稀土氧化镧对黄粉虫生长繁殖的影响
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摘要
黄粉虫(Tenebrio molitor L.)是一种具有高营养价值、多种保健功能的资源昆虫。稀土元素(rare earths,简称REs)由于其特殊的电子结构,在合适的浓度范围内可促进生物生长、提高繁殖率、提高生物产物的品质、增强生物抗逆性和免疫力。近年来已广泛应用到农业、畜牧业和医学等领域。
本研究在每千克麦麸饲料中添加10~300mg等10个浓度的稀土氧化镧,用此饲料来饲喂黄粉虫幼虫和成虫,研究稀土对幼虫的生长、成虫的繁殖力、不同虫态酯酶同工酶的变化、幼虫体内氧化镧的残留量以及对实验动物昆明种小白鼠的作用。
实验结果发现,在每1kg麦麸中添加40mg的稀土氧化镧使黄粉虫的生理生化指标与对照组相比发生显著差异,是最佳处理浓度。可使幼虫体重增加达对照的1.43倍,产卵高峰期成虫日平均产卵量是对照的1.59倍,各虫态酯酶同工酶酶带数也有增多。以此剂量的稀土饲喂的虫体不会造成小白鼠各项生理指标与对照组和实验对照组的差异。离子发射光谱法测定揭示,此灌喂的黄粉虫幼虫体内仅有3%的镧在虫体内,在小鼠主要组织器官内稀土的富集量极少。
Tenebrio molitor L. is a kind of resource insects, which has high nourishing value and various healthy care functions. The rare earth elements (REs) have special electronic constructions, treated with suitable dosages, the REs may have fine biologic effects in promoting the growth, enhancing the rate of propagation, heightening the quality of outcome, elevating the resistance to stress and immunity on some animals and plants. Hence, the REs have been extensively applied in the agriculture, livestock and medical science etc.
Ten treatments of lanthanum oxide with the densities from 10 mg to 300 mg ,each mixed with 1 kg of wheat bran were set to feed the larvae and adults of Tenebrio molitor. The model was set up by studying the lanthanum to larval growth, the reproductive capacity, the change of esterase isoenzyme in different developing stages of T. molitor, the remaining of the La in the larvae, and the larval toxicology to the mouse.
The results of the experiments showed that, among the 10 densities, compared with the control group the beetles treated with 40 mg La/ kg bran had the best result in physiology and bio-chemistry . This treatment made the larvae put 43% more weight, the amount of daily oviposition of females increased 59%. Kunming mice those fed on the treated larvae were not significantly different from control mice in the weights of body and organs. 3% La was detected accumulated by the larvae, and few in the organs of mouse.
本研究在每千克麦麸饲料中添加10~300mg等10个浓度的稀土氧化镧,用此饲料来饲喂黄粉虫幼虫和成虫,研究稀土对幼虫的生长、成虫的繁殖力、不同虫态酯酶同工酶的变化、幼虫体内氧化镧的残留量以及对实验动物昆明种小白鼠的作用。
实验结果发现,在每1kg麦麸中添加40mg的稀土氧化镧使黄粉虫的生理生化指标与对照组相比发生显著差异,是最佳处理浓度。可使幼虫体重增加达对照的1.43倍,产卵高峰期成虫日平均产卵量是对照的1.59倍,各虫态酯酶同工酶酶带数也有增多。以此剂量的稀土饲喂的虫体不会造成小白鼠各项生理指标与对照组和实验对照组的差异。离子发射光谱法测定揭示,此灌喂的黄粉虫幼虫体内仅有3%的镧在虫体内,在小鼠主要组织器官内稀土的富集量极少。
Tenebrio molitor L. is a kind of resource insects, which has high nourishing value and various healthy care functions. The rare earth elements (REs) have special electronic constructions, treated with suitable dosages, the REs may have fine biologic effects in promoting the growth, enhancing the rate of propagation, heightening the quality of outcome, elevating the resistance to stress and immunity on some animals and plants. Hence, the REs have been extensively applied in the agriculture, livestock and medical science etc.
Ten treatments of lanthanum oxide with the densities from 10 mg to 300 mg ,each mixed with 1 kg of wheat bran were set to feed the larvae and adults of Tenebrio molitor. The model was set up by studying the lanthanum to larval growth, the reproductive capacity, the change of esterase isoenzyme in different developing stages of T. molitor, the remaining of the La in the larvae, and the larval toxicology to the mouse.
The results of the experiments showed that, among the 10 densities, compared with the control group the beetles treated with 40 mg La/ kg bran had the best result in physiology and bio-chemistry . This treatment made the larvae put 43% more weight, the amount of daily oviposition of females increased 59%. Kunming mice those fed on the treated larvae were not significantly different from control mice in the weights of body and organs. 3% La was detected accumulated by the larvae, and few in the organs of mouse.
