Effect of eggplant transformed with oryzacystatin gene on Myzus persicae and Macrosiphum euphorbiae

Abstract:  The effect of a genetically modified eggplant line expressing oryzacystatin on Myzus persicae (Sulzer) and Macrosiphum euphorbiae (Thomas) was examined. The transgenic eggplant reduced the net reproductive rate ( R ₀), the instantaneous rate of population increase ( r ), and the finite rate of population increase ( λ ) of both aphids species compared with a control eggplant line. The mean generation time ( T ) of the aphids was unaffected by the transgenic plants. Age-specific mortality rates of M. persicae and M. euphorbiae were higher on transgenic plants. These results indicate that expression of oryzacystatin in eggplant has a negative impact on population growth and mortality rates of M. persicae and M. euphorbiae and could be a source of plant resistance for pest management of these aphids.     

Recombinant and classically selected factors of potato plant resistance to the Colorado potato beetle, Leptinotarsa decemlineata, variously affect the potato aphid parasitoid Aphidius nigripes

Different forms of crop resistance developed against majorpotato pests such as the Colorado potato beetle (CPB), Leptinotarsadecemlineata, may be variously compatible with biological controlof secondary pests such as aphids. We compared the performance of theparasitoid Aphidius nigripes developing in the aphid hostMacrosiphum euphorbiae, on five potato lines, including atransgenic `Superior-BT' line expressing the CryIIIA toxin ofBacillus thuringiensis, which is specific to Coleoptera; andthe `NYL 235-4' line derived from Solanum berthaultii,characterized by relatively unspecific resistance to herbivores based onmoderately-high density of glandular trichomes. The other lines testedwere a `Kennebec-OCI' transgenic line expressing the protease inhibitorrice cystatin I (OCI), a potential resistance factor against coleopteranpests; and the commercial cultivars `Superior' and `Kennebec' used ascontrols. Parasitoid immature survival and adult size were reducedcompared to controls when the wasps developed on aphids fed the`Superior-BT' potato. In contrast, parasitoid size and fecundityincreased above control when the wasps developed on aphids fed the`Kennebec-OCI' potato. Parasitoids reached the adult stage faster andwere more fecund on `NYL 235-4' than control lines. The results indicatethat the different forms of potato resistance currently developed mainlyagainst the CPB had various unexpected effects on aphid parasitoidfitness. These effects on the parasitoid were complex but were generallyinterpretable in terms of host aphid quality variation among potatolines used as food by the aphids during parasitoiddevelopment.     

Aphid parasitoid complex in potato in the context of IPM in Belgium

Parasitic hymenoptera of potato aphids were collected and identified in 2000 and 2001 in 11 potato fields in Belgium. Nine Aphidiidae species, parasiting seven aphid species, were found: Aphidius ervi, Aphidius matricariae, Aphidius picipes, Binodoxys angelicae, Diaeretiella rapae, Praon abjectum, Praon gallicium, Praon volucre and Toxares deltiger. A. ervi and A. picipes were the dominant and sub-dominant species, with 54% and 28% of the primary parasite collected, respectively. Both species and T. deltiger were found on Aphis nasturti, Aulacorthum solani, Macrosiphum euphorbiae and Myzus persicae, the four most important aphid potato in Belgium. Parasitism rate of A. nasturtii and, to a lesser extent, M. euphorbiae was low compared to A. solani and M. persicae. Parasitism of A. solani was particularly high, with 63.5% in 2000 and 89.2% in 2001, and this species was the preferred host of several Aphidiid species. The abundance of alternative hosts as other crops pest aphids or non-pest aphids on wild plants in agroecosystems could explains the efficacy of these species. The biological control of A. nasturtii and M. euphorbiae by parasitic hymenoptera was poorer, and several studies need to be undertaken to find suitable parasitic hymenoptera species effective on these aphids and agro-environmental measures able to promote them.     

