠道微生物的功能4个方面进行综述,同时对未来需要解决的问题进行了展望,以期为亮斑扁角水虻的综合开发利用提供参考依据。     

非水虻源微生物与武汉亮斑水虻幼虫联合转化鸡粪的研究

【目的】益生微生物在协助亮斑扁角水虻幼虫转化有机废弃物、提高其转化效率方面具有重要的作用,本研究针对非水虻源微生物,开展与水虻联合转化鸡粪的研究,以阐明外源微生物在水虻转化畜禽粪便中的作用,对其转化机制的研究及产业化生产具有重要意义。【方法】采用稀释涂平板的方法进行鸡粪堆肥和猪粪堆肥中细菌的分析,并将筛选到的细菌分别接种到无菌的鸡粪基质中与武汉亮斑水虻幼虫联合转化,通过称重法测定转化后武汉亮斑水虻及鸡粪的重量,评价转化效果及对幼虫的影响,然后将促进转化效果明显的菌株按不同比例进行复配,与武汉亮斑水虻幼虫联合转化新鲜鸡粪,分析复配菌剂对武汉亮斑水虻幼虫转化鸡粪的影响。【结果】结果显示R-07、R-09、F-03和F-06在促进武汉亮斑水虻幼虫生长和鸡粪转化的效果上最为显著。与对照组相比,水虻幼虫转化率分别提高了27.21%、15.00%、9.93%和16.29%;基质减少率分别提高了17.94%、10.42%、7.84%和9.27%。将这4株细菌配制复配菌剂与武汉亮斑水虻幼虫联合转化鸡粪,结果显示复配比例为R-07:R-09:F-03:F-06=4:1:1:1时效果最好,与空白对照相比,武汉亮斑水虻幼虫存活率提高了10.25%,幼虫虫重增加了28.41%,幼虫转化率增加了30.46%,鸡粪减少率增加了7.69%。【结论】添加通过筛选优化的非水虻来源的微生物复合菌剂能够促进水虻高效转化鸡粪,研究结果有助于改善现有的武汉亮斑水虻幼虫转化体系,为开发新型的联合转化工艺、更加有效地处理畜禽粪便奠定基础。     

武汉亮斑扁角水虻幼虫肠道微生物对其成虫产卵行为的影响

研究武汉亮斑扁角水虻幼虫肠道微生物对武汉亮斑水虻成虫产卵行为的影响。首先使用LB(Luria-Bertani)培养基对武汉亮斑水虻幼虫肠道微生物进行分离纯培养,筛选得到23株肠道微生物。以灭菌的LB液体培养基为阴性对照,使用已证实引诱产卵效果好的来自武汉亮斑水虻卵表的属于戈登氏菌属的细菌(Gordonia sihwensis)FE06为阳性对照,利用筛选到的武汉亮斑水虻幼虫肠道微生物摇瓶发酵液对武汉亮斑水虻成虫进行产卵行为实验。发现有5株武汉亮斑水虻幼虫肠道微生物(BSFLG01、BSFLG03、BSFLG04、BSFLG05、BSFLG06)对武汉亮斑水虻产卵有显著的积极促进作用,其中3株(BSFLG03、BSFLG05、BSFLG06)对水虻成虫产卵的引诱作用明显强于所设立的阳性对照FE06;菌株BSFLG07为一种毕赤酵母菌(Pichia kudriavzevii),对武汉亮斑水虻产卵有消极影响。经菌落培养特征、菌体形态比较、16SrDNA或18SrDNA序列测定和发育树比对分析,鉴定出这5种具有显著引诱武汉亮斑水虻产卵作用的微生物分别为:枯草芽胞杆菌(Bacillus subtilis)BSFLG01、一种沙雷氏菌(Serratiasp.)BSFLG03、库德毕赤酵母(Pichia kudriavzevii)BSFLG04、皱落假丝酵母(Candida rugosas)BSFLG05、粘质沙雷氏菌(Serratia marcescens)BSFLG06。     