引文
1 杨冠煌主编.中国昆虫资源利用和产业化[M].北京:中国农业出版社,1998,13~21.
2 陈根富,刘团举.黄粉虫的生物学特性及养殖技术的研究[J].福建师范大学学报.1992,8(1):66~74.
3 Fred P., Mutchmor L. A.. Effects of temperature, relative humidity and period of exposure on the survival capacity of Tenebrio molitor[J]. J Kan Entomol Soc.1980, 53(2): 260~270.
4 彭中健,黄秉资.黄粉虫的研究[J].昆虫知识.1993,30(2):111~115.
5 陈彤.黄粉虫养殖与利用[M].北京:金盾出版社,2000.
6 柴培春,张润杰.饲养密度对黄粉虫幼虫生长发育的影响[J].昆虫知识 2001,38(6):452~455.
7 杨兆芬,曾兆华,曹长华等.黄粉虫成虫繁殖力的研究[J].华东昆虫学报 1999,8(1):103~106.
8 Tyshchenko V. P., Amadu S.B.. The photoperiodic regulation of larval growth and pupation in the mealworm beetle, Tenebrio molitor[J]. J Entomol Obozr. 1986,65(1): 3~12.
9 Manojlovic, Bozidar. Influence of food on the weight of pupae and imagos, duration of life of imagos and fetility of the yellow mealworm Tenebrio molitor L[J]. J Zast Bilja. 1988, 39(2): 115~124.
10 Grzegorz R., Obuchowicz L., Smolka E.. Effect of starvation on the level of some carbohydrates in Tenebrio molitor L. Iarvae[J]. Bull Soc Amis Soi Lett Poznan Ser D Sci Biol. 1978, (18): 81~88.
11 Bendz D., Singh V.P., Aunknown K.M. etc. The influence of a static, homogenous magnetic field[B=320mT] on extra cardiac pulsations of Tenebrio molitor pupae[J]. J Insecy Physiol. 1997, 43(11): 979~989.
12 张桂银,孙婷婷.磁场对黄粉虫生长影响的探讨[J].昆虫知识 1994,31(3):177~178.
13 周志芳,赵香兰,徐秋等.弱磁场对黄粉虫生长影响的探讨[J].昆虫知识 1996,33(31):177~180.
14 赵万勇,杨兆芬,强承魁 脉冲磁场对黄粉虫生长发育的影响[J].经济动物学报.2004,8(1):41~43.
15 Riddiford L.M.. Cellular and molecular actions of juvenile hormones Ⅰ: general considerations and premetamorphic actions[J]. J Adv Insect Physiol,1994, 24: 213~273.
16 Wyatt G. R., Davey, K. D.. Cellular and molecular actions of juvenile hormones. Ⅱ: Roles of juvenile hormone in adult insects[J]. J Adv Insect Physiol, 1996, 26: 151~156.
17 Menon M. D.. Nair K. K. Age-dependent effects of synthetic JH on phermone synthesis in adult females of Tenebrio molitor[J]. J Ann Entomol Soc Am. 1976,457~458.
18 Grimnes K. A., Happ G. M. Ecdysteroids in vitro promote differentiation in the accessory glands of male mealworm beetles[J]. Experientia. 1987,43(8): 906~907.
19 Menon Maya. Hormone-pheromone relationships of male Tenebrio molitor[J]. Insect Physiol. 1976, 22(7): 1021~1023.
20 Connat J.L.. Juvenile hormone esterase activity during the last larval and pupal stage of Tenebrio molitor[J]. J Insect Physiol. 1983, 29(6): 515~522.
21 Tschinkel, W. R., Willson, C. D. [J] J Exp Zool 1971,(176): 137~146.
22 Weaver D. K., Mcfarlane J. E., Alli J. I.. Aggregation in yellow mealworms,Tenebrio molitor L.: I. Individual and group attraction to frass and isolation of an aggregant[J]. J Chem Ecol. 1989, 15(5): 1605~1616.
23 Ratcliffe N. A. Rowley A. F.. Insect responses to Parasites and other Pathogens In: Immune Responsesin Parasitic Infection: Immunology, Immunopathology and Immunoprophylaxis, eidted by Soulsby[M]. J L Florida: Crc Press, 1987, 271~332.
24 Rahmet Alla. M., Rowley A F. Studies on the Cellular Defense Reactions of the Madeira Cockroach, L eucophaea maderae: Nodule Formation in Responses to
Injected bacteria[J]. J Invert Pathol, 1989, 54: 200~207.
25 Strand M. R, Noda T. Alterations in the Hemocytes of Pseudoplusia includens after parasitism by Mi-croplitis demolitor[J]. J Insect Physiol, 1991, 37: 839~850.
26 Kanehisa, Katsuo. Comparative study of the abdominal defensive systems in tenebrionid beetles[J]. Ber Oh Ara Inst Landwirtsch Biol Okayama Univ. 1978,17(2): 47~56.