Aphid responses to plants with genetically manipulated phloem nutrient levels

Abstract.  Aphids ( Myzus persicae , Macrosiphum euphorbiae and Aulacorthum solani ) are reared on potato plants with phloem sucrose concentrations reduced by up to two-fold by expressing the antisense of the sucrose-H⁺ symporter ( StSUT1 ) gene. The performance of My. persicae and A. solani on the antisense plants is comparable or superior to that on the wild-type plants, but Ma. euphorbiae increases more slowly on the antisense plants than on the wild-type and fails to feed from the antisense line with the lowest phloem sucrose concentration. Electrical monitoring by electical penetration graphs reveals that Ma. euphorbiae either do not locate the sieve elements or withdraw their stylets prematurely from the sieve elements of these plants. This difference between Ma. euphorbiae and the other aphid species may reflect interspecific variation in response both to the low phloem sucrose in transgenic plants and to pleiotropic effects of the transgene on the wider physiology of the plants. All aphid species perform well on plants with phloem sucrose concentrations that, when administered via chemically-defined diets, support little or no aphid growth. These results illustrate the need for caution in extrapolating conclusions reached for diet-reared aphids to aphids on plants, and demonstrate the importance of plant-based experiments for studies of the nutritional physiology of aphids.     

Distribution of Aphids (Hemiptera: Aphididae) in Potato Growing Areas of Southwestern Australia

Sticky traps, water traps and leaf samples were used to monitor aphid populations at 32 sites in southwestern Australia between October and May for four seasons between 1988–92. Twenty-seven sites were located in potato, Solanum tuberosum L., crops, with five others located in mixed vegetable crops or pastures. Sites were located in an area of approximately 90,000 km², and encompassed most of the potato growing areas of the region. Thirty-four species of aphids were detected. Potato-colonising aphids found were Myzus persicae, Aulacorthum solani, Macrosiphum euphorbiae and Aphis craccivora. M. persicae was the most widespread, and its seasonal distribution in southwestern Australia is presented. Fewer M. persicae were recorded and it arrived later in the season for 2 of 3 years at southern sites than northern sites. At sites where both sticky traps and leaf sampling were used, leaf sampling often detected M. persicae before they were found on traps. Results suggest that potato crops grown on the southern coast will be least vulnerable to infection by aphid-borne viruses.     

Effect of mixed viral infections (potato virus Y-potato leafroll virus) on biology and preference of vectors Myzus persicae and Macrosiphum euphorbiae (Hemiptera: Aphididae)

Mixed viral infections of heterologous viruses such as Potato virus Y (family Potyviridae, genus Potyvirus, PVY) and Potato leafroll virus (family Luteoviridae, genus Polerovirus, PLRV) are a regular occurrence in Idaho's potato, Solanum tuberosum (L.), cropping systems. An increased number of plant samples from Idaho's potato fields over the past 2 yr has serologically tested positive for both PVY and PLRV via double antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA) and exhibited more severe symptoms than singly-infected plants (PVY or PLRV). Several studies have extensively examined the mixed infection phenomenon but to the best of our knowledge, none have examined the effect of such infections on vector biology and preference. Laboratory studies were conducted to examine the effect of mixed viral (PVY-PLRV) infection on the fecundity and preference of two of the most efficient PVY and PLRV vectors, the green peach aphid, Myzus persicae (Sulzer), and the potato aphid, Macrosiphum euphorbiae (Thomas) (Hemiptera: Aphididae). M. persicae and M. euphorbiae adults were clip-caged (one adult per cage) to leaflets of PVY, PLRV, PVY-PLRV-infected, and noninfected potato plants. The number of nymphs produced in all four treatments was recorded after 96 h. M. persicae and M. euphorbiae fecundity was significantly higher on mixed infected plants than on singly infected plants or noninfected plants. Preference of alatae and apterae of M. persicae and M. euphorbiae was determined with the use of settling bioassays. Both alatae and apterae of M. persicae and M. euphorbiae preferentially settled on PVY-PLRV-infected plants than on singly infected plants (PVY or PLRV) or noninfected plants.     

Transgenic-Bt potato plant resistance to the colorado potato beetle affect the aphid parasitoid Aphidius nigripes

Using the biotechnological plant resistance for herbivore control with less reliance on chemicals in integrated pest management (IPM) programs critically depends on predictable interactions with no-target organisms of various trophic levels. Plant resistance to insect pests based on recombinant Bacillus thuringiensis could interfere with natural enemies of non target pests. Performance of the potato aphid parasitoid Aphidius nigripes was studied on the 'Superior-BT line transgenic for the CryllIA toxin of B. thuringiensis, resistance to the Colorado potato beetle; and none transformed 'Superior' line which served as control. Parasitoid survival was significantly lower on the 'Superior-BT' line compared to control. Adult females were largest on 'Superior' and smallest on BT potatoes. This difference was reflected on parasitoid fecundity, which was lowest on 'Superior-BT', and highest on Superior. The results indicate that factor of potato resistance to the Colorado potato beetle affected the fitness of a parasitold of the aphid Macrosiphum euphorbiae, a secondary pest of potato. The effects on the parasitoid were complex but were generally interpretable in terms of host aphid quality variation among potato lines used as food by the aphids during parasitoid development.     

