31 Plant Species against Blood Feeding and Disease Vectors Insects: Beyond Anti-Insect Properties, Unvalued Opportunities and Challenges for Health and Sustainability

Plants with bioactive properties are greatly useful in preventing and controlling blood-sucking and disease-vector invertebrates, particularly in developing countries and low-income communities. Their application is a promising alternative to synthetic compounds whose use remains a health, environmental, and economic challenge. However, many are still unknown and unvalued, while others are becoming ignored and threatened. The main objective of this ethnobotanical study is to identify and characterize indigenous and locally grown plants against blood-sucking and disease-vector insects. Salient opportunities and challenges of using these plants are documented and discussed. Semi-structured interviews, using a prepared questionnaire, were conducted with 228 informants. The consensus index (CI) was calculated to analyze the reliability of the collected information. The identified 31 anti-insect plant species belong to 20 botanical families, four morphological categories, and six habitat types. They can be categorized as insecticidal plants (42% of the total), insect repellent (42% of the total), and both insecticidal and insect repellent (16% of the total). More than 54% of these are still abundant in the study area, while about 35.5% have become rare and difficultly accessible. Based on the numerical importance of related anti-insect plant species, the seven targeted blood-sucking insects range in the following decreasing order: Jiggers (16 species) > Fire Ants (9 species) > Flies (8 plants) > Mosquitoes (4 species) > Fleas (2 species) > Bedbugs (1 species) > lice (0 species). The three most commonly used plants, with the highest confirmation indices, are Tetradenia riparia (ICs = 0.712), Eucalyptus globulus subsp. maidenii (ICs = 0.302), and Solanum aculeastrum (ICs = 0.288). The antimicrobial role of many locally grown anti-insect plants and the multiple other associated valorization possibilities are ignored by most informants. Domesticating, propagating, protecting, and promoting the sustainable use of these plants would be an appropriate route for their conservation and continued availability.

Immature Development Time of <i>Hermetia illucens</i>L. in Different Varieties of Feed

Larvae of Hermetia illucens (Diptera: Stratiomyidae) (Black Soldier Fly) are voracious feeders which consume a wide range of organic materials. Thus, they can be used in simple mechanical systems to reduce organic waste and also as a nutritional factor for animal livestock, in the context of recycling the organic matter. In the present study we investigated the effect of two combinations of nutrient substrates on the immature development time of H. illucens. Poultry feed and urban bio-waste (catering organic waste) were used as nutritional substrates in two rates, 150 and 250 mg/larva. Results showed that both the food source and the quantity affected the BSF immature development time significantly. In total, significantly shorter immature development was recorded in poultry feed treatment compared with the catering waste. Moreover, immature development time in the 250 mg/larva/day treatment was significantly shorter compared with the 150 mg/larva/day treatment. Results of the present study could be useful and offer optimal solutions for BSF larvae cultivations, especially in large commercial scale units.

Composition, Structure and Functional Feeding of Aquatic Entomofauna in KodjobouéLake: Water Quality Assessment

The composition, structure and Functional Feeding Groups (FFGs) of aquatic insects were investigated in Kodjoboué lake (South-East of C&#244;te d’Ivoire) to assess water quality. Four sites (K1 - K4) were sampled during eight campaigns. At each site aquatic insects were collected using a kick-net (25 × 20 cm, 500 μm mesh size). Environmental variables were also recorded during this period. Water was collected from each sampling site for nutrient (phosphorus, nitrate) analysis in laboratory. A total of 68 aquatic insect taxa belonging to six orders and 32 families were recorded during the study. Site K4, subject to intense agricultural activity, had the lower diversity and least balanced stand with the lowest values of Shannon-Weaver index, Pielou’s Evenness index and rarefied richness. The functional approach revealed five major FFGs: predators, scrapers, shredders, gatherers-collectors and filter-collectors. Among the different functional feeding groups, the percentage of predators was higher than that of other groups at all the sites. The P/R report indicated that our four sites are characterized as heterotrophic with K1 as the least heterotrophic. Focused Principal Component Analysis (FPCA) showed that parameters of water, like pH, dissolved oxygen, nitrate were statistically correlated with species abundance. The diversity and Functional Feeding Groups metrics of aquatic insects used to describe the state of Kodjoboué lake reveal its disturbed state.