27 Walter R Tschinkel. 6-Alkylated-naphthoquinones from defensive secretion of the enebrionid beetle, Argoporis alutacea[J]. J insect physiol 1975, 21(4): 753~783.
28 Lee K. H., Hong S. Y., Oh J. E.. Synthesis and structure-function study about tenecin 1. an antibacterial protein from larvae of Tenebrio molitor[J]. Febs Letters.1998, 439(1): 41~45.
29 Ramsay R A. The rectal complex of the mealworm, Tenebrio molitor L(Coleopteta Tenebrionidae)[J]. Phil. Trans.R.Soc.London B., 1964, 248: 279~314.
30 Grimstone A. V., Mulllinger A. M., Ramsay J. A., Further Studies on the rectal complex of the mealworm, Tenebrio molitor[J]. Phil. Trans. R. Soc. London B. 1968, 1968, 253: 343~382.
31 Patterson J. L., John G. D.. Purification and composition of proteinantifreezes with high cysteine contents from larval of the beetle, Tenebrio molitor[J]. J Exp Zool. 1982, 219(3): 381~384.
32 Graham L. A. Walker V. K. Davies P. L.. Developmental and environmental regulation of antifreeze proteins in the mealworm beetle Tenebrio molitor[J]. Eur J Biochem. 2000, 267(21): 6452~6458.
33 Moon H. J., Lee S. Y., Kurata S.. etc. Purification and molecular cloning of cDNA for an inducible antibacterial protein from larvae of coleopteran Tenebrio molitor[J]. J Biochemistry, 1994, 116(1): 53~58.
34 王远程,孙东旭.昆虫抗菌物质的诱导和应用[J].微生物学通报.1994,21(1):290~292.
35 Natori S. Furure drugs mimicking insect defense proteins: sarcophaga lectin and sarcotoxin Ⅰ[J]. Drugs of Future, 1998, 13(1): 59~68.
36 王小平 徐冠军 黄粉虫幼虫免疫血淋巴最佳制样条件的确定[J].华中农业大学学报.1998,17(5):442~446.
37 韩润林,孙庆林,额尔敦夫等.黄粉虫幼虫中抗菌肽的诱导及其抗菌活性的初步研究[J].内蒙古农牧学院学报.1998,19(3):114~117.
38 Ferreira A. H., Marana S. R., Terra W. R. et al. Purification, molecular cloning, and properties of a b-glycosidase isolated from midgut lumen of Tenebrio molitor larvae[J]. Insect Biochem Mol Bio. 2001, 31(11): 1065~1076.
39 陈杰林,李健扬,夏传国.两种中药材活性物质对黄粉虫幼虫的生物学效应[J].植物保护学报.1998,25(2):191~192.
40 Happ G. M.. Maturation of the male reproductive system and its endocrine regulation[J]. Ann. Rev. Entomol. 199237: 303~320.
41 马金生,吕传会,张霞.黄粉虫繁殖生物学的研究[J].山东教育学院学报.2001,5:81~83.
42 白耀宇 程家安 我国黄粉虫的营养价值和饲养方法[J].昆虫知识.2003,40(4):317~322.
43 李东,亓珊,陈婕等.黄粉虫营养成分分析及黄粉虫应用开发可行性研究[J].《食品工业科技》1999年增刊——北京食品学会成立二十周年论文集.1999:114~117.
44 陈彤,王克.黄粉虫等昆虫的营养价值与食用性研究[J].西北农业大学学报.1997,25(4):78~82.
45 林学岷,崔蕊静,徐金祥等.黄粉虫氨基酸水解液的研制[J].河北农业技术师范学院学报.1997,11(7):16~20.
46 赵大军.黄粉虫的营养成分及食用价值[J].粮油食品科技.2000,8(2):41~42.
47 杨兆芬,林跃鑫,陈寅山等.黄粉虫幼虫营养成分分析和保健功能的实验研究[J].昆虫知识.1999,36(2):97~101.
48 谢保令.黄粉虫营养成分的分析研究[J].昆虫知识.1994,31(3):175~176.
49 葛盛芳,程义稳,李步青.黄粉虫三个生长期生化成分分析[J].安徽大学
学报.1991,3:86~88.
50 叶兴乾,苏平,胡萃.黄粉虫主要营养成分的分析和评价[J].浙江农业大学学报.1997,23(5):35~38.
51 冀宪领,盖英萍.黄粉虫蛋白质的提取工艺研究[J].食品科技.2000(5):24~25.
52 周琼,张健,候东军等.昆虫功能性油脂的研究[J].粮油加工与食品机械.2003,(1):37~39.
53 赵大军.黄粉虫食品的开发利用[J].农牧产品开发.2000,(3):9~10.
54 Dadd R H. Essential fatty acids: insects and verte-brates compared. Mittler T E,Dadd R H, eds. Metabolic aspects of lipid nutrition in insects[M].Boulder, Colo.: Westview Press. 1983, 107~147.
