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。     

黑水虻对小龙虾废弃物转化效果研究

我国水产养殖业近年来发展迅速,同时也增加了大量水产废弃物,小龙虾Procambarus clarkii废弃物就是其中之一。黑水虻Hermetia illucens能将有机废弃物转化成高附加值的昆虫蛋白,因此,本研究将小龙虾废弃物与蛋白含量较高的豆腐渣混合,设计6个不同混合比例的饲料,筛选出高转化率和高性价比的饲料配方,分析饲料中营养物质降解情况和预蛹的营养成分。结果表明：小龙虾废弃物与豆腐渣按照4∶1混合,黑水虻存活率较高（93.42%±2.65%）,幼虫产量最高（44.27±1.30 g）,料重比最低（2.26±0.07）,预蛹粗蛋白含量可达43.93%±0.49%;饲料残渣中的粗蛋白和粗脂肪含量比原饲料均有降低,其中粗脂肪降幅最大,说明黑水虻对脂肪利用率很高。综合评价认为小龙虾废弃物与豆腐渣4∶1混合为本实验范围内最佳饲料配方,本研究为进一步利用黑水虻处理小龙虾废弃物奠定了基础。     

黑水虻幼虫和预蛹的饲料价值研究进展

黑水虻Hermetia illucens L.是一种全世界广泛分布的资源昆虫,幼虫在自然界以动物粪便、腐烂的有机物,如腐肉、腐烂的水果、蔬菜和植物性垃圾为食,能够被用于畜禽粪便的无害化处理。黑水虻幼虫在将粪便转化成昆虫生物量的同时,减少了粪便的污染。利用畜禽粪便饲养的黑水虻幼虫干重达到42%～43%,其中粗蛋白含量占干重的42%～44%,脂肪含量占干重的31%～35%,灰份占干重的11%～15%,钙质占干重的4.8%～5.1%,磷占干重的0.60%～0.63%。使用粪便饲养的幼虫和预蛹,含有丰富的必需氨基酸和矿物质,是家禽、家畜和鱼类养殖的良好饲料来源。文章综述利用不同动物粪便饲养的黑水虻幼虫和预蛹的饲料价值及其幼虫和预蛹用于鸡、猪和鱼类饲料添加剂的研究进展。     

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。     

沙棘绕实蝇成虫和幼虫人工饲料研究

【目的】本研究建立了沙棘绕实蝇Rhagoletis batava Hering实验种群,为该实蝇生物防治工作奠定基础。【方法】以蜂蜜、蔗糖、酵母膏等为原料,按照不同配比配成饲料,饲养沙棘绕实蝇成虫,观察其对成虫性成熟、交配产卵以及寿命的影响。此外,在室内条件(25.00±2.50)℃,光照周期为15L:9D,相对湿度65.00%±5.00%,以蔗糖、酵母膏、麦麸、沙棘果汁(果酱)等为原料,按照不同配比配成饲料,饲养沙棘绕实蝇幼虫,观察其对幼虫历期+化蛹历期、化蛹率及蛹特性的影响。【结果】4种不同配比的饲料对成虫性成熟、交配时间、产卵痕数量和雌雄成虫寿命有显著影响;其中配方D饲养的沙棘绕实蝇成虫性成熟历期、交配时间和产卵痕数量、雌雄成虫寿命分别为(1.78±0.09)d、(4.15±0.03)h、(4.52±0.17)个、(15.47±0.77)d和(15.15±0.79)d,与配方A、B、C均有极显著性差异(P0.01)。幼虫半人工饲料最佳配方为配方C,其化蛹率、幼虫历期+化蛹历期、蛹长、蛹宽、蛹重分别为50.00%±2.89%、(7.20±0.16)d、(4.74±0.03)mm、(2.45±0.24)mm、(7.21±0.11)mg;全人工饲料最佳配方为配方C,其化蛹率、幼虫历期+化蛹历期、蛹长、蛹宽、蛹重分别为35.00%±7.64%、(5.38±0.18)d、(4.26±0.04)mm、(2.30±0.02)mm、(6.12±0.18)mg;果酱饲料最佳配方为配方C,其化蛹率、幼虫历期+化蛹历期、蛹长、蛹宽、蛹重分别为45.00%±2.89%、(7.11±0.16)d、(4.45±0.07)mm、(2.44±0.02)mm、(6.78±0.21)mg。【结论】沙棘绕实蝇成虫饲养最佳配方为酵母膏20 g、蜂蜜20 g、纯净水160 mL;幼虫半人工饲料最佳配方为蔗糖10 g、酵母膏15 g、麦麸30 g、沙棘果汁50 mL;幼虫全人工饲料最佳配方为蔗糖10 g、酵母膏15 g、麦麸30 g、纯净水50 mL;幼虫饲养最佳果泥饲料配方为沙棘果酱50 g、酵母膏3 g、尼泊尔金0.3 g。     