亮斑扁角水虻卵共生菌Bacillus velezensis的鉴定和产酶特征及其对幼虫分解餐厨垃圾效率的影响

[目的] 从亮斑扁角水虻（Hermetia illucens L.）卵表筛选得到一株产多种酶的卵表共生菌,对该菌进行鉴定,并探究其最适生长条件、产酶特性及其对幼虫分解餐厨垃圾效率的影响。[方法] 通过多种选择性培养基筛选得到产多种酶的菌株。通过单因素实验方法确定其最适生长条件、产酶特性及其对幼虫分解餐厨垃圾效率的影响。[结果] 经过形态学观察、生理生化鉴定和16S rDNA序列分析,将该株亮斑扁角水虻卵表共生菌命名为贝莱斯芽胞杆菌（Bacillus velezensis EEAM 10B）。最适摇瓶培养条件为：40℃,200 r/min,pH 7.0,酵母浸粉10 g/L,葡萄糖10 g/L,培养16 h活菌数达3.1×10⁹ CFU/mL。进入稳定期后开始形成单端生芽胞,24 h后芽胞形成率95.8%。使用产酶筛选培养基培养结果表明：B.velezensis EEAM 10B菌株产木聚糖酶活性最强,其次是蛋白酶、纤维素酶、果胶酶、淀粉酶和植酸酶。按照1×10⁶ CFU/g用量添加B.velezensis EEAM 10B芽胞制剂到餐厨垃圾中饲养亮斑扁角水虻,B.velezensis EEAM 10B芽胞菌剂能够显著（P<0.05）提高亮斑扁角水虻幼虫对灭菌和非灭菌餐厨垃圾的转化效率,分别为13.4%和13.54%,但物料减少率没有显著差异（P>0.05）;显著提高灭菌餐厨垃圾中幼虫存活率至95%,提高非灭菌餐厨垃圾饲养幼虫的预蛹单重0.1437 g/只,化蛹率92.57%。[结论] B.velezensis EEAM 10B菌株能够产多种酶,且在亮斑扁角水虻处理餐厨废弃物中有潜在应用价值。     

温度对金黄指突水虻发育的影响

金黄指突水虻Ptecticus aurifer Walker,是一种具有潜在利用价值的资源昆虫.在15、33、35℃条件下,金黄指突水虻未能正常发育.在17、20、25、30℃下,卵、幼虫、预蛹、蛹发育历期随温度升高而缩短,金黄指突水虻从卵到成虫的平均历期分别为69.4、48.3、36.9、34.5 d.温度与各虫态发育历期之间呈二次曲线关系.上述4种温度条件下,90％幼虫变成预蛹所用时间分别是27.5、20.8、16.8、15.3 d,预蛹个重分别为0.245、0.221、0.178、0.163 g.综合分析,饲养金黄指突水虻幼虫的最适温度为20 ～25℃.     

亮斑扁角水虻卵携带细菌的分离鉴定及其对成虫产卵行为影响

【目的】分离鉴定对亮斑扁角水虻Hermetia illucens产卵具有诱导作用卵携带细菌,探索提高亮斑扁角水虻人工繁育过程中卵收集效率途径。【方法】使用脑心浸出液肉汤(BHI)培养基对亮斑扁角水虻卵携带细菌分离纯培养;以灭菌BHI液体培养基为对照,使用筛选到的单菌株摇瓶发酵液对亮斑扁角水虻成虫进行产卵诱导试验。【结果】筛选纯培养到15株细菌,编号分别为EEAM-1,EEAM-2,EEAM-3,EEAM-5,EEAM-6,EEAM-7,EEAM-8,EEAM-9,EEAM-10A,EEAM-10B,EEAM-11,EEAM-12,EAM-13,EEAM-14和EEAM-15。经发酵液产卵诱导试验,发现有5株能显著提高亮斑扁角水虻成虫产卵量的菌株,分别为EEAM-3,EEAM-6,EEAM-7,EEAM-10A和EEAM-10B。经菌落培养特征、菌体形态比较、16S rDNA序列测定和发育树比对分析鉴定这5株细菌分别为:特基拉芽孢杆菌Bacillus tequilensis、粘质沙雷氏菌Serratia marcescens、粪肠球菌Enterococcus faecalis、短杆菌属Brevibacterium sp.和甲基营养芽孢杆菌Bacillus methylotrophicus。其中,EEAM-7粪肠球菌E.faecalis发酵液诱导的亮斑扁角水虻成虫产卵量最高,是对照组的7.400倍;其次为EEMA-10B甲基营养芽孢杆菌B.methylotrophicus,诱导的产卵量是对照组的6.531倍;再次是EEMA-6粘质沙雷氏菌S.marcescens、EEAM-10A短杆菌Brevibacterium sp.和EEMA-3特基拉芽孢杆菌B.tequilensis,诱导的产卵量分别是是对照组的5.100,4.187和2.636倍。【结论】亮斑扁角水虻卵携带细菌能显著影响繁殖期成虫产卵量,为建立稳定水虻人工养殖体系提供理论依据。     