55 万本屹,董海洲,刘传富.黄粉虫油脂精炼工艺研究[J].粮食与油脂.2001,10:30~31.
56 冯彦博.黄粉虫中无机元素和维生素的测定与研究[J].食品研究与开发.2002,23(2):57~59.
57 张潜龙.农业发展论丛(养殖业)[M].1998,9:23~24.
58 崔蕊静.林学岷.利用黄粉虫生产酱油的技术[J].中国调味品.1997,219:20~20.
59 冯彦博.黄粉虫清蛋糕的研制[J].粮油加工与食品机械.2002 3:48~49.
60 叶兴乾,胡萃.食用昆虫的研究进展[J].食品与发酵工业.1996,(4):70~75.
61 崔蕊静,郑立红,周丽艳.黄粉虫在面包生产中的应用[J].食品工业.1998,(6):26~27.
62 王强华.一种富硒粉的制作方法.发明专利公报.1994,10(16):20.
63 宋志刚,朱立贤,袁磊等.利用饲喂黄粉虫进行牛粪无害化处理的研究[J]畜禽业 2001.8:42~43.
64 刘怀如,杨兆芬,檀东飞等.黄粉虫虫粪的肥效研究[J].泉州师范学院学报.2003,21(4):68~71.
65 王久兴,董爱花等.黄粉虫粪在黄瓜育苗中的应用[J].河北职业技术师范学院学报.2003 17(1):20~22.
66 王金胜,郭春绒,程玉香.铈离子清除超氧自由基的机理[J].中国稀土学报..1997,15(2):151~154.
67 Fairclough R.H.,Miake Lye R.C., stroud R.M.,et al. Location of terbium binding sites on scerylcholine receptor-enriched nutrition of brassica napus L[J]. J Mol Biol. 1986, 673~685.
68 魏幼章.稀土在农业中应用的生理学基础[J].植物营养与肥料学报 2000,6(4):464~470.
69 郭站勇,张宇生,张宏江.外源稀土进入动物体内的途径、分布、代谢及毒性[J].1997,18(1):61~72.
70 孟路,丁兰,陈杭亭等.稀土生物效应研究(Ⅰ)-正常人血浆中稀土含量及其物种分布[J].高等学校化学学报.1999,20(1):5~8.
71 纪云晶,王宗惠,栗建林等.稀土与肿瘤关系的探讨[J].卫生毒理学杂志.1994,8(3):164~170.
72 王宗惠,苏英,庞新民等.稀土防癌实验及对NK细胞活力影响的观察[J].卫生毒理学杂志.1994,8(3):200~202.
73 纪云晶,肖白,王宗惠等.轻稀土元素抑癌作用机理研究[J].卫生毒理学杂志.1996,10(4):223~227.
74 王夔主编.生命科学中的微量元素(下卷)[M].北京:中国计量出版社.1992,242~309.
75 刘术侠,王力,刘彦勇等.钨钛磷形体杂多酸盐的合成及其抗艾滋病病毒活性的研究[J].中国稀土学报.1997,15(1):59~63.
76 雷衡毅,苏应娟,龚孟濂等.稀土对鸡组织同工酶谱影响饲料中稀土对鸡体6种组织淀粉酶同工酶谱的影响[J].1997,36(6):117~119.
77 申治国,杨维东,刘洁生等.长期低剂量喂饮稀土Y对小鼠内脏组织中微量元素含量的影响.中国卫生检验杂志.2001,11(6):641~642.
78 张君倩,孙聘颜,钟广涛等.稀土元素对小白鼠的生物效应[J].稀土2000,21(4):73~74.
79 穆传杰,段翠莲.稀土化合物致突变性的研究[J].中国稀土学报.1996,14(1):22~25.
80 纪云晶,崔明珍,高淑清等.中国稀土学报:稀土卫生毒理学专辑[J].1985,65~69.
81 倪嘉缵.稀土生物无机化学[M].北京:科学出版社.1995,235~336.
82 Evans C. Biochemistry Of Lanthanides[M], 1990, New York: Plenum Press,: 362~380.
83 杨频,魏春英.稀土与细胞、器官、组织的作用及其生理效应[J].化学通报[J].1996,(7):14~17.
84 卢然,朱严楣,陈杭亭稀土在鼠肝中的物种分布[J].高等学校化学学报.2002,23(1):1~5.
85 黄丽玫,陈志澄,颜戊利等.稀土元素的致突变性研究[J].中国环境科学.16(4):262~265.
86 郭文奇,徐茂生,吴念慈.稀土配合物对蚕种生产的应用效果[J].中国蚕业.1996,(70):12.
87 朱家芹,张睿,钟清文等.稀土养蚕机理研究[J].稀土 1990,11(3):26~28.
88 张迈生,李小梅,朱家芹等.蚕中稀土元素走向的剖析-TBA分光光度法[J].稀土.1990,11(4):51~52,22.