黑水虻幼虫及预蛹抗逆性的初步研究

本文初步研究了老熟和预蛹阶段的黑水虻Hermetiaillucens对于酒精毒性、氧胁迫和高渗透压条件下的耐受特性,结果显示黑水虻幼虫和预蛹在三种胁迫因子处于20%～60%(浓度)的较低水平时,其平均死亡率低于20%,表现出良好的抗逆性。高浓度的酒精、矿物油和氯化钠溶液对于黑水虻的生存都会产生负面影响,但是幼虫与预蛹由于其生理形态上的变化,致使其在抗逆性方面表现出显著差异,预蛹阶段的黑水虻对矿物油较为敏感,而幼虫则对高盐环境的耐受性表现较弱。     

玉米面水分含量对谷蠹生长发育和繁殖的影响

本文研究了玉米面的水分含量(21.33%、19.35%、18.67%、13.64%、10.98%)对谷蠹Rhyzopertha dominica Fabricius生长发育及产卵的影响。结果表明:玉米面的水分含量对谷蠹幼虫的发育历期影响显著,对卵和蛹的发育历期影响不显著;谷蠹卵的孵化率、幼虫和蛹的存活率在玉米面水分10.98%～19.35%的条件下增大,在玉米面水分21.33%条件下下降;谷蠹幼虫龄数也受到玉米面水分含量的影响,玉米面水分19.35%条件下幼虫龄数在3～5间变化,10.98%条件下幼虫龄数在3～8间变化;在试验的5种玉米面水分中,谷蠹只在19.35%和18.67%条件下才产卵,19.35%条件下日均产卵量和产卵期均大于18.67%条件下的相应值。     

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。     

肠道共生细菌预发酵鸡粪对黑水虻生长发育的影响

以利用黑水虻Hermetia illucens L.肠道共生细菌不同菌株培养液预发酵的鸡粪为培养料,研究了添加不同菌株的发酵鸡粪对黑水虻幼虫生长发育的影响。结果表明,添加不同菌株的预发酵鸡粪能显著增加预蛹和蛹的重量,显著提高化蛹率并增加雌、雄成虫体长,缩短预蛹所需时间,但对幼虫存活率、成虫羽化率、成虫寿命没有显著影响。同时,不同菌株的作用效果有所不同。     

一种红棕象甲人工饲料及其效果

【目的】为评价一种红棕象甲Rhynchophorus ferrugineus Oliver人工饲料的饲养效果。【方法】以自然寄主大王棕和甘蔗饲养红棕象甲作对照,连续3代饲养红棕象甲,对红棕象甲各发育阶段的生长和发育指标进行调查。【结果】用人工饲料饲养的红棕象甲幼虫历期和蛹历期(40.20 d和33.99 d)显著低于对照组(60.87 d和36.12 d;109.00 d和42.70 d),用人工饲料饲养的红棕象甲幼虫存活率(63.87%)显著高于对照组(37.99%和48.60%)。人工饲料饲养的红棕象甲,在单雌产卵量和卵孵化率方面与对照组没有显著差异,在蛹重和成虫体重方面显著小于对照组,蛹重比对照组减少了25.55%和63.87%,成虫体重比对照组减少了24.18%和35.16%。【结论】该人工饲料可以很好的满足红棕象甲生殖发育的营养需求,且缩短了世代发育历期,适于红棕象甲种群规模化、长期饲养。     

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.     

Inoculating poultry manure with companion bacteria influences growth and development of black soldier fly (Diptera: Stratiomyidae) larvae

The growth and development of black soldier fly, Hermetia illucens (L.), larvae fed chicken manure inoculated with bacteria isolated from black soldier fly larvae and associated larval feed was evaluated. Four strains of Bacillus subtilis were evaluated. B. subtilis strains S15, S16, S19, were isolated from the gut of black soldier fly larvae. B. natto strain D1 was isolated from the diet fed to black soldier fly larvae. These bacteria were added individually into nonsterile 200 g fresh hen manure at 10(6) cfu/g and homogenized. Treated manure was then inoculated with 4-d old black soldier fly larvae. Prepupal weight ranged from 0.0606 g in the control to 0.0946 g in manure treated with the S15 strain. Larval survivorship to the prepupal stage in all treatments ranged from 98.00 ± 2.65% to 99.33 ± 1.15%. Prepupal survivorship to the pupal stage ranged from 91.92 ± 1.87% to 97.95 ± 1.03%. Adult emergence from the pupal stage did not significantly (P < 0.05) differ across treatments and ranged from 98.95 ± 1.82% to 100.00 ± 0.00%. Adult body length resulting from the larvae in each of the treatments was significantly greater than those from the control. Longevity of adults did not differ significantly between treatments. Time from hatching to the development of the first pupa did not differ significantly across treatments; however, development time from hatching to 90% reaching the prepupual stage was significantly different between treatments and ranged from 29.00 ± 1.00 d to 34.33 ± 3.51 d. Development time from hatching to 90% reaching the adult stages was significantly different between treatments. Our results demonstrate that inoculating poultry manure with bacteria from black soldier fly larvae influences the growth and development of conspecific larvae feeding on the manure.     