Effect of an alternate weed host, hairy nightshade, Solanum sarrachoides, on the biology of the two most important potato leafroll virus (Luteoviridae: Polerovirus) vectors, Myzus persicae and Macrosiphum euphorbiae (Aphididae: Homoptera)

Hairy nightshade, Solanum sarrachoides (Sendtner), is a ubiquitous weed in potato agro-ecosystems and nonagricultural lands of southeastern Idaho and the Pacific Northwest. This weed increases the complexity of the Potato leafroll virus (PLRV) (Luteoviridae: Polervirus)-potato pathosystem by serving as aphid and virus reservoir. Previous field studies showed higher densities of green peach aphid, Myzus persicae (Sulzer), and potato aphid, Macrosiphum euphorbiae (Thomas), the two most important vectors of PLRV, on S. sarrachoides compared with potato plants in the same fields. Some of the S. sarrachoides plants sampled in these surveys tested positive for PLRV. Viral infections can alter the physiology of plant hosts and aphid performance on such plants. To understand better the potential effects of S. sarrachoides on the PLRV-potato-aphid pathosystem, the life histories of M. persicae and M. euphorbiae were compared on virus-free and PLRV-infected S. sarrachoides and potato. Individual nymphs of each aphid species were held in clip cages on plants from each treatment to monitor their development, survival, and reproductive output. Nymphal survival for both aphids across plant species was higher on S. sarrachoides than on potato, and, within plant species, it was higher on PLRV-infected plants than on noninfected plants. With a few exceptions, similar patterns occurred for fecundity, reproductive periods, adult longevity, and intrinsic rate of increase. The enhanced performance of aphids on S. sarrachoides and on PLRV-infected plants could alter the vector population dynamics and thus the PLRV-disease epidemiology in fields infested with this weed.     

温度对桃蚜和马铃薯长管蚜实验种群生命表参数的影响

【目的】桃蚜Myzus persicae (Sulzer)和马铃薯长管蚜Macrosiphum euphorbiae (Thomas)是2种主要的马铃薯害虫。本研究旨在明确温度对这两种马铃薯蚜虫生长发育、存活、繁殖及种群增长的影响。【方法】在室内测定了5个温度（10, 15, 20, 25和30℃）下桃蚜和马铃薯长管蚜的生长发育、存活和繁殖指标,并组建了4个恒温条件下（10,15,20和25℃）的实验种群生命表。【结果】在10~25℃范围内,2种蚜虫的若蚜期、世代历期、成蚜寿命和产蚜期等均随温度的升高而缩短,而30℃高温抑制了其发育、存活和繁殖。2种蚜虫的平均世代历期（T）随温度的升高而缩短,桃蚜和马铃薯长管蚜分别从10℃的30.08 d和35.35 d缩短至25℃的14.28 d和12.95 d。桃蚜的净增殖率（R₀）在15℃时最高（86.00）,其次为20℃（73.75）,再次为25℃（62.49）,最低为10℃（51.00）;马铃薯长管蚜的R0在15℃最高（58.97）,其次为10℃（51.98）,再次为20℃（48.94）,最低为25℃（12.36）。桃蚜的内禀增长率（r_m）随温度的升高而增大,从最小10℃的0.1307增大到25℃的0.2896;马铃薯长管蚜的r_m在20℃时最大（0.2182）,其次为25℃（0.1942）,再次为15℃（0.1485）,最小为10℃（0.1118）。在相同的温度下,桃蚜的发育速率、净增殖率和内禀增长率均高于马铃薯长管蚜。【结论】温度对2种马铃薯蚜虫的生长发育、存活、繁殖及种群增长有显著的影响,桃蚜在马铃薯上的种群增长能力强于马铃薯长管蚜。这一结果为马铃薯蚜虫预测模型的建立奠定了必要的基础,并解释了桃蚜在马铃薯上发生数量多于马铃薯长管蚜的原因。     

Wild Solanum resistance to aphids: antixenosis or antibiosis?

