瓜实蝇的有效积温及其在中国的年发生代数预测

瓜实蝇Bactrocera cucurbitae Coquillett是世界上重要的检疫性害虫,通过在14、18、22、26、30、34℃温度下孵化和饲养实验,测定该虫卵、幼虫、蛹、产卵前期、世代的发育起点温度和有效积温分别是8．0982℃、4．5245℃、4．5245℃、7．4751℃、10．0019℃和28．8506、162．7462、145．7249、166．5126、503．8343日度。根据该虫的致死温度和有效积温模型,运用数学分析和地理信息系统技术,预测了瓜实蝇在中国的适生区和年发生代数,结果表明：该虫可在中国48．96％地区发生（气象站点所代表的地区）,1年发生2-12代,以4～6代为主。     

瓜实蝇的风险性分析

风险性综合分析表明,瓜实蝇危险性R值为2．22,属于高度危险的有害生物。瓜实蝇在我国传播扩散将成为葫芦科蔬菜的重要害虫,已对我国南方地区的葫芦科蔬菜种植构成较大的潜在威胁。记载瓜实蝇寄主植物超过125种,瓜实蝇适生存范围广,1a多代,而且繁殖能力较强,一旦传播扩散,很难根除,是高度危险的有害生物。     

基于性信息诱捕监测广东桔小实蝇和瓜实蝇发生动态及其对2种常用农药的抗药性评价

利用性信息素诱捕的方法对广东省茂名、佛山、梅州和韶关的桔小实蝇Bactrocera dorsalis (Hendel)和瓜实蝇Bactrocera cucurbitae (Coquillett)种群动态进行监测;并用药膜法测定了两种实蝇不同地理种群成虫对阿维菌素和甲维盐的抗药性情况。结果表明,桔小实蝇和瓜实蝇在所监测的4个地市全年均有发生,桔小实蝇和瓜实蝇种群数量发生高峰期集中在5月中旬至8月中旬,从4月中旬开始田间种群数量开始增加,10月中旬以后种群数量急剧下降,高峰期与果实成熟期基本吻合。抗药性监测结果表明,桔小实蝇和瓜实蝇对阿维菌素和甲维盐的抗药性有逐年上升趋势,广东4个地市桔小实蝇和瓜实蝇已对阿维菌素产生中等抗性水平;2019年11月监测梅州地区桔小实蝇种群和韶关瓜实蝇种群对甲维盐抗性倍数分别为4.32和3.42倍,仍处于敏感水平,其余地区种群对甲维盐均达到了低水平或中等水平抗性。     

瓜实蝇成虫在苦瓜田间的时空动态

【背景】瓜实蝇是重要的瓜果害虫,研究其在田间的时空分布可为进一步探讨成虫在栖息地的迁移规律奠定基础。【方法】试验于2013年9月17日~11月8日在广州市白云区广东省农业科学院试验基地进行。试验地面积约6900 m2,其中,苦瓜地面积为34 m×19 m。以黄绿色粘板进行诱捕取样,点算粘板上瓜实蝇雌、雄成虫个体数,以地学统计学方法研究瓜实蝇成虫的时空分布动态。【结果】瓜实蝇成虫密度有2个峰;其半变异函数多为高斯模型,在调查范围内空间格局为聚集分布,变程范围为9.648~65.580 m,空间异质性是由空间自相关引起。【结论与意义】运用Kriging插值法,由软件Surfer10.0绘制的密度等值线图清楚地反映出瓜实蝇成虫主要分布于苦瓜地内,呈现出瓜实蝇成虫被苦瓜吸引,并迅速繁殖及之后向瓜地外扩散的变动特征。     

瓜实蝇幼虫人工饲料设计及其优化

采用正交试验设计,对瓜实蝇幼虫人工饲料四种主要组成成分南瓜∶玉米粉=1∶1、酵母粉、蔗糖、苯甲酸钠进行优化筛选,以瓜实蝇幼虫的存活率、幼虫历期、老熟幼虫化蛹率、平均蛹重和羽化率作为试验考察指标,筛选出上述4种成分在瓜实蝇幼虫基础人工饲料中的最优量为南瓜∶玉米粉=200 g∶200 g、酵母60 g、蔗糖15 g、苯甲酸钠1.2 g。     