Factors affecting the bioconversion of Philippine tung seed by black soldier fly larvae for the production of protein and oil-rich biomass

A systematic study on the use of Philippine tung (Reutealis trisperma) seed as a substrate for the cultivation of black soldier fly larvae (Hermetia illucens) was performed. The characteristics of Reutealis trisperma seed from two different locations: West Java and Papua, were determined. The seed has a relatively high oil (37.6–39.2%, dry weight) and protein content (14.9–28.2%, dry weight). The effect of cake content in the substrate (0–20%, wet weight), moisture content in the substrate (50–70%, wet weight), feeding rate (50–100?mg/larva/d), lighting condition (dark-light) and substrate depth in a rearing container (4–10?cm) was performed. An optimum prepupal biomass productivity of 123.4?g/m²/d was obtained (20%, wet weight of cake content in the substrate, 60%, wet weight of moisture content in the substrate, 100?mg/larva/d, dark, 6?cm substrate depth). The protein and oil content of the biomass were also determined to evaluate the effect of Reutealis trisperma seed as a substrate for the cultivation of black soldier fly larvae to produce protein and oil-rich biomass. The oil content in the biomass was also extracted and the fatty acid composition was identified. The prepupal biomass has a relatively high amount of protein (45%, dry weight) and oil content (26.6%, dry weight) and is suitable for cattle feed application.     

Susceptibility of black soldier fly (Diptera: Stratiomyidae) larvae and adults to four insecticides

Dosage-mortality regressions were determined for black soldier fly, Hermetia illucens (L.), larvae fed cyromazine or pyriproxifen treated media. Cyromazine LC50 for larvae dying before becoming prepupae ranged from 0.25 to 0.28 ppm with dosage-mortality regression slopes between 5.79 and 12.04. Cyromazine LC50s for larvae dying before emergence ranged from 0.13 to 0.19 ppm with dosage-mortality regression slopes between 3.94 and 7.69. Pyriproxifen dosage-mortality regressions were not generated for larvae failing to become prepupae since <32% mortality was recorded at the highest concentration of 1,857 ppm. LC50s for larvae failing to become adults ranged from 0.10 to 0.12 ppm with dosage mortality-regression slopes between 1.67 and 2.32. Lambda-cyhalothrin and permethrin dosage-mortality regressions were determined for wild adult black soldier flies and house flies, Musca domestica L., and for susceptible house flies. Our results indicate that the wild house fly, unlike the black soldier fly, population was highly resistant to each of these pyrethroids. Regression slopes for black soldier flies exposed to lambda-cyhalothrin were twice as steep as those determined for the wild house fly strain. Accordingly, LC50s for the black soldier fly and susceptible house fly were 10- to 30-fold lower than those determined for wild house flies. The differential sensitivity between wild black soldier flies and house flies might be due to behavioral differences. Adult house flies usually remain in animal facilities with the possibility of every adult receiving pesticide exposure, while black soldier fly adults are typically present only during emergence and oviposition thereby limiting their exposure.     

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.     

黑水虻幼虫处理餐厨垃圾过程中体内养分组成与消化酶活性变化规律的研究

黑水虻Hermetia illucens作为一种新型资源环境昆虫,其幼虫可以处理餐厨垃圾、畜禽粪便、蔬菜残体等各种有机废弃物。幼虫富含蛋白质和油脂,可以作为水产饲料的蛋白来源。本研究探索黑水虻幼虫处理餐厨垃圾过程中其养分组成与消化酶活性变化之间的关系。通过黑水虻幼虫自由取食餐厨垃圾,每日采集样品用于物质养分和消化酶活性的测定。结果显示：黑水虻幼虫粗蛋白含量呈现先下降后上升的变化规律,而幼虫总糖含量呈现先上升后下降的变化规律,粗脂肪含量维持上升的趋势。幼虫处理餐厨垃圾过程中,体内蛋白酶在初期迅速上升,第6天后逐渐下降,而淀粉酶呈现出先缓慢上升再迅速上升最后下降的变化规律。脂肪酶在黑水虻幼虫处理餐厨垃圾前期保持较高的活性然后缓慢下降。同时,通过相关性分析,黑水虻幼虫粗蛋白含量变化与蛋白酶活性没有相关性,而总糖与粗脂肪含量变化分别与淀粉酶、脂肪酶有相关性。因此,部分消化酶活性变化与黑水虻幼虫养分组成具有一定的联系,本研究结果为工厂化养殖黑水虻提供一定的理论基础。