西伯利亚龟象取食对荞麦不同抗感品种生化物质的影响

为探讨抗虫和感虫荞麦品种对西伯利亚龟象Rhinoncus sibiricus取食的反应,选择抗虫品种‘蒙0207’‘晋苦6’和感虫品种‘蒙0208’‘晋苦2’,研究害虫不同程度(轻度、中度和重度)取食情况下,荞麦叶片中营养物质(可溶性蛋白和可溶性糖)和次生代谢物质(单宁、总酚和类黄酮)含量,防御酶[过氧化氢酶(CAT)、苯丙氨酸解氨酶(PAL)]以及蛋白酶抑制剂[胰蛋白酶抑制剂(TI)、胰凝乳蛋白酶抑制剂(CI)]活性的变化,以及西伯利亚龟象体内主要解毒酶活性的变化。结果表明,西伯利亚龟象取食48 h后,各处理组荞麦叶片中可溶性性蛋白、可溶性糖、单宁、总酚和类黄酮的含量以及PAL、CAT、TI、CI活性均有增加。在供试的4个荞麦品种中,抗虫品种被取食后可溶性蛋白和可溶性糖含量上升幅度较感虫品种更大,感虫品种被取食后单宁含量,PAL、TI、CI活性上升幅度较抗虫品种更大。在不同取食程度下,抗虫品种中的TI和CI活性均显著高于感虫品种。西伯利亚龟象成虫取食抗虫荞麦品种后体内羧酸酯酶(CarE)和谷胱甘肽S-转移酶(GSTs)活性均显著高于取食感虫品种的个体。研究结果表明,西伯利亚龟象取食能诱导荞麦抗虫性物质含量的变化,但对荞麦抗性品种与感虫品种的影响不同。

Insect herbivory along environmental gradients

There is a general assumption in the literature that insect herbivory increases towards the tropics, but decreases with increasing altitude. Similar generalities have been identified along other environmental gradients, such as resource, temperature, climatic and biotic gradients. However there is growing evidence in the scientific literature that such generalities are not consistent. This could be due to a number of reasons including the lack of consistency in the way herbivory is assessed such as different methodologies used by researchers, or fundamental differences in leaf damage caused by different types of insect herbivores. Here we assess 61 publications researching insect herbivory along a range of environmental gradients (both biotic and abiotic) and review the methods that researchers have used to collected their data. We found leaf chewing from samples collected in North America dominated the field and most studies assessed herbivory on a single host plant species. Thirty three percent of the studies assessed latitudinal gradients, while 10% assessed altitudinal gradients. Insect herbivory was most commonly expressed as percentage leaf damage using point herbivory. Fewer studies measured a range of different types of herbivory (such as sap sucking, leaf mining, galling, and root feeding) as leaves aged. From our synthesis, we hope that future research into insect herbivory along environmental gradients will take into account herbivory other than just leaf chewing, such as sap sucking, which may cause more damage to plants. Future research should also assess herbivory as a rate, rather than just a single point in time as damage to a young leaf may be more costly to a plant than damage to a mature or senescing leaf. Measurements of plant traits will also assist in comparing herbivory across habitats, plant species, and within species physiological variation. The true impacts that insects have on plants via herbivory along environmental gradients are still poorly understood.

昆虫蛋白开发应用进展及产业前景

昆虫是动物界中物种多样性最高的类群。昆虫不仅具有种类繁多、数量庞大、繁殖性能优良等特点,还含有丰富的营养成分。阐述了昆虫的营养价值,分析了昆虫蛋白在饲料及其他领域的应用现状,总结了昆虫蛋白产业发展过程中面临的问题,并对昆虫蛋白产业的发展前景进行了展望。利用昆虫生物转化废弃物生产昆虫蛋白,不仅能解决环保问题,还能解决饲料蛋白短缺问题,昆虫蛋白产业有益于经济和社会的可持续发展。