鞭角华扁叶蜂对自然生境柏木挥发物释放的影响

植物挥发物（Volatile organic compounds;VOCs）在植物抵御害虫侵袭的过程中具有重要作用。本研究以重庆市云阳县长江林场人工林中健康和受害柏木为研究对象,通过VOCs测定分析发现鞭角华扁叶蜂虫害发生之前,两种柏木共计有37种VOCs成分,主要为萜类化合物,其次为醇、酯、醛、烷烃等类化合物;其中健康柏木特有驱赶作用的2-莰醇（龙脑）,受害柏木特有吸引作用的顺式-2-癸烯醛,其余35种为共有成分;各成分浓度在两种柏木中存在较大差异。虫害发生之后,两种柏木共计有32种VOCs成分,而2-莰醇、顺式-2-癸烯醛、薄荷醇、臭樟脑和α-石竹烯等5种成分消失;许多成分的浓度变化趋势与虫害发生前的相反。结果表明健康与受害柏木VOCs释放的差异可能是柏木能否抵御鞭角华扁叶蜂侵害的主要防御机制之一,这将为优良抗虫柏木选育提供理论依据和参考指标。     

氮磷对青岛大扁藻和牟氏角毛藻单养和共培养生长的影响

通过实验生态学的方法,分别以KNO3和KH2PO4为氮源和磷源,研究青岛大扁藻(Platymonas helgolandicavar.tsingtaoensis)和牟氏角毛藻(Chaetoceros muelleri Lemmerman)单培养和共培养时的生长状况。结果显示,不同氮磷处理对两种藻的单培养和共培养都有显著影响(P<0.05)。共培养时,青岛大扁藻的最大藻密度与氮磷浓度呈正相关。氮处理时,当培养液中KNO3为110 mg/L时,取得最大值;磷处理时,青岛大扁藻的最大藻密度在KH2PO4为9 mg/L时取得最大值;而牟氏角毛藻分别在KNO3为70 mg/L和KH2PO4为5 mg/L时取得最大值。共培养时两种藻的藻密度都低于单培养。另外,无论低氮高磷还是高氮低磷都不利于两种藻获得较大的终细胞密度。     

Bioconversion of poultry manure and vegetable waste mixes by Hermetia illucens (Diptera: Stratiomyidae)

Development time, survival and final nutrient content of Hermetia illucens L. larvae depends on the substrates in which they develop. Mixing different waste types together can increase the performance and survival of the larvae, as well as their waste reduction. The main objective of this study was to evaluate the effect of different ratios of mixed fruit and vegetable waste with poultry manure on larval development time, size, biomass production, survival, bioconversion and waste reduction. Freshly hatched neonates (90 mg; approx. 6000 individuals) were placed on 12 kg of a mixture of fruit and vegetable waste and fresh, unprocessed poultry manure and held at 28 ± 0.5°C. Inclusion of fruit and vegetable waste varied from 0% to 100% in 10% increments. Initial temperature of the substrate was also measured. The individual mass of larvae increased significantly as more fruit and vegetable waste was included, from less than 81.3 ± 6.6 mg on poultry manure only to an average size of 211.6 ± 6.0 mg at 100% fruit and vegetable waste. After approximately 60% inclusion of fruit and vegetable waste the performance and survival of the larvae increased significantly while development time was reduced. A combination of high fruit and vegetable waste and low initial temperatures resulted in lower development time overall. The mixing of wastes can be applied in industry to further the goals of waste reduction and biomass production while incorporating low-quality wastes like poultry manure.     

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.     

Novel antibacterial peptides induced by probiotics in Hermetia illucens (Diptera: Stratiomyidae) larvae