89 胡泗才,谢钦铭,陈清等.稀土硝酸盐对蛙、蟾蜍及蜜蜂急性毒性的研究[J].环境科学.1988,9(3):167.
90 Niuyen Trong, et al. Biological activities of some complexes of rare earth with L-asperity acid[J]. Tapchi Hoa Hoc. 1992, 90(4): 38~41.
91 杜荣骞.生物统计学[M].1999,7高等教育出版社,Springer express.
92 叶榕村 稀土元素、脉冲磁场对黄粉虫的生理影响.福建师范大学硕士论文 2003,1~21.
93 张龙翔,张廷芳,李令媛等.生化实验方法和技术[M].北京:人民教育出版社.1981.94~111
94 莽克强,徐乃正,方荣祥.聚丙烯酰胺凝胶电泳[M].北京:北京科学出版
社,1975.34~39.
95 谭维嘉,梁革梅.对酯酶同工酶染色方法的一点改进[J].植物保护,1997,23(2):38~38.
96 宁加贵.稀土在农业上的应用[M].1989,长沙:湖南科技出版社.
97 孙玉梅,王敦清.螨酯酶同工酶的比较研究[J].昆虫学报.1988,31(4):401~406.
98 李丹,雷衡毅,龚孟濂等.稀土对家鸡组织中酯酶同工酶酶谱的影响[J].中山大学学报.1997,36(4):102~104.
99 He M.L.,Wang Y.Z.,Xu Z.R. etc. Effect of dietary rare earth alements on growth performance and blood parameters of rats.[J] J. Anim. Physio. Anim. Nutri. 2003,87(5,6): 229~235.
100 杨兆芬,倪明,黄敏等.黄粉虫成虫繁殖力及影响幼虫发育的因素[J].昆虫知识.1999,36(1):24~27.
101 崔明珍,王海峰,蔡丽等.稳定稀土元素在大鼠体内分布和贮留的研究[J].中国稀土学报.1985,13(1):28~31.
102 Tschinkel W.R.. A comparative study of the chemical defensive system of tenebrionid beetles[Ⅰ]: Chemistry of the secretions[J]. Journal of Insect Physiology, 1975, 21: 753~783.
103 Bernstein D.I., Gallagher J.S., Bernstein I. L. Mealworm asthma: clinical and immunologic studies[J]. J. Allergy Clin Immunol., 1983, 72(5 part Ⅰ): 475~480.
2 陈根富,刘团举.黄粉虫的生物学特性及养殖技术的研究[J].福建师范大学学报.1992,8(1):66~74.
3 Fred P., Mutchmor L. A.. Effects of temperature, relative humidity and period of exposure on the survival capacity of Tenebrio molitor[J]. J Kan Entomol Soc.1980, 53(2): 260~270.
4 彭中健,黄秉资.黄粉虫的研究[J].昆虫知识.1993,30(2):111~115.
5 陈彤.黄粉虫养殖与利用[M].北京:金盾出版社,2000.
6 柴培春,张润杰.饲养密度对黄粉虫幼虫生长发育的影响[J].昆虫知识 2001,38(6):452~455.
7 杨兆芬,曾兆华,曹长华等.黄粉虫成虫繁殖力的研究[J].华东昆虫学报 1999,8(1):103~106.
8 Tyshchenko V. P., Amadu S.B.. The photoperiodic regulation of larval growth and pupation in the mealworm beetle, Tenebrio molitor[J]. J Entomol Obozr. 1986,65(1): 3~12.
9 Manojlovic, Bozidar. Influence of food on the weight of pupae and imagos, duration of life of imagos and fetility of the yellow mealworm Tenebrio molitor L[J]. J Zast Bilja. 1988, 39(2): 115~124.
10 Grzegorz R., Obuchowicz L., Smolka E.. Effect of starvation on the level of some carbohydrates in Tenebrio molitor L. Iarvae[J]. Bull Soc Amis Soi Lett Poznan Ser D Sci Biol. 1978, (18): 81~88.
11 Bendz D., Singh V.P., Aunknown K.M. etc. The influence of a static, homogenous magnetic field[B=320mT] on extra cardiac pulsations of Tenebrio molitor pupae[J]. J Insecy Physiol. 1997, 43(11): 979~989.
12 张桂银,孙婷婷.磁场对黄粉虫生长影响的探讨[J].昆虫知识 1994,31(3):177~178.
13 周志芳,赵香兰,徐秋等.弱磁场对黄粉虫生长影响的探讨[J].昆虫知识 1996,33(31):177~180.
14 赵万勇,杨兆芬,强承魁 脉冲磁场对黄粉虫生长发育的影响[J].经济动物学报.2004,8(1):41~43.
15 Riddiford L.M.. Cellular and molecular actions of juvenile hormones Ⅰ: general considerations and premetamorphic actions[J]. J Adv Insect Physiol,1994, 24: 213~273.