6种寄主果实对南瓜实蝇和瓜实蝇产卵选择及其子代发育的影响

为探讨南瓜实蝇和瓜实蝇对不同寄主的产卵选择性及其与子代生长发育的关联度,采用生态测定方法,研究2种实蝇对南瓜、黄瓜、姜柄瓜、西葫芦、丝瓜和苦瓜6种寄主果实的产卵选择以及幼虫取食6种寄主后对其生长发育的影响。在产卵选择性试验中,2种实蝇对6种寄主的产卵选择性较为一致,均偏向于在丝瓜和黄瓜上产卵。在非产卵选择性试验中,南瓜实蝇在黄瓜和姜柄瓜上的产卵量较多;瓜实蝇在丝瓜和姜柄瓜上的产卵量较多;2种实蝇都对姜柄瓜有一定的偏好。在气味诱导的产卵选择性试验中,南瓜实蝇在姜柄瓜和黄瓜上的产卵量较多;瓜实蝇在黄瓜和丝瓜上的产卵量较多;2种实蝇都对黄瓜气味有一定的偏好;且南瓜实蝇和瓜实蝇都不偏好在苦瓜上产卵。南瓜实蝇分别取食黄瓜、苦瓜时,其幼虫期、蛹期较短;取食姜柄瓜时,蛹重最大;分别取食南瓜和黄瓜时的化蛹率、羽化率最高。瓜实蝇取食西葫芦时,幼虫期较短;取食丝瓜时,蛹期较短,且蛹重最大;分别取食黄瓜和南瓜时的化蛹率、羽化率最高。南瓜实蝇和瓜实蝇对不同寄主果实的产卵选择性均存在明显差异,寄主外部物理性状对实蝇的产卵选择有显著影响,2种实蝇对6种寄主果实产卵选择性和幼虫生长发育适应性的相关性不显著。     

瓜实蝇卵巢的发育阶段及分级

瓜实蝇是热带和亚热带地区最重要的经济害虫之一。本研究拟对卵巢发育进行分级,以判断田间捕获的瓜实蝇是否达到性成熟。室内饲养瓜实蝇成虫,对开始羽化至羽化后80 d的不同日龄成虫卵巢进行解剖,并记录了卵巢长度、卵巢宽度、卵巢指数（卵巢长度＆#215;卵巢宽度）和所含卵粒数。将瓜实蝇卵巢发育过程分为4期6个级别,分别为卵黄发生前期（Ⅰ级和Ⅱ级）、卵黄发生期（Ⅲ级和Ⅳ级）、抱卵期（Ⅴ级）、经产期（Ⅵ级）。随着卵巢的发育,Ⅰ～Ⅴ级卵巢长度和宽度迅速增长,卵巢发育成熟开始产卵以后,Ⅵ级卵巢长度和宽度逐渐减小。Ⅰ级和Ⅱ级卵巢长度与宽度大致相等,以后各期卵巢长度均大于宽度。Ⅲ级和Ⅳ级可见清晰的卵室,卵母细胞迅速增长,卵黄逐渐沉积。Ⅴ级可见清晰的卵粒,整个卵巢呈圆柱状。Ⅵ级开始排出卵子,所含卵粒数显著少于Ⅴ级;虽然此级卵巢长度大于Ⅳ级,但卵巢宽度、卵巢指数与Ⅳ级基本一致;Ⅵ级卵巢可见黄体,可结合黄体判定卵巢所处发育级别。本研究对评估粘虫板捕获的瓜实蝇雌虫生理日龄结构有潜在应用价值。     

液体植物保护膜防治瓜实蝇的效果评价

【背景】瓜实蝇是一种重要的世界性检疫害虫,广泛分布在我国的热带、亚热带地区。在室内和田间测定了液体植物保护膜对瓜实蝇的控制效能,并初步探索了该保护膜的作用方式,以期为瓜实蝇的绿色防控提供一定的技术支撑。【方法】测定了应用保护膜后瓜实蝇的产卵、存活以及对苦瓜的为害率。【结果】保护膜显著影响了瓜实蝇产卵、存活以及选择性。随着保护膜浓度的升高,瓜实蝇的存活率和在供试苦瓜段上的产卵量逐渐下降,但300和400倍保护膜之间的差异不显著。当浓度达到400倍时产卵量最低,为0.33粒,死亡率最高,约为50%;室内研究发现保护膜可持续影响瓜实蝇产卵5 d;此外,通过将保护膜应用在损伤的苦瓜上,发现保护膜并没有抑制瓜实蝇产卵。在田间,研究发现苦瓜的果长影响了保护膜的应用效能,2种果长的苦瓜应用保护膜后12~14 cm苦瓜的被害率显著低于6~8 cm苦瓜的被害率。【结论与意义】400倍的植物液体保护膜是防治瓜实蝇的最佳浓度,应用时间建议每4 d一次。保护膜最合适的应用时期为果长发育至12~14 cm时,即生长后期。施用保护膜时一定均匀,且在寄主果实受到损伤时不宜喷施保护膜。     