2种蚜虫取食诱导棉花对棉长管蚜与棉蚜取食行为的影响

为研究棉长管蚜Acyrthosiphon gossypii与棉蚜Aphis gossypii对蚜虫取食诱导棉花的取食适应性,揭示取食诱导下两种蚜虫的取食竞争机制,采用刺探电位图谱技术(electrical penetration graph, EPG)测定在健康棉花、棉长管蚜或棉蚜诱导的棉花上取食6 h的棉长管蚜和棉蚜的16个重要参数,比较两种蚜虫的取食行为。研究发现:1)取食健康棉花时,棉蚜在木质部(G波)的取食持续总时间长于棉长管蚜,棉蚜在木质部的取食能力大于棉长管蚜,但二者在韧皮部的取食能力相差不大。2)取食棉长管蚜诱导的棉花时,棉蚜取食韧皮部(E2波)持续的总时间为(2 531.33±60.86)s,显著大于棉长管蚜E2波持续总时间[(2 196.00±98.91)s];取食棉蚜诱导的棉花时,棉蚜取食韧皮部、木质部持续的总时间显著长于棉长管蚜(P<0.05),说明棉蚜对于棉蚜诱导棉花的取食耐受性大于棉长管蚜。棉蚜对两种蚜虫取食诱导棉花的适应性更强,更易在竞争中取得优势。棉长管蚜与棉蚜取食棉长管蚜或棉蚜诱导棉花的F波持续总时间长于健康棉花,说明经取食诱导的棉花具有一定的抗虫性。

昆虫蛋白对淘汰蛋鸡养殖的应用效果研究

昆虫蛋白作为生态型、经济型的蛋白饲料资源,是豆粕和鱼粉减量替代的重要产品。本文分别以5.00%、10.00%、15.00%的黑水虻、蝇蛆全脂虫粉替代饲料,从生长性能、生理机能、营养组分和风味品质及经济效益等方面探究其在畜禽淘汰蛋鸡(海兰鸡)养殖中的应用效果,试验周期74 d。结果显示:饲粮中虫粉的替代能一定程度上影响淘汰蛋鸡的产蛋能力,鸡蛋增产率与黑水虻虫粉添加量呈正相关性(P<0.05),当虫粉量达15%时,鸡蛋增产率达到最大,为84.79%;虫粉的替代对淘汰蛋鸡的肝功能负荷、抗氧化能力和机体代谢能力影响并不显著(P>0.05);15.00%蝇蛆虫粉、10.00%黑水虻虫粉及15.00%黑水虻虫粉组的鸡蛋蛋黄卵磷脂含量分别较对照组提升2.90%、10.45%和14.10%(P<0.05);饲粮中添加黑水虻虫粉对鸡腿/胸肉粗蛋白质的转化效果普遍优于蝇蛆虫粉,但并不显著(P>0.05);蝇蛆组对鸡腿肉粗脂肪的转化率则显著高出黑水虻组的15.72%~76.61%(P<0.05);黑水虻虫粉较高的添加比例(15.00%)一定程度上可以改善鸡蛋及鸡肉的口感风味(P<0.05)。黑水虻虫粉的饲喂,可使淘汰蛋鸡养殖的利润提升率达到70.30%,相比蝇蛆虫粉来说具有显著的经济效益。昆虫作为蛋白饲料替代,不仅能够降低饲料成本,提升淘汰蛋鸡的利用价值,还可以缓解当前国内蛋白短缺问题、助力双碳发展,在畜禽养殖中具有良好的可行性。

麦麸改善昆虫饲料调制效果的研究进展

作为农业废弃物清洁转化的有效手段,腐生性昆虫的产业化养殖和深加工利用已成为当今环境、农业和能源等领域的研究热点。添加麦麸可有效改善昆虫饲料调制效果,解决昆虫饲料调制过程中自主发酵启动难、饲料营养价值差、碳氮损失高等问题,同时提高饲料适口性增加虫体蛋白产量。在麦麸改善昆虫饲料调制效果的理论依据基础上,重点综述了麦麸独特的营养组成、物理结构和细菌微生物结构等对昆虫饲料理化性质的影响,进而从微生物学和表征分析方面阐述了其作用机制及实现有机废弃物减量化、无害化、增值化处理的工艺流程,以及产业化应用潜力与发展趋势,为开展腐生性昆虫养殖饲料调制提供理论支持。