16 Wyatt G. R., Davey, K. D.. Cellular and molecular actions of juvenile hormones. Ⅱ: Roles of juvenile hormone in adult insects[J]. J Adv Insect Physiol, 1996, 26: 151~156.
17 Menon M. D.. Nair K. K. Age-dependent effects of synthetic JH on phermone synthesis in adult females of Tenebrio molitor[J]. J Ann Entomol Soc Am. 1976,457~458.
18 Grimnes K. A., Happ G. M. Ecdysteroids in vitro promote differentiation in the accessory glands of male mealworm beetles[J]. Experientia. 1987,43(8): 906~907.
19 Menon Maya. Hormone-pheromone relationships of male Tenebrio molitor[J]. Insect Physiol. 1976, 22(7): 1021~1023.
20 Connat J.L.. Juvenile hormone esterase activity during the last larval and pupal stage of Tenebrio molitor[J]. J Insect Physiol. 1983, 29(6): 515~522.
21 Tschinkel, W. R., Willson, C. D. [J] J Exp Zool 1971,(176): 137~146.
22 Weaver D. K., Mcfarlane J. E., Alli J. I.. Aggregation in yellow mealworms,Tenebrio molitor L.: I. Individual and group attraction to frass and isolation of an aggregant[J]. J Chem Ecol. 1989, 15(5): 1605~1616.
23 Ratcliffe N. A. Rowley A. F.. Insect responses to Parasites and other Pathogens In: Immune Responsesin Parasitic Infection: Immunology, Immunopathology and Immunoprophylaxis, eidted by Soulsby[M]. J L Florida: Crc Press, 1987, 271~332.
24 Rahmet Alla. M., Rowley A F. Studies on the Cellular Defense Reactions of the Madeira Cockroach, L eucophaea maderae: Nodule Formation in Responses to
Injected bacteria[J]. J Invert Pathol, 1989, 54: 200~207.
25 Strand M. R, Noda T. Alterations in the Hemocytes of Pseudoplusia includens after parasitism by Mi-croplitis demolitor[J]. J Insect Physiol, 1991, 37: 839~850.
26 Kanehisa, Katsuo. Comparative study of the abdominal defensive systems in tenebrionid beetles[J]. Ber Oh Ara Inst Landwirtsch Biol Okayama Univ. 1978,17(2): 47~56.
27 Walter R Tschinkel. 6-Alkylated-naphthoquinones from defensive secretion of the enebrionid beetle, Argoporis alutacea[J]. J insect physiol 1975, 21(4): 753~783.
28 Lee K. H., Hong S. Y., Oh J. E.. Synthesis and structure-function study about tenecin 1. an antibacterial protein from larvae of Tenebrio molitor[J]. Febs Letters.1998, 439(1): 41~45.
29 Ramsay R A. The rectal complex of the mealworm, Tenebrio molitor L(Coleopteta Tenebrionidae)[J]. Phil. Trans.R.Soc.London B., 1964, 248: 279~314.
30 Grimstone A. V., Mulllinger A. M., Ramsay J. A., Further Studies on the rectal complex of the mealworm, Tenebrio molitor[J]. Phil. Trans. R. Soc. London B. 1968, 1968, 253: 343~382.
31 Patterson J. L., John G. D.. Purification and composition of proteinantifreezes with high cysteine contents from larval of the beetle, Tenebrio molitor[J]. J Exp Zool. 1982, 219(3): 381~384.
32 Graham L. A. Walker V. K. Davies P. L.. Developmental and environmental regulation of antifreeze proteins in the mealworm beetle Tenebrio molitor[J]. Eur J Biochem. 2000, 267(21): 6452~6458.
33 Moon H. J., Lee S. Y., Kurata S.. etc. Purification and molecular cloning of cDNA for an inducible antibacterial protein from larvae of coleopteran Tenebrio molitor[J]. J Biochemistry, 1994, 116(1): 53~58.
34 王远程,孙东旭.昆虫抗菌物质的诱导和应用[J].微生物学通报.1994,21(1):290~292.
35 Natori S. Furure drugs mimicking insect defense proteins: sarcophaga lectin and sarcotoxin Ⅰ[J]. Drugs of Future, 1998, 13(1): 59~68.
36 王小平 徐冠军 黄粉虫幼虫免疫血淋巴最佳制样条件的确定[J].华中农业大学学报.1998,17(5):442~446.
37 韩润林,孙庆林,额尔敦夫等.黄粉虫幼虫中抗菌肽的诱导及其抗菌活性的初步研究[J].内蒙古农牧学院学报.1998,19(3):114~117.
38 Ferreira A. H., Marana S. R., Terra W. R. et al. Purification, molecular cloning, and properties of a b-glycosidase isolated from midgut lumen of Tenebrio molitor larvae[J]. Insect Biochem Mol Bio. 2001, 31(11): 1065~1076.
