纪佳雨;邓玲聪;李广东;李佩玉;许道军;

• 1:湖南农业大学动物医学院

摘要(Abstract)：

黑水虻是一种营腐食性昆虫,其幼虫食性杂、食量大、抗逆性强。将黑水虻幼虫用于畜禽粪污的处理,其能够有效集中地采食畜禽粪便,减少粪便的堆积,并且黑水虻可以作为优质的动物蛋白饲料,处理后的畜禽粪便可直接作为有机肥原料。黑水虻被认为是一种极有应用前景的资源化利用的昆虫。文中根据近年来黑水虻的相关研究进展,从废物利用、饲料代替和其资源化利用的几个方面进行综述,使其进一步应用于畜禽废弃物处理和资源化利用。

关键词(KeyWords)： 黑水虻;动物蛋白;畜禽废弃物;资源化利用

Abstract:

Keywords:

基金项目(Foundation): 2019年湖南省研究生科技创新项目(CX20190510)

作者(Authors): 纪佳雨;邓玲聪;李广东;李佩玉;许道军;

DOI: 10.13326/j.jea.2019.1409

参考文献(References)：

• [1]张铭杰．利用黑水虻处理农村易腐垃圾技术研究[D]．杭州:浙江大学，2019．
• [2]Sánchez-Muros M J,Barroso F G,Manzano-Agugliaro F.Insect meal as renewable source of food for animal feeding:a review[J].Journal of Cleaner Production,2014,65(4):16-27．
• [3]Lalander C H,Fidjeland J,Diener S,et al.High waste-tobiomass conversion and efficient Salmonella spp.reduction using black soldier fly for waste recycling[J].Agronomy for Sustainable Development,2015,35(1):261-271．
• [4]Mohd-Noor S N,Wong C Y,Lim J W,et al.Optimization of selffermented period of waste coconut endosperm destined to feed black soldier fly larvae in enhancing the lipid and protein yields[J].Renewable Energy,2017,111:646-654．
• [5]徐歆歆，赵俊兰，窦永芳，等．利用裂殖壶藻藻渣提升黑水虻油脂营养价值的研究[J]．饲料工业，2019,40(10):27-32．
• [6]农业部．全国每年38亿吨畜禽废弃物综合利用率只有6成[J]．家禽科学，2018 (3):5．
• [7]Van Huis A.Potential of insects as food and feed in assuring food security[J].Annual Review of Entomology,2013,58(1):563-583．
• [8]Erkosar B,Storelli G,Mitchell M,et al.Pathogen virulence impedes mutualist-mediated enhancement of host juvenile growth via inhibition of protein digestion[J].Cell Host&Microbe,2015,18(4):445-455．
• [9]杨森．热带地区连续培养亮斑扁角水虻(Hermetia illucens L．)和生物转化猪粪研究[D]．武汉:华中农业大学，2010．
• [10]Bosch G,van Zanten H H E,Zamprogna A,et al.Conversion of organic resources by black soldier fly larvae:Legislation,efficiency and environmental impact[J].Journal of Cleaner Production,2019,222:355-363．
• [11]Sheppard C.House fly and lesser fly control utilizing the black soldier fly in manure management systems for caged laying hens[J].Environmental Entomology,1983,12(5):1439-1442．
• [12]Fujita A.Lysozymes in insects:what role do they play in nitrogen metabolism?[J].Physiological Entomology,2004,29(4):305-310．
• [13]Rehman K U,Cai M M,Xiao X P,et al.Cellulose decomposition and larval biomass production from the co-digestion of dairy manure and chicken manure by mini-livestock (Hermetia illucens L.)[J].Journal of Environmental Management,2017,196:458-465．
• [14]邓辉，王成，吕豪豪，等．堆肥过程放线菌演替及其木质纤维素降解研究进展[J]．应用与环境生物学报，2013,19(4):31-36．
• [15]许道军，文利新，薛立群，等．基于热重法的干清猪粪直接燃烧特性分析[J]．农业工程学报，2014,30(5):162-168．
• [16]Bosch G,Felsklerx H,Rijk T,et al.Aflatoxin B1 tolerance and accumulation in black soldier fly larvae (Hermetia illucens)and yellow mealworms (Tenebrio molitor)[J].Toxins,2017,9(6):185．
• [17]Charlton A J,Dickinson M,Wakefield M E,et al.Exploring the chemical safety of fly larvae as a source of protein for animal feed[J].Journal of Insects as Food and Feed,2015,1 (1):7-16．
• [18]Mathews S L,Pawlak J,Grunden A M.Bacterial biodegradation and bioconversion of industrial lignocellulosic streams[J].Applied Microbiology and Biotechnology,2015,99(7):2939-2954．
• [19]Erickson M C,Islam M,Sheppard C,et al.Reduction of Escherichia coli O157:H7 and Salmonella enterica serovar enteritidis in chicken manure by larvae of the black soldier fly[J].Journal of Food Protection,2004,67(4):685-690．