瓜实蝇耐低温相关生理指标的测定

【目的】了解瓜实蝇Bactrocera cucurbitae(Coquillett)对低温的耐受性,分析其不同发育阶段耐寒力差异。【方法】以不同发育阶段瓜实蝇为实验材料,分别测定并比较了过冷却点、水分、脂肪、甘油和糖类含量的变化情况。【结果】其不同龄期的过冷却点差异显著,5日龄蛹的过冷却点最低,为﹣17.04℃,1日龄幼虫的过冷却点最高,为﹣11.82℃,同一日龄的雌、雄成虫之间的过冷却点无显著差异;其幼虫期和蛹期虫体的含水量随着龄期的增长而下降,从1日龄幼虫79.64%下降到5日龄蛹65.31%,5日龄蛹的含水量显著低于其他龄期瓜实蝇,成虫期各龄期雌成虫含水量均显著高于雄成虫;5日龄幼虫脂肪含量最高,为32.90%,1日龄雄成虫和14日龄雄成虫脂肪含量最低,均为15%;幼虫期甘油含量随着龄期的增长而下降,从3.32μg/mg下降到1.12μg/mg,而蛹期逐渐上升,14日龄雌成虫甘油含量最高,为5.90μg/mg;1日龄幼虫总糖、海藻糖和糖原含量均最高,分别为7.51、0.94和1.93μg/mg,显著高于其他龄期瓜实蝇,蛹期糖类含量逐渐下降,而成虫期糖类含量随龄期增长而逐渐升高。【结论】本研究结果可为正确评估瓜实蝇的地理适应性和低温检疫处理提供依据。     

橘小实蝇、瓜实蝇和南亚果实蝇人工饲料的优化

在温度25²8℃、相对湿度70%28℃、相对湿度70%⁷5%和光照周期L∶D=14∶10条件下进行了人工大量饲养橘小实蝇Bactrocera dorsalis(Hendel)和瓜实蝇B.cucurbitae(Coquillett)成虫人工饲料配方的筛选试验。结果显示,1∶2重量比例混合的蔗糖和啤酒酵母是饲养这2种果实蝇的最佳成虫人工饲料,用其饲养的单雌产卵量、产卵期和孵化率分别为424.1675%和光照周期L∶D=14∶10条件下进行了人工大量饲养橘小实蝇Bactrocera dorsalis(Hendel)和瓜实蝇B.cucurbitae(Coquillett)成虫人工饲料配方的筛选试验。结果显示,1∶2重量比例混合的蔗糖和啤酒酵母是饲养这2种果实蝇的最佳成虫人工饲料,用其饲养的单雌产卵量、产卵期和孵化率分别为424.16⁴45.75粒,30.90445.75粒,30.90³1.87 d,74.60%31.87 d,74.60%⁷5.40%。同时,对18种由不同配方配制成的幼虫人工饲料饲养橘小实蝇、瓜实蝇和南亚果实蝇B.tau(Walker)的效果进行了比较。结果表明,玉米和麦麸作为饲料的介质优于麦片和麦麸。橘小实蝇幼虫人工饲料的优化配方为:玉米+麦麸(125 g+25 g),蔗糖25 g,啤酒酵母25 g,对羟基苯甲酸甲酯0.9 g,1 mol/L盐酸4 mL,纸巾4 g,自来水300 mL;用其幼虫人工饲料饲养该虫的生物学参数包括子代孵化率、化蛹率、羽化率和平均蛹重分别为81.17%±0.05%,96.41%±0.02%,94.85%±0.01%与(19.40±0.08)mg。而瓜实蝇和南亚果实蝇幼虫人工饲料的优化配方为:玉米+麦麸(100 g+50 g),蔗糖30 g,啤酒酵母25 g,以及一定量的其他组分(同上);用其饲料饲养这2种果实蝇的相关参数:子代孵化率、化蛹率、羽化率和平均蛹重分别为78.50%±0.04%与76.96%±0.12%,95.73%±0.03%与94.69%±0.02%,94.57%±0.02%与95.82%±0.03%,(18.62±0.23)mg与(22.83±1.38)mg。试验证实,优化后的成、幼虫人工饲料具有饲养效果好、方法简便,配方材料来源广泛和价格低廉等优点,可用于室内人工大量饲养上述3种果实蝇属害虫。     