小黑杨转双价抗虫基因的研究

用根癌农杆菌介导的叶盘法,将蜘蛛杀虫肽与Bt基因C肽序列的融合基因导入小黑杨(Populus simonii×P.nigra),所获得的3株卡那霉素抗性再生植株进行PCR和PCR-Southern杂交检测的结果均为阳性,Southern杂交检测的结果2株为阳性。抗虫试验结果显示,3个转基因株系均具有明显的抗虫效果,能显著抑制舞毒蛾幼虫的生长发育,表现出强烈的抗虫作用。

韧皮部取食昆虫诱导的植物防御反应

刺吸式昆虫与寄主植物之间具有特殊的生物互作关系。本文对刺吸式昆虫取食韧皮部诱导的植物防御反应类型、防御物质变化、信号途径以及植物反应转录组学研究等方面进行综述。韧皮部取食昆虫取食诱导的植物防御反应机制主要包括:(1)改变自身的营养状况;(2)产生有毒的次生化合物;(3)产生防御蛋白。防御反应与植物水杨酸、茉莉酸、乙烯等信号分子密切相关。研究表明,刺吸式昆虫取食诱导的植物防御反应主要引发以水杨酸为主的信号途径,但相关分子互作机制还有待明确。日益丰富的基因组资源和不断发展的分子生物学技术为揭示植物防御反应中信号分子的作用机制、找出植物内生抗性的特异因子以及阐明诱导防御机制奠定了基础。了解刺吸式昆虫取食诱导的植物防御反应,为深入理解植物-昆虫间协同进化关系提供了依据,为害虫治理和抗虫植物的培育提供了新的思路。

大气CO_2浓度升高对森林食叶昆虫的潜在影响

评述了大气CO2浓度升高对森林食叶昆虫的影响,昆虫对森林取食为害水平的潜在变化,以及研究中的主要实验方法.大气CO2浓度升高通过引起叶片化学变化进而影响食叶昆虫个体的取食和生长;但物种对环境变化反应的特异性、植物化学对高浓度CO2的反应强度、昆虫对植物生理变化的敏感性和适应性、研究周期的长短、其它环境因子的协同效应以及不同实验中植物生长条件和研究方法的差异均将影响昆虫反应的方向和强度;CO2气体浓度增高本身可能不足以对食叶昆虫个体的新陈代谢构成影响;大气CO2浓度升高也可能影响森林食叶昆虫种群的大小.

大豆对食叶性害虫的抗性遗传

南京地区大豆食叶性害虫主要是大造桥虫、斜纹夜蛾、豆卷叶螟和银纹夜蛾。大豆对田间食叶性害虫综合虫种的抗性具有相对稳定性。利用两个感抗杂交组合D0 1和D0 3的P1、P2 、F1、F2 、F2∶3 世代 ,在田间自然虫源条件下系统地分析了大豆抗食叶性害虫综合虫种植株反应的遗传规律 ,不论多世代联合分析或单个分离世代分析 ,结果均表明 ,大豆对食叶性害虫的抗性为两对主基因 +多基因遗传模式。但在大豆生长发育的不同时期 ,随着害虫数量和种群结构的变化 ,其抗虫性遗传呈动态变化过程。在两对主基因充分表达日期 ,效应较大的 1对加性效应为 10 .5 1～ 10 .74(叶面积损失率 ,%) ,效应较小的 1对加性效应为 4.35～ 7.2 4(%) ,并且两对主基因的遗传率较高 ,达 81.0 5 %～ 94.10 %,起决定性作用 ;多基因遗传率较低 ,为 0～ 12 .2 4%。抗食叶性害虫育种应首先考虑利用主基因抗性。