• [20]杨树义，李卫娟，刘春雪，等．发酵猪粪对黑水虻转化率的影响及黑水虻幼虫和虫粪营养成分测定[J]．安徽农业科学，2016,44(21):69-70．
• [21]刘巧林．黑水虻在奶牛粪便中生长对大肠杆菌ER2566的影响[D]．武汉:华中农业大学，2008．
• [22]Lalander C,Senecal J,Gros C M,et al.Fate of pharmaceuticals and pesticides in fly larvae composting[J].Science of The Total Environment,2016,565:279-286．
• [23]Dobermann D,Field L M,Michaelson L V.Using Hermetia illucens to process Ugandan waragi waste[J].Journal of Cleaner Production,2019,211:303-308．
• [24]姬越，任德珠，叶明强，等．黑水虻对食料中p H值、辣度及盐度的耐受性[J]．应用与环境生物学报，2018,24(3):636-639．
• [25]Biancarosa I,Liland N S,Biemans D,et al.Uptake of heavy metals and arsenic in black soldier fly (Hermetia illucens)larvae grown on seaweed-enriched media[J].Journal of the Science of Food and Agriculture,2018,98(6):2176-2183．
• [26]刘宏宇．Zn2+在黑水虻幼虫血淋巴内累积及对酶活性和蛋白质影响的初步研究[D]．遵义:遵义医学院，2016．
• [27]Bugg T D H,Ahmad M,Hardiman E M,et al.The emerging role for bacteria in lignin degradation and bio-product formation[J].Current Opinion in Biotechnology,2011,22(3):394-400．
• [28]Surendra K C,Olivier R,Tomberlin J K,et al.Bioconversion of organic wastes into biodiesel and animal feed via insect farming[J].Renewable Energy,2016,98:197-202．
• [29]Gao Z H,Deng W H,Zhu F.Reference gene selection for quantitative gene expression analysis in black soldier fly (Hermetia illucens)[J].PLoS One,2019,14(8):1-14．
• [30]Chen A X,Li J,Lv X,et al.Development of manure management system with Hermetia illucens[J].Environmental Science&Technology,2010,33(3):113-116．
• [31]Mata-Alvarez J,Dosta J,Romero-Güiza M S,et al.A critical review on anaerobic co-digestion achievements between 2010and 2013[J].Renewable and Sustainable Energy Reviews,2014,36:412-427．
• [32]Zhou G X,Xu X F,Qiu X W,et al.Biochar influences the succession of microbial communities and the metabolic functions during rice straw composting with pig manure[J].Bioresource Technology,2019,272:10-18．
• [33]Barry T.Evaluation of the Economic,Social,and Biological Feasibility of Bioconverting Food Wastes with the Black Soldier Fly (Hermetia illucens)[D].Denton,USA:University of North Texas,2004．
• [34]Msangi S,Rosegrant M W,Fan S,et al.Feeding the future's changing diets:implications for agriculture markets,nutrition,and policy[J].International Food Policy Research Institute,2012,101:65-71．
• [35]Carvalho M,Sampaio J L,Palm W,et al.Effects of diet and development on the Drosophila lipidome[J].Molecular Systems Biology,2012,8(1):600．
• [36]Bondari K,Sheppard D C.Soldier fly,Hermetia illucens L.,larvae as feed for channel catfish,Ictalurus punctatus(Rafinesque),and blue tilapia,Oreochromis aureus (Steindachner)[J].Aquaculture Research,1987,18(3):209-220．
• [37]St-Hilaire S,Cranfill K,Mc Guire M A,et al.Fish offal recycling by the black soldier fly produces a foodstuff high in Omega-3 fatty acids[J].Journal of the World Aquaculture Society,2007,38(2):309-313．
• [38]Lock E R,Arsiwalla T,WaagbR.Insect larvae meal as an alternative source of nutrients in the diet of Atlantic salmon(Salmo salar) postsmolt[J].Aquaculture Nutrition,2016,22(6):1202-1213．
• [39]Tschirner M,Simon A.Influence of different growing substrates and processing on the nutrient composition of black soldier fly larvae destined for animal feed[J].Journal of Insects as Food and Feed,2015,1(4):249-259．
