西藏个木虱科一新属三新种：同翅目：木虱总科

本文记述产于西藏自治区的个木虱科Ｔｒｉｏｚｉｄａｅ１属３新种。三毛个木虱属Ｔｒｉｓｅｔｉｔｒｉｏｚａ,ｇｅｎ,ｎ．,其模式种为椿突三个木虱Ｔ．ｃｌａｕｌｌａｔａ,ｓｐｎ．,其寄主为杜荆Ｖｉｔｅｘｓｐ．。另外２个新种是：黄边个木虱Ｔｒｉｏｚａａｕｒａｔｉｌａｔｅｒｌｉｓ,察隅个木虱Ｔｒｉｏｚａ ｚａｙｕｎｓｉｓ。模式标本保存于北京农业大学昆虫标本室。     

Farm‐scale dispersal of Bactericera cockerelli in potato crops measured using Bt mark‐capture techniques

Natural populations of Bactericera cockerelli (Sulc) (Hemiptera: Triozidae), also known as tomato/potato psyllid, were marked in potato [Solanum tuberosum L. (Solanaceae)] crops using Bacillus thuringiensis Berliner (Bt) to investigate the impact of dispersal on crop infestation and management of potential insecticide resistance in New Zealand. The technique was adapted from previous studies that used conventional spray applications of Bt to mark Phthorimaea operculella (Zeller) (Lepidoptera: Gelechiidae), and identified marked individuals with selective microbiological assays and identification of characteristic crystal inclusions. Initially, marking rates of B. cockerelli were improved by using ultra‐low volume applications of undiluted Bt, but this result was not consistent. Several other pests and natural enemies were also marked. In mark‐capture studies, marked B. cockerelli were captured over 3 days on yellow sticky traps in small trap plots of potatoes at 60, 120, 180, 250, and 350 m from the sprayed crop. Bactericera cockerelli flight activity occurred throughout daylight hours with evidence of bimodal diurnal peaks. Significantly greater numbers of B. cockerelli were captured in downwind traps. The combined dispersal curve derived from two mark‐capture experiments estimated a mean dispersal distance for B. cockerelli of 100 m in 3 days and indicated that 10% of the population dispersed further than ca. 250 m. Over the period of a growing season, this level of dispersal suggests that B. cockerelli can disperse throughout a vegetable‐growing region, with implications for crop infestation and management of potential insecticide resistance.     

Trap colour,size, and borders alter catches of Bactericera cockerelli in a potato crop

Visual cues play a key role in host finding in many phytophagous insects, including the tomato potato psyllid (TPP), Bactericera cockerelli (?ulc) (Hemiptera: Triozidae), a serious pest of solanaceous crops. This study evaluated the response of TPP to sticky traps of one of three colours, up to four sizes, and with or without green borders in an organic potato crop in Hawke's Bay, New Zealand. On average, large traps caught a higher density of TPP than small traps (with or without border; 25 and 14 TPP per 100 cm², respectively). Tomato potato psyllid density on the green border was affected by the colour of the centre trap; a blue centre resulted in substantially fewer TPP on the green border than a yellow centre (9.0 vs. 69.6 TPP per 100 cm²). Trap catches in early summer were male biased, whereas catches of male and female TPP in late summer were approximately equal.     

Limiting the potential for intraspecific competition: regulation of Trioza eugeniae oviposition on unexpanded leaf tissue

1. Trioza eugeniae (Homoptera: Triozidae) females oviposit pre‐ ferentially on the margin of young, incompletely expanded Syzygium paniculatum leaves. As the density of eggs on the leaf increases, females will oviposit on the surface of the leaf blades. 2. The survivorship of eggs laid on the abaxial leaf midrib and near the abaxial leaf margin was significantly greater than that of eggs laid on the leaf margin. 3. Controlled environment studies demonstrated that maximum carrying capacity for T. eugeniae nymphs on a fully expanded leaf is approximated closely by the number of eggs that can be laid on the margin of a young, unexpanded leaf. 4. In field populations, nymphal densities fell below the hypothetical carrying capacity calculated from laboratory studies on 71% of the leaves examined. 5. The leaf margin appears to be a proximal cue used by ovipositing females for resources available to developing nymphs. Females that limit oviposition to available leaf margins appear to improve the probability of survival of their progeny through reduced intraspecific competition.     

Evaluation of environmental and plant-associated cues for nymphal settling preference by Trioza eugeniae

Experiments were conducted to determine potential cues used by nymphs when they select the preferred abaxial side of a leaf. Nymphs most frequently settle and develop on the abaxial side of leaves. The degree of preference for the abaxial side was found to be reduced when a high density of nymphs were present, however. The orientation of leaves in a completely darkened chamber did not influence settling preference for the abaxial side, even when leaves were oriented abaxial side up. Coating both sides of a leaf with an antitranspirant compound did not prevent nymphs from preferring the abaxial side for settling. Similar results were obtained when leaves were dipped in pentane. These studies show that nymphs do not use gravity, color, light, or contact chemoreception when selecting suitable settling sites on a leaf.     