大豆抗食叶性害虫育种的鉴定方法与标准

经田间大豆食叶性害虫普查及种群结构调查和6724份大豆资源对食叶性害虫抗性鉴定,提出在南京生态条件下可利用自然虫源在8月10日至9月20日,尤其8月20日至9月10日,进行大豆抗食叶性害虫鉴定;提出与之相应的以叶片损失率为指标的田间抗性指数目测标准;并在此基础上,提出以变异系数为权重,用加权平均数综合多次观察值进行抗虫性分级的方法。从供试的6724份材料中遴选出用于抗豆卷叶螟专项鉴定和抗豆卷叶螟、大造桥虫与斜纹夜蛾等多种害虫综合抗性鉴定的2套标准品种作为今后在自然虫源条件下标准品种分级法抗虫鉴定的对照品种。

抗白背飞虱水稻品种挥发性次生物质的提取、组分鉴定与生测

采用水蒸汽蒸馏－乙醚同时萃取装置对抗白背飞虱品种ＲａｔｈｕＨｅｅｎａｔｉ（ＲＨＴ），ＩＲ６４，Ｎａｂｅｓｈｉ和感虫对照品种ＴＮ１稻株进行挥发性次生物质提取．浓缩所得精油，经“气谱－质谱”（ＧＣ－ＭＳ）联机检测出６４个有机的化学组分，其中３６种主要分子结构为：９种醇．９种醛．７种酮４种酯，３种烷烃．２种酸，烯烃和杂环化合物各１种。２－已烯醛、β－紫罗兰酮、叶醇（反式）、叶绿醇、３，５．５－三甲基－３－环已烯－１－酮和水杨酸甲酯的含量较高。将蒸馏提取物回喷在ＴＮ１稻株上，白背飞虱对抗虫和感虫稻株蒸馏提取物的趋性没有显著差异。嗅觉仪测定飞虱的趋性结果表明。单体化合物苯甲醇和已烯醛比对照丙酮更易吸引白背飞虱。在回喷ＴＮ１蒸馏提取物、丙酮溶液和未处理的ＴＮ１稻株上，白背飞虱分泌的蜜露量明显地较在Ｎａｂｅｓｈｉ和ＩＲ６４蒸馏提取物处理过的ＴＮ１稻株上分泌的高。白背飞虱从掺有蒸馏提取物和挥发物单体的营养液中吸食的量均比从单纯营养液中的少；抗虫品种ＲＨＴ蒸馏提取物对白背飞虱拒食作用最强，β－紫罗兰酮和已烯醛次之。

大豆对食叶性害虫田间抗性的相对稳定性

在已有的7年工作基础上,以叶面积损失百分率为指标,继续于2000年和2001年对51份大豆材料开展了对食叶性害虫综合虫种抗性的鉴定工作。综合分析1993—2001年历年各次田间抗性鉴定结果,发现虽然每年抗性鉴定的结果并不完全一致,但各品种的抗性水平还是保持了一定的相对稳定性。通过对各年抗性鉴定分级结果的综合分析,结合9年综合抗性分级结果,确立了10个较为稳定、并具一定代表性的抗感材料,作为大豆对食叶性害虫田间综合虫种抗性鉴定的标准品种。分别是,抗性材料:吴江青豆3、PI227687、沔阳白毛豆、通山薄皮黄豆甲、赶泰-2-2;感性材料:山东大豆、大青瓤黑豆、矮杆黄、商丘7602和皖82-178。

大豆种质资源对食叶性害虫抗性的鉴定

在南京经过６年鉴定，从６７２４份国内外大豆资源中，发掘出对本地大豆食叶性害虫表现抗性的资源２０份，包括对豆卷叶螟、斜纹夜蛾、大造桥虫等具有综合抗性的６份；主要抗豆卷叶螟的８份；主要抗斜纹夜蛾、大造桥虫的６份。其中大多数材料的抗性水平高于目前国际上常用的３个食叶性害虫抗源ＰＩ１７１４５１、ＰＩ２２７６８７、ＰＩ２２９３５８。一些抗性资源综合农艺性状优良，可作为抗虫育种的首选亲本。同时发掘出对本地大豆食叶性害虫表现感性的大豆资源１２份。