• [40]Henry M,Gasco L,Piccolo G,et al.Review on the use of insects in the diet of farmed fish:Past and future[J].Animal Feed Science and Technology,2015,203:1-22．
• [41]李俊波，陈吉红，赵智勇．亮斑扁角水虻对鸡粪、猪粪的利用以及水虻作为蛋白质、能量饲料资源的营养价值评价研究[J]．养猪，2016 (4):87-88．
• [42]张放，杨伟丽，杨树义，等．黑水虻虫粉对生长猪生长性能和血清生化指标的影响[J]．动物营养学报，2018,30(6):2346-2351．
• [43]Barragan-Fonseca K B,Dicke M,van Loon J J A.Nutritional value of the black soldier fly (Hermetia illucens L.) and its suitability as animal feed-a review[J].Journal of Insects as Food and Feed,2017,3(2):105-120．
• [44]Spranghers T,Michiels J,Vrancx J,et al.Gut antimicrobial effects and nutritional value of black soldier fly (Hermetia illucens L.) prepupae for weaned piglets[J].Animal Feed Science and Technology,2018,235:33-42．
• [45]喻国辉，李一平，杨玉环，等．低含水量饲料对黑水虻生长发育的影响[J]．昆虫学报，2014,57(8):943-950．
• [46]易昌金，胡俊茹，胡毅，等．凡纳滨对虾对黑水虻幼虫粉营养物质的表观消化率[J]．饲料工业，2018,39(4):21-26．
• [47]Kroeckel S,Harjes A G E,Roth I,et al.When a turbot catches a fly:Evaluation of a pre-pupae meal of the Black Soldier Fly(Hermetia illucens) as fish meal substitute-Growth performance and chitin degradation in juvenile turbot (Psetta maxima)[J].Aquaculture,2012,364/365:345-352．
• [48]Magalh2es R,Sánchez-López A,Leal R S,et al.Black soldier fly (Hermetia illucens) pre-pupae meal as a fish meal replacement in diets for European seabass (Dicentrarchus labrax)[J].Aquaculture,2017,476:79-85．
• [49]胡俊茹，何飞，莫文艳，等．采食不同有机废弃物黑水虻幼虫饲料价值分析[J]．中国饲料，2017 (15):24-27．
• [50]Losey J E,Vaughan M.The economic value of ecological services provided by insects[J].Bioscience,2006,56 (4):311-323．
• [51]Liu C C,Wang C W,Yao H Y.Comprehensive resource utilization of waste using the black soldier fly (Hermetia illucens L.)(Diptera:Stratiomyidae)[J].Animals,2019,9(6):349．
• [52]陈海洪，张磊，张国生，等．黑水虻处理新鲜猪粪效果初探[J]．江西畜牧兽医杂志，2018 (4):25-28．
• [53]李卫娟，周文君，杨树义，等．黑水虻虫沙对白菜生长性能的影响[J]．安徽农业科学，2016,44(10):111-112,115．
• [54]平磊．利用亮斑扁角水虻转化畜禽粪便工艺条件的优化及应用[D]．武汉:华中农业大学，2010．
• [55]吴翔，胡从勇，蔡瑞婕，等．虫粪有机肥对番茄生长及品质的影响[J]．北方园艺，2019 (3):60-64．
• [56]Kim W,Bae S,Park K,et al.Biochemical characterization of digestive enzymes in the black soldier fly,Hermetia illucens(Diptera:Stratiomyidae)[J].Journal of Asia-Pacific Entomology,2011,14(1):11-14．
• [57]Gligorescu A,Toft S,Hauggaard-Nielsen H,et al.Development,growth and metabolic rate of Hermetia illucens larvae[J].Journal of Applied Entomology,2019,143(8):875-881．
• [58]陈晓瑛，胡俊茹，王国霞，等．黑水虻幼虫粉替代鱼粉对黄颡鱼幼鱼生长性能、肌肉品质及血清生化指标的影响[J]．动物营养学报，2019,31(6):2788-2799．
• [59]陈苏婉，代春华，刘晓叶，等．黑水虻蛋白质酶法提取及其性质的初步研究[J]．食品工业，2019,40(8):24-27．
• [60]Blahovec J,Kostecka Z,Kocisova A.Peptidolytic enzymes in different larval stadium of housefly Musca domestica[J].Veterinarni Medicina,2018,51(4):139-144．
• [61]吴成龙，尹金来，徐阳春，等．碱胁迫对菊芋幼苗生长及其光合作用和抗氧化作用的影响[J]．西北植物学报，2006,26(3):447-454．
• [62]Gao Q,Deng W H,Gao Z H,et al.Effect of sulfonamide pollution on the growth of manure management candidate Hermetia illucens[J].PLoS One,2019,14(5):e0216086．
• [63]韦珂，蓝红新，石杰东，等．大麦虫沙-桑枝杆栽培大杯蕈的研究[J]．南方园艺，2014,25(2):6-8．
• [64]刘金钊．基于固体废弃物的益生菌混合发酵及其对土壤微生态的作用机制研究[D]．济南:齐鲁工业大学，2017．
• [65]Choi Y C,Choi J Y,Kim J G,et al.Potential usage of food waste as a natural fertilizer after digestion by Hermetia illucens(Diptera:Stratiomyidae)[J].International Journal of Industrial Entomology,2009,19(1):171-174．
• [66]滕星，张永锋，温家伟，等．黑水虻生物特性及其人工养殖的影响因素研究进展[J]．吉林农业大学学报，2019,41(2):134-141.