39 陈杰林,李健扬,夏传国.两种中药材活性物质对黄粉虫幼虫的生物学效应[J].植物保护学报.1998,25(2):191~192.
40 Happ G. M.. Maturation of the male reproductive system and its endocrine regulation[J]. Ann. Rev. Entomol. 199237: 303~320.
41 马金生,吕传会,张霞.黄粉虫繁殖生物学的研究[J].山东教育学院学报.2001,5:81~83.
42 白耀宇 程家安 我国黄粉虫的营养价值和饲养方法[J].昆虫知识.2003,40(4):317~322.
43 李东,亓珊,陈婕等.黄粉虫营养成分分析及黄粉虫应用开发可行性研究[J].《食品工业科技》1999年增刊——北京食品学会成立二十周年论文集.1999:114~117.
44 陈彤,王克.黄粉虫等昆虫的营养价值与食用性研究[J].西北农业大学学报.1997,25(4):78~82.
45 林学岷,崔蕊静,徐金祥等.黄粉虫氨基酸水解液的研制[J].河北农业技术师范学院学报.1997,11(7):16~20.
46 赵大军.黄粉虫的营养成分及食用价值[J].粮油食品科技.2000,8(2):41~42.
47 杨兆芬,林跃鑫,陈寅山等.黄粉虫幼虫营养成分分析和保健功能的实验研究[J].昆虫知识.1999,36(2):97~101.
48 谢保令.黄粉虫营养成分的分析研究[J].昆虫知识.1994,31(3):175~176.
49 葛盛芳,程义稳,李步青.黄粉虫三个生长期生化成分分析[J].安徽大学
学报.1991,3:86~88.
50 叶兴乾,苏平,胡萃.黄粉虫主要营养成分的分析和评价[J].浙江农业大学学报.1997,23(5):35~38.
51 冀宪领,盖英萍.黄粉虫蛋白质的提取工艺研究[J].食品科技.2000(5):24~25.
52 周琼,张健,候东军等.昆虫功能性油脂的研究[J].粮油加工与食品机械.2003,(1):37~39.
53 赵大军.黄粉虫食品的开发利用[J].农牧产品开发.2000,(3):9~10.
54 Dadd R H. Essential fatty acids: insects and verte-brates compared. Mittler T E,Dadd R H, eds. Metabolic aspects of lipid nutrition in insects[M].Boulder, Colo.: Westview Press. 1983, 107~147.
55 万本屹,董海洲,刘传富.黄粉虫油脂精炼工艺研究[J].粮食与油脂.2001,10:30~31.
56 冯彦博.黄粉虫中无机元素和维生素的测定与研究[J].食品研究与开发.2002,23(2):57~59.
57 张潜龙.农业发展论丛(养殖业)[M].1998,9:23~24.
58 崔蕊静.林学岷.利用黄粉虫生产酱油的技术[J].中国调味品.1997,219:20~20.
59 冯彦博.黄粉虫清蛋糕的研制[J].粮油加工与食品机械.2002 3:48~49.
60 叶兴乾,胡萃.食用昆虫的研究进展[J].食品与发酵工业.1996,(4):70~75.
61 崔蕊静,郑立红,周丽艳.黄粉虫在面包生产中的应用[J].食品工业.1998,(6):26~27.
62 王强华.一种富硒粉的制作方法.发明专利公报.1994,10(16):20.
63 宋志刚,朱立贤,袁磊等.利用饲喂黄粉虫进行牛粪无害化处理的研究[J]畜禽业 2001.8:42~43.
64 刘怀如,杨兆芬,檀东飞等.黄粉虫虫粪的肥效研究[J].泉州师范学院学报.2003,21(4):68~71.
65 王久兴,董爱花等.黄粉虫粪在黄瓜育苗中的应用[J].河北职业技术师范学院学报.2003 17(1):20~22.
66 王金胜,郭春绒,程玉香.铈离子清除超氧自由基的机理[J].中国稀土学报..1997,15(2):151~154.
67 Fairclough R.H.,Miake Lye R.C., stroud R.M.,et al. Location of terbium binding sites on scerylcholine receptor-enriched nutrition of brassica napus L[J]. J Mol Biol. 1986, 673~685.
68 魏幼章.稀土在农业中应用的生理学基础[J].植物营养与肥料学报 2000,6(4):464~470.
69 郭站勇,张宇生,张宏江.外源稀土进入动物体内的途径、分布、代谢及毒性[J].1997,18(1):61~72.
70 孟路,丁兰,陈杭亭等.稀土生物效应研究(Ⅰ)-正常人血浆中稀土含量及其物种分布[J].高等学校化学学报.1999,20(1):5~8.
71 纪云晶,王宗惠,栗建林等.稀土与肿瘤关系的探讨[J].卫生毒理学杂志.1994,8(3):164~170.