不同甘薯品种对根腐病及食叶性害虫的抗性效果分析

选育和利用抗性品种是控制作物病虫害最为经济有效的途径。为深入挖掘对江西甘薯根腐病和主要食叶性害虫具有较高抗性的优良作物品种,试验采用发病率及虫情指数田间调查法,系统分析了34个甘薯品种(系)对江西甘薯根腐病和主要食叶性害虫的田间抗性效果,结果表明:赣GE12-27、赣GE12-09、浙薯33等19个品种对甘薯根腐病的自然抗病效果较好,田间发病率均为0%。宁紫1号、徐紫薯8号、赣GE12-27等6个品种对甘薯麦蛾和甘薯卷叶蛾的抗虫效果较好,田间虫情指数均为0%。湘174、W4000和N3020 3个品种对斜纹夜蛾和甘薯烦夜蛾的抗虫效果相对较好,其虫情指数均≤33.33%。本研究为指导利用薯类作物品种抗性开展有害生物绿色防控提供了较好的试验依据。

剪叶损伤与昆虫取食对兴安落叶松(Larix gmelinii)针叶中缩合单宁诱导作用的差异

单宁是植物内与抗虫性相关的重要次生代谢物质。为了研究昆虫取食及剪叶诱导对兴安落叶松（Larix gmelinii）针叶内缩合单宁含量的影响，用剪叶法和落叶松毛虫（Dendrolimus superans）幼虫取食处理5年生兴安落叶松苗，以香草醛．盐酸法测定其剩余健康针叶内缩合单宁含量的变化。结果表明：（1）处理后1～10d，剪叶4枝75％，8枝50％、75％，12枝25％、50％、75％及虫伤4枝75％的兴安落叶松健康针叶内的缩合单宁含量均明显高于对照（P〈0．01），15d时，剪叶8枝75％，12枝50％的兴安落叶松针叶内的缩合单宁含量仍高于对照（P〈0．05），说明剪叶与虫伤处理均能诱导缩合单宁含量增加。（2）剪叶4枝75％，8枝50％，12枝25％、75％的处理之间，诱导的缩合单宁含量差异不显著（P〉0．05）。剪叶8枝75％，12枝50％诱导缩合单宁含量增加幅度比其它剪叶处理大，且诱导持续时间长。说明剪叶程度虽能影响缩合单宁含量，但二者并不呈线性关系。（3）剪叶4枝75％在5d时诱导缩合单宁含量最高，虫伤4枝75％在10d时诱导缩合单宁含量最高，说明剪叶诱导的缩合单宁含量高峰早于虫伤处理。但处理后1-10d，剪叶及虫伤4枝75％的落叶松针叶内缩合单宁含量均明显高于对照（P〈0．01或P〈0．05），之后与对照差异不显著（P〉0．05），说明在受到诱导处理后，兴安落叶松产生应激反应，使其针叶内缩合单宁含量在一定时间内先增加，后逐渐恢复到正常水平。由上可见，可以采取适当的损伤处理取得与昆虫取食相似的兴安落叶松抗性反应。

金边地鳖营养成分分析与评价

本文主要对金边地鳖Opisthoplata orientalis Buron的一般营养成分,氨基酸、脂肪酸的组成及含量和矿物质元素进行了分析测试。结果表明:粗蛋白、粗脂肪、水分和灰分的含量分别是:80%、11.2%、3.77%、4.93%;含有18种氨基酸,总氨基酸含量39378.861mg/100g,其中8种必需氨基酸和2种半必需氨基酸占氨基酸总量的47.1%,必需氨基酸和非必需氨基酸的比值为0.62,符合FAO推荐的理想蛋白模式;脂肪酸有11种,其中7种不饱和脂肪酸占总油脂的74.78%,不饱和脂肪酸中的油酸含量高达61.3%;检测的5种常量元素和5种微量元素中K、P、Mg、Ca、Na、Zn、Mn、Cu8种元素含量较为丰富,Fe含量较少,含有有益元素Se。作为传统的中药昆虫,金边地鳖同时还具有丰富的营养成分,是具有深入开发和利用价值的药用及食用昆虫。