个木虱属六新种(同翅目:个木虱科)

本文描述了发生在我国广西、云南、贵州及广东的木虱六个新种,属个木虱科Triozidae。对在考察和采集标本时云南省农科院王履浙、郑伟军同志,广西壮族自治区农科院周至宏、王助引同志及广西壮族自治区林业厅黄金义同志均表诚挚的谢意。模式标本保存于北京农业大学昆虫标本馆。     

内蒙木虱十新种(同翅目:木虱总科)

内蒙古自治区的木虱过去研究不多,近年来作者与杨集昆教授报导记载有:萹蓄斑木虱Aphalara polygni Forster、脉斑边木虱Craspedolepta lineolata Loginova、桑木虱Anomoneura mori Schwarz、锦鸡儿豆木虱Cyamophila appendicuata(Klimaszewski)、中国梨木虱Cacopsylla chinensis(Yang et Li)、北方沙棘喀木虱C.septentrionalis Li etYang、槭喀木虱C.abieti(Kuwayama)、荨麻个木虱Trioza urticae L.、黑锥黑个木虱T.aterigenae Li et Yang、柳钱角个木虱Bactericera myohyangi(Klimaszewski)和沙棘异个木虱Herterotrioza magnisetosa(Loginora)等11种,本文记述了我校和内蒙草原站采集的10个新种。至此内蒙木虱种类已达21种,隶属3科7属。当然还有不少种类有待进一步调查鉴定。     

Stylet penetration activities linked to the acquisition and inoculation of Candidatus Liberibacter solanacearum by its vector tomato potato psyllid

The tomato potato psyllid (TPP), Bactericera cockerelli (Sulc) (Hemiptera: Triozidae), is the main vector of the bacterium Candidatus Liberibacter solanacearum (Lso), a major disease of solanaceous crops. Feeding of TPP is associated with Lso transmission. However, very little is known about the stylet penetration activities linked to acquisition and inoculation of Lso. The electrical penetration graph (EPG)‐DC system was used to monitor stylet penetration activities during acquisition and inoculation of Lso by individual TPP on tomato [Solanum lycopersicum L. (Solanaceae)]. Female TPP from Lso‐free and Lso‐infected colonies were used in acquisition and inoculation tests, respectively. In the acquisition tests, TPP were tested for Lso after EPG recording of their stylet penetration activities on Lso‐infected tomato shoots. In the inoculation tests, samples from the tomato plants on which the stylet penetration of Lso‐infected TPP had been recorded were tested for Lso infection. The relationships between qPCR results and the EPG waveforms (C, G, D, E1, and E2) representing the main stylet penetration activities performed by individual insects in inoculation and acquisition tests were investigated. Results confirmed that a single adult TPP is capable of infecting a plant with Lso. Our data suggest that acquisition of the bacteria occurs during phloem ingestion (E2), and inoculation is likely associated with salivation into the phloem sieve elements (E1). The durations of EPG parameters were not significantly different between Lso‐infected and Lso‐free TPP (later shown by qPCR) in acquisition tests. In inoculation tests, the durations of E1 or E2 recorded from TPP on Lso‐infected and Lso‐free plants that were later shown by qPCR were not significantly different. However, C was shorter on Lso‐infected plants than on Lso‐free plants, where TPP performed phloem activities. The minimum plant access period required for Lso transmission by a single TPP was estimated to be ca. 2 h, with an acquisition threshold of about 36 min.     

Characterization of the electrical penetration graphs of the psyllid Bactericera trigonica on carrots

The psyllid Bactericera trigonica Hodkinson (Hemiptera: Triozidae) is a carrot and celery pest recently described as a vector of the plant pathogenic bacterium Candidatus Liberibacter solanacearum (Lso) on Apiaceae. Detailed information on vector stylet penetration activities is essential in the study of Lso transmission. In this study we used the electrical penetration graph (EPG) technique, characterized waveforms produced during the various stylet penetration activities in carrot leaves, and correlated them with stylet tracks and salivary sheath termini on plant tissues as well as with Lso inoculation. In addition, the effect of Lso in B. trigonica on the stylet penetration activities was tested. The EPG waveforms identified were: waveforms C1 and C2 detected in the mesophyll, waveforms D, E1, and E2 near or in the phloem sieve elements, and waveform G in the xylem vessels. A waveform pattern not previously reported for psyllids was the ‘pseudo‐potential drop’ (pseudo‐pd), characterized by sudden voltage dips similar to potential drops. However, the lowered voltage appeared to be inverted when the plant voltage is negative, indicating that it is caused by an increased resistance period and not due to a cell puncture. A direct correlation is shown between the waveform E1 and salivation into phloem sieve elements by B. trigonica as the inoculation of Lso occurred in a period as short as 30 s of E1; Lso transmission occurred in 17 of 35 plants (48%). Stylet activities during waveforms C or D had no consequences on the inoculation of Lso. In conclusion, Lso infection directly affects the probing behaviour of B. trigonica by increasing the total duration of C and D waveforms, but not variables related to phloem salivation (Lso inoculation) or ingestion (Lso acquisition). The reported information here is fundamental for identifying the psyllid vector traits of behaviour associated with transmission of Lso to Apiaceae.