There is a need to discover new therapeutic substances due to the emergence of deadly infectious diseases and various antibiotic resistance. We focused on the larvae that are utilized as a medical insect for the treatment of skin damage in Europe and America. This study was to investigate the pharmacological activities of novel antibacterial peptides isolated from Hermetia illucens larvae against the Klebsiella pneumoniae and Shigella dysenteriae. The larvae were immunized by probiotics (Lactobacillus casei) for 24 h. The hemolymph from the immunized larvae was fractionated through reverse‐phase chromatography. Peptides were purified using HPLC and the coomassie blue staining, and identified using Nano‐LC‐ESI‐MS/MS system. Antibacterial activities of the peptides were evaluated by turbidometric assay, liquid broth dilution assay, resazurin assay, and agar disk diffusion method. The minimum inhibitory concentrations (MICs) of the peptides were measured as 150 μg/mL through the turbidometric, liquid broth dilution, and resazurin assays. The peptides effectively inhibited their growth/proliferation as well as the survival rate of the tested bacteria. Furthermore, the immunized larvae exhibited overexpression of the peptides compared to non‐immunized larvae. These results demonstrate that the peptides induced by H. illucens exert strong antibacterial activity against Gram‐negative bacteria. The results suggest that the activation of the humoral immunity induced by immunization functioned to enhance the production of antibacterial peptides from the insect and their antibacterial properties. This study indicates the potential of the peptides produced from larvae as antibacterial peptide substance for the development of novel antibacterial drugs.     

低含水量饲料对黑水虻生长发育的影响

【目的】了解低含水量饲料对黑水虻Hermetia illucens生长发育的影响。【方法】在27℃、RH 80%、光周期14L∶10D的饲养条件下,以含水量70%人工饲料饲养黑水虻为对照,比较饲料含水量降为30%和50%时黑水虻幼虫的存活率、幼虫体重、雌雄成虫体长、羽化率以及不同发育阶段持续时间等生物学参数与对照组的差异。【结果】30%和50%含水量饲料饲养幼虫平均体重与对照幼虫相比显著降低（P<0.05）,30%和50%含水量两个处理间体重亦有显著差异（P<0.05）。黑水虻幼虫不能在含水量30％的人工饲料中发育至预蛹,大部分幼虫至13 d时死亡。50%含水量饲料饲养幼虫比对照延迟5 d出现预蛹,滞后14 d结束预蛹,预蛹过程耗时18 d,比对照延长8 d;50%含水量饲料饲养雌雄虫比对照成虫体长显著缩短（P<0.05）,雌雄成虫羽化时间亦比对照延后5 d,雌雄成虫羽化历期均为18 d,比对照增加5 d;50%含水量饲料饲养黑水虻自卵孵化至蛹全部羽化为成虫所需时间比对照延长10.67 d,所需时间为55.67 d,而对照仅需45.00 d;但是50%含水量饲料饲养幼虫存活率和成虫羽化率与对照相比差异均不显著（P>0.05）。【结论】含水量低于70%的人工饲料不利于黑水虻的生长发育。     

Effect of the rearing diet on gene expression of antimicrobial peptides in Hermetia illucens (Diptera: Stratiomyidae)

Insect proteins have been proposed for human and animal food production. Safeguarding the health status of insects in mass rearing allows to obtain high-quality products and to avoid severe economic losses due to entomopathogens. Therefore, new strategies for preserving insect health must be implemented. Modulation of the insect immune system through the diet is one such strategy. We evaluated gene expression of two antimicrobial peptides (one defensin and one cecropin) in Hermetia illucens (L.) (Diptera: Stratiomyidae) reared on different diets. Analyses were performed on prepupae and 10-day-old larvae reared on cereal- and municipal organic waste-based diets and on only prepupae reared on a cereal-based diet supplemented with sunflower, corn, or soybean oil. The inclusion of sunflower oil at different points in the cereal-based diet was also evaluated. Moreover, diet-driven differences in the inhibitory activity of the hemolymph were tested against Escherichia coli DH5α and Micrococcus yunnanensis HI55 using diffusion assays in solid media. Results showed that a municipal organic waste-based diet produced a significant overexpression of antimicrobial peptides only in prepupae. Inclusion of vegetable oils caused an upregulation of at least one peptide, except for the corn oil. Higher expression of both genes was observed when sunflower oil was added 5 days before pupation. All hemolymph samples showed an inhibitory activity against bacteria colonies. Our results suggest that municipal organic waste-based diet and vegetable oil-added diet may successfully impact the immune system of H. illucens. Such alternatives may also exist for other species of economic interest.     