Toxicity of gallic acid to melon fruit fly,Bactrocera cucurbitae (Coquillett) (Diptera: Tephritidae)

Melon fruit fly, Bactrocera cucurbitae (Coquillett) is an important pest of cucurbits and other vegetable crops. It is not only a serious pest of cucurbit crops but sometimes also attacks non-host plants. In an endeavour to explore secondary metabolites as important and safe means of pest management, we investigated the effects of gallic acid, a phenolic compound, on the growth and development of melon fruit fly, B. cucurbitae. Larval survival and emergence were severely affected by gallic acid treatment. Both decreased in a concentration dependent manner with increase in concentration. Gallic acid-treated larvae took longer duration to pupate and reach the adult stage as compared to control larvae. Inhibitory effects of gallic acid were also observed on larval weight, pupal weight, mean relative growth rate and food assimilated which decreased with treatment. The ability of gallic acid to disrupt the development of B. cucurbitae suggests that the phenolic compound might have caused oxidative stress in the body of the insect.     

Population structure of the melon fly, Bactrocera cucurbitae, in Reunion Island

The melon fly, Bactrocera cucurbitae (Coquillett) (Diptera: Tephritidae) is an agricultural pest of major significance worldwide that primarily attacks cucurbit crops. In Reunion Island, it represents the main tephritid pest on cucurbits. In this paper, we provide a genetic characterization of populations of B. cucurbitae from Reunion Island and investigate their geographical origin using ten microsatellite loci at two mitochondrial gene fragments. Microsatellites reveal the occurrence of three different genetic clusters of B. cucurbitae in Reunion Island, all clearly distinguishable from their African and Asian relatives. These three clusters are sympatric and show no signs of recent bottlenecks. Levels of gene flow among clusters are relatively high, yet gene flow also occurs with populations from the African continent and, to a lesser extent, from Asia. The B. cucurbitae clusters show distinct distributions across eastern and western locations in Reunion Island (but not at different altitudes or between wild and cultivated host plants or between sampling periods), and their abundance is also correlated with the average amount of rainfall. Microsatellite and sequence analyses suggest Africa as the most probable source area for populations of B. cucurbitae in Reunion Island.     

Response of female melon fly, Bactrocera cucurbitae, to host-associated visual and olfactory stimuli

In a series of studies conducted in Hawaii under seminatural conditions, we quantified the response of sexually mature, host‐seeking female melon flies, Bactrocera cucurbitae (Coquillett) (Diptera: Tephritidae), to different types of visual and chemical host‐associated stimuli with the main aim of developing a monitoring device for females. Experiments were conducted using Tangletrap‐coated fruit mimics of either spherical (8 cm diameter) or cylindrical (4.3 cm diameter; 15 cm length) shapes coated with different artificial color pigments both at the ground level and at the tree‐canopy level so as to take into account the foraging behavior of adult melon flies. Females were particularly attracted to objects of spherical shape colored either yellow, white, or orange; these three pigments offered the highest reflectance values. Cucumber (Cucumis sativus L.) (Cucurbitaceae) odor was more attractive to females than odors of three other cultivated host fruit [zucchini, Cucurbita pepo L. var. medullosa Alef. (Cucurbitaceae); papaya, Carica papaya L. (Caricaceae); or tomato Solanum lycopersicum L. (Solanaceae)] or of ivy gourd [Coccinia grandis (L.) Voigt (Cucurbitaceae)], one of the major wild hosts of melon fly in Hawaii. A combination of both visual and olfactory stimuli was needed to elicit high levels of response compared to each stimulus offered alone. We discuss our results in relation to the potential implementation of improved female monitoring and/or attract‐and‐kill strategies for melon flies in Hawaii.     

Monitoring growth,survival and enzyme system of melon fruit fly Bactrocera cucurbitae (Coquillett) under the influence of affinity purified pea lectin