72 王宗惠,苏英,庞新民等.稀土防癌实验及对NK细胞活力影响的观察[J].卫生毒理学杂志.1994,8(3):200~202.
73 纪云晶,肖白,王宗惠等.轻稀土元素抑癌作用机理研究[J].卫生毒理学杂志.1996,10(4):223~227.
74 王夔主编.生命科学中的微量元素(下卷)[M].北京:中国计量出版社.1992,242~309.
75 刘术侠,王力,刘彦勇等.钨钛磷形体杂多酸盐的合成及其抗艾滋病病毒活性的研究[J].中国稀土学报.1997,15(1):59~63.
76 雷衡毅,苏应娟,龚孟濂等.稀土对鸡组织同工酶谱影响饲料中稀土对鸡体6种组织淀粉酶同工酶谱的影响[J].1997,36(6):117~119.
77 申治国,杨维东,刘洁生等.长期低剂量喂饮稀土Y对小鼠内脏组织中微量元素含量的影响.中国卫生检验杂志.2001,11(6):641~642.
78 张君倩,孙聘颜,钟广涛等.稀土元素对小白鼠的生物效应[J].稀土2000,21(4):73~74.
79 穆传杰,段翠莲.稀土化合物致突变性的研究[J].中国稀土学报.1996,14(1):22~25.
80 纪云晶,崔明珍,高淑清等.中国稀土学报:稀土卫生毒理学专辑[J].1985,65~69.
81 倪嘉缵.稀土生物无机化学[M].北京:科学出版社.1995,235~336.
82 Evans C. Biochemistry Of Lanthanides[M], 1990, New York: Plenum Press,: 362~380.
83 杨频,魏春英.稀土与细胞、器官、组织的作用及其生理效应[J].化学通报[J].1996,(7):14~17.
84 卢然,朱严楣,陈杭亭稀土在鼠肝中的物种分布[J].高等学校化学学报.2002,23(1):1~5.
85 黄丽玫,陈志澄,颜戊利等.稀土元素的致突变性研究[J].中国环境科学.16(4):262~265.
86 郭文奇,徐茂生,吴念慈.稀土配合物对蚕种生产的应用效果[J].中国蚕业.1996,(70):12.
87 朱家芹,张睿,钟清文等.稀土养蚕机理研究[J].稀土 1990,11(3):26~28.
88 张迈生,李小梅,朱家芹等.蚕中稀土元素走向的剖析-TBA分光光度法[J].稀土.1990,11(4):51~52,22.
89 胡泗才,谢钦铭,陈清等.稀土硝酸盐对蛙、蟾蜍及蜜蜂急性毒性的研究[J].环境科学.1988,9(3):167.
90 Niuyen Trong, et al. Biological activities of some complexes of rare earth with L-asperity acid[J]. Tapchi Hoa Hoc. 1992, 90(4): 38~41.
91 杜荣骞.生物统计学[M].1999,7高等教育出版社,Springer express.
92 叶榕村 稀土元素、脉冲磁场对黄粉虫的生理影响.福建师范大学硕士论文 2003,1~21.
93 张龙翔,张廷芳,李令媛等.生化实验方法和技术[M].北京:人民教育出版社.1981.94~111
94 莽克强,徐乃正,方荣祥.聚丙烯酰胺凝胶电泳[M].北京:北京科学出版
社,1975.34~39.
95 谭维嘉,梁革梅.对酯酶同工酶染色方法的一点改进[J].植物保护,1997,23(2):38~38.
96 宁加贵.稀土在农业上的应用[M].1989,长沙:湖南科技出版社.
97 孙玉梅,王敦清.螨酯酶同工酶的比较研究[J].昆虫学报.1988,31(4):401~406.
98 李丹,雷衡毅,龚孟濂等.稀土对家鸡组织中酯酶同工酶酶谱的影响[J].中山大学学报.1997,36(4):102~104.
99 He M.L.,Wang Y.Z.,Xu Z.R. etc. Effect of dietary rare earth alements on growth performance and blood parameters of rats.[J] J. Anim. Physio. Anim. Nutri. 2003,87(5,6): 229~235.
100 杨兆芬,倪明,黄敏等.黄粉虫成虫繁殖力及影响幼虫发育的因素[J].昆虫知识.1999,36(1):24~27.
101 崔明珍,王海峰,蔡丽等.稳定稀土元素在大鼠体内分布和贮留的研究[J].中国稀土学报.1985,13(1):28~31.
102 Tschinkel W.R.. A comparative study of the chemical defensive system of tenebrionid beetles[Ⅰ]: Chemistry of the secretions[J]. Journal of Insect Physiology, 1975, 21: 753~783.
103 Bernstein D.I., Gallagher J.S., Bernstein I. L. Mealworm asthma: clinical and immunologic studies[J]. J. Allergy Clin Immunol., 1983, 72(5 part Ⅰ): 475~480.
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