黑水虻幼虫的耐饥力及饥饿幼虫复食后的生物学特性

【目的】旨在明确黑水虻Hermetia illucens幼虫的耐饥力及饥饿幼虫复食后的发育、生殖力等生物学特性,为评估饥饿对黑水虻后续发育的影响并指导生产实践提供依据。【方法】将不同日龄或不同体重黑水虻幼虫进行不同时长的饥饿处理,测定和分析其耐饥力与日龄、百头重的关系;对7日龄幼虫进行不同时长的饥饿处理后再复喂,测定不同饥饿时长对其预蛹出现时间、总预蛹率、预蛹重、成虫繁殖等的影响。【结果】黑水虻幼虫饥饿后的半数致死时间(LT₅₀)与日龄成指数关系,与体重呈线性相关。7日龄幼虫的耐饥力较强,LT₅₀超过了50 d,饥饿30 d时存活率仍然达到了95%。百头重小于0.5 g的个体,其LT₅₀小于30 d;百头重在2～2.5 g的个体,其LT₅₀在45～70 d。幼虫超过8日龄时或百头重超过4.5 g时,多数个体在饥饿5 d时就提前进入了后续发育阶段。7日龄幼虫饥饿40 d内复食,其预蛹率未受到影响,但预蛹重显著增加;短期饥饿(0～10 d)对其成虫产卵量无显著影响,长期饥饿(30～40 d)使其成虫产卵量显著下降;饥饿长达30 d以上时,卵孵化率也显著降低。【结论】本研究明确了不同体重或不同日龄的黑水虻幼虫都具有一定的耐饥力;饥饿幼虫复食后预蛹重显著增加。     

Development of black soldier fly (Diptera: Stratiomyidae) larvae fed dairy manure

Black soldier flies, Hermetia illucens L., are a common colonizer of animal wastes. However, all published development data for this species are from studies using artificial diets. This study represents the first examining black soldier fly development on animal wastes. Additionally, this study examined the ability of black soldier fly larvae to reduce dry matter and associated nutrients in manure. Black soldier fly larvae were fed four rates of dairy manure to determine their effects on larval and adult life history traits. Feed rate affected larval and adult development. Those fed less ration daily weighed less than those fed a greater ration. Additionally, larvae provided the least amount of dairy manure took longer to develop to the prepupal stage; however, they needed less time to reach the adult stage. Adults resulting from larvae provided 27 g dairy manure/d lived 3-4 d less than those fed 70 g dairy manure. Percentage survivorship to the prepupal or adult stages did not differ across treatments. Larvae fed 27 g dairy manure daily reduced manure dry matter mass by 58%, whereas those fed 70 g daily reduced dry matter 33%. Black soldier fly larvae were able to reduce available P by 61-70% and N by 30-50% across treatments. Based on results from this study, the black soldier fly could be used to reduce wastes and associated nutrients in confined bovine facilities.     

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.     

Hexanedioic acid from Hermetia illucens larvae (Diptera: Stratiomyidae) protects mice against Klebsiella pneumoniae infection

The antibacterial effects of larval extract from Hermetia illucens, commonly known as the black soldier fly, have been demonstrated in vitro. In this study, gas chromatography–mass spectrometry analysis identified the active compound within this larval extract as hexanedioic acid. The antibacterial effects of hexanedioic acid were investigated in mice infected with Klebsiella pneumoniae. After administration of hexanedioic acid, infected mice showed decreased lung bacterial loads and lower rates of body weight loss compared to those in the infection‐only control group. Based on lung bacterial loads, oral hexanedioic acid treatment showed better protection than intraperitoneal treatment. Histopathology confirmed that daily administration of hexanedioic acid for 10 days showed zero toxicity to the kidneys or livers of mice. Therefore, hexanedioic acid may be a novel antibacterial agent.     

Wohlfahrtiimonas larvae sp. nov., isolated from the larval gut of Hermetia illucens (Diptera: Stratiomyidae)

A novel, Gram-negative, facultative anaerobic, motile and short rod-shaped bacterium, strain KBL006^T was isolated from the larval gut of Hermetia illucens, Black soldier fly. The 16S rRNA gene sequence of strain KBL006^T showed 96.4 % similarity to that of Wohlfahrtiimonas chitiniclastica S5^T. Strain KBL006^T grew optimally at 30 °C, at pH 8.0 and in the presence of 1–2 % (w/v) NaCl. Oxidase activity and catalase activity were positive. The major fatty acids were C_18:1 ω7c, C_14:0, and C_16:0. The major respiratory quinone was ubiquinone-8 (Q-8). The major polar lipids were phosphatidylethanolamine, phosphatidylglycerol, and diphosphatidylglycerol, and two phospholipids. The G+C content of the genomic DNA was 45.2 mol%. Based on these polyphasic data, strain KBL006^T is considered to represent a novel species in the genus Wohlfahrtiimonas, for which the name Wohlfahrtiimonas larvae sp. nov. is proposed. The type strain is KBL006^T (= KACC 16839^T = JCM 18424^T).