Pisum sativum agglutinin has been shown to act as a feeding inhibitor for various insect pests belonging to different orders: Lepidoptera, Coleoptera and Hemiptera. In the present study, its insecticidal activity was assessed through monitoring the growth and development of a dipteran pest Bactrocera cucurbitae (Coquillett) (Diptera: Tephritidae). Pea lectin, P. sativum agglutinin (PSA) was purified by single step affinity chromatography on a Sephadex G‐100 and the purification was monitored through hemagglutination activity and SDS‐PAGE. Insect feeding assays were conducted to determine the effect of pea lectin against first and second instar larvae of melon fruit fly B. cucurbitae. Lectin was incorporated in an artificial diet at a varied range of concentrations, 12.5, 25, 50, 100, 200 and 400 μg/mL. The lectin showed highly significant antimetabolic effects in both first and second instars. Time taken for pupation and development as well as percentage pupation and percentage adult emergence were adversely affected. The activity of three hydrolase enzymes (esterases, acid and alkaline phosphatases), five oxidoreductases (superoxide dismutase, catalase, ascorbate peroxidase, peroxidase, O‐demethylase) and one group transfer enzyme (glutathione‐S‐transferases) was also assessed in second instar larvae fed on lectin treated diet at 100 μg/mL concentration. The P. sativum lectin significantly and deleteriously influenced the activity of all these enzymes at all exposure intervals.     

Rapid evolution of larval development time during mass-rearing in the melon fly, Bactrocera cucurbitae

A quantitative genetic analysis of rapid evolution of a life history trait has been conducted on the first 24 generations of mass-rearing in the melon fly Bactrocera cucurbitae (Coquillett) (Diptera: Tephritidae). The phenotypic variance of larval development time in each generation was divided into genetic and residual components. Mean and phenotypic coefficients of variation of larval development time decreased gradually as generations proceeded as a result of artificial selection for shorter larval period in the mass-rearing procedure. There was a trend that additive genetic coefficients of variation in larval development time decreased with generations. These changes are entirely attributed to genetic responses to laboratory selection under the mass-rearing environment because the population was maintained at a very large size so as to exclude random genetic drift and inbreeding depression, which would be other factors responsible for the observed genetic changes. The residual coefficients of variation in larval development time did not change with generations. Realized heritability of larval development time was low. The heritabilities for larval development time estimated from parent–offspring regression at generations 60 and 70, when the evolutionary plateau was asymptotically reached, were not significantly larger than 0. Received: April 22, 1999 / Accepted: September 20, 1999     

Influence of physico-chemical traits of bitter gourd, Momordica charantia L. on larval density and resistance to melon fruit fly, Bactrocera cucurbitae (Coquillett)

Abstract:  Melon fruit fly, Bactrocera cucurbitae (Coquillett) is one of the most important pests of bitter gourd, Momordica charantia L. Because of the difficulties associated with chemical control of this pest, it is important to identify the traits associated with resistance and their influence on pest multiplication. There were significant differences in test genotypes for fruit infestation and larval density/fruit. The wild accessions, IC 256185, IC 248256, IC 213311, IC 248282, IC 256110 and IC 248281 were identified as resistance sources to melon fruit fly. There was a significant and positive correlation ( r  = 0.96) between percentage fruit infestation and larval density/fruit. Percentage fruit infestation and larval density/fruit were positively correlated with depth of ribs, flesh thickness, fruit diameter and fruit length, and negatively associated with fruit toughness. Flesh thickness and fruit diameter explained 93.0% of the total variation for fruit fly infestation, and flesh thickness and fruit length explained 76.3% of the variation for larval density/fruit. Ascorbic acid, nitrogen, phosphorus, potassium, protein, reducing sugars, non-reducing sugars and total sugars were negatively correlated, while the moisture content showed a positive association with fruit fly infestation and larval density/fruit. Moisture, potassium and reducing sugar content explained 97.4% of the total variation in fruit infestation, while moisture, phosphorus, protein, reducing and total sugars explained 85.7% variation for larval density/fruit.     

Polytene chromosome maps of the melon fly Bactrocera cucurbitae (Diptera: Tephritidae).

Standard photographic maps of the polytene chromosomes are presented for the melon fly Bactrocera cucurbitae, a serious pest of fleshy fruits and vegetables. Five larval salivary gland polytene chromosomes (10 polytene arms) were isolated, and their characteristic features and landmarks have been recognized. Banding patterns of each of the polytene arms are presented, where variation in band intensity and puffs appear to reflect fundamental differences in chromosomes. The whole polytene genome has been typically mapped by dividing it into 100 sections and the subsections were lettered. The mitotic chromosomes of larval brain ganglia are also examined, five pairs of autosomes and an XX/XY sex chromosome pair. In addition, a heterochromatic mass corresponding to the sex chromosomes are observed in the polytene nuclei of salivary gland tissue. This investigation showed that B. cucurbitae has excellent cytological material for polytene chromosome analysis and proved to be very useful for obtaining more detailed genetic information on the pest's natural populations.