The type (antixenosis or antibiosis) of resistance against the aphids Myzus persicae (Sulzer) and Macrosiphum euphorbiae (Thomas) was characterized for the wild tuber-bearing potatoes, Solanum chomatophilum Bitter and Solanum stoloniferum Schltdl. & Bouché through behavioral (olfactometry and electrical penetration graph) and physiological studies. In dual-choice assays, only S. stoloniferum exerted attraction to M. euphorbiae. This ruled out the possibility that plant volatiles of S. chomatophilum and S. stoloniferum may contribute to the high resistance expressed. In electrical penetration graph experiments, aphids feeding on S. stoloniferum showed increased salivation phases, whereas phloem ingestion was drastically reduced for both aphid species. Because reaching phloem elements was not delayed in both species, the resistance mechanism was phloem-located. The antixenosis exhibited by S. stoloniferum was similar on young and mature leaves. S. chomatophilum also showed phloem-located antixenosis against M. persicae. In contrast, M. euphorbiae had no difficulty to reach S. chomatophilum phloem tissues and to ingest sap. S. chomatophilum resistance against M. euphorbiae was antibiosis and only expressed in mature leaves, where a complete nymphal mortality was observed.     

FACTORS AFFECTING THE SPREAD OF APHID-BORNE VIRUSES IN POTATO IN EASTERN SCOTLAND: II. INFESTATION OF THE POTATO CROP BY POTATO APHIDS, PARTICULARLY MYZUS PERSICAE (SULZER)

Surveys in the years 1954-56 showed that potato crops in most districts of eastern Scotland were infested by the aphids Myzus persicae (Sulz.), Macrosiphum euphorbiae (Thomas) and Aulacorthum solani (Kltb.). Crops in different districts became infested by Myzus persicae at different times and to different extents, and these differences seemed consistent between years. Crops in the Edinburgh area were colonized between mid-May and mid-June, whereas crops in north Perthshire escaped infestation until the end of July or mid-August. The time and degree of infestation by M. persicae seems correlated with distance from sites where this aphid overwinters. Trap records show that many alate M. persicae disperse from outdoor brassica and early potato crops in the Edinburgh area between mid-July and mid-August, a period during which potato crops in Fife, Angus and Perthshire usually become infested. The freedom of crops in the better seed-producing areas from widespread infection by potato leaf roll and Y viruses is probably associated with lateness of aphid infestation rather than scarcity of aphid vectors.     

FACTORS AFFECTING THE SPREAD OF APHID-BORNE VIRUSES IN POTATO IN EASTERN SCOTLAND: I. OVERWINTERING OF POTATO APHIDS, PARTICULARLY MYZUS PERSICAE (SULZER)

Three species of potato aphids, Myzus persicae (Sulzer), Macrosiphum euphorbiae (Thomas) and Aulacorthum solani (Kltb.), overwinter in eastern Scotland, primarily as apterae on perennial, glasshouse, frame and brassica crops. Brassica crops are the commonest hosts of overwintering Myzus persicae , the principal vector of potato leaf roll and Y viruses, and these crops are concentrated in the market-gardening areas of the Lothians and Moray. Although crops of savoy cabbage and brussels sprout often carried numerous M.persicae during the winter, spring cabbage, cabbage for seed and broccoli seem the most important overwintering hosts because they usually persist until mid-May, long enough to allow the development and dispersal of alatae to spring-planted crops. Many alatae dispersed during July and August from crops colonized in spring. Although M. persicae overwintered as eggs on peach and viviparously on plants in glasshouses, the influence of such sites, which are generally distributed throughout the main seed-potato growing areas of Angus, Perth and Fife, was local and unless numerous M. persicae survive the winter on weeds, the market-garden area of the Lothians is probably the most important source from which this aphid disperses in spring and early summer to colonize potato crops in eastern Scotland.     

Detection of potato leafroll and potato mop-top viruses by immunosorbent electron microscopy

Attachment of virus particles to antiserum-coated electron microscope grids (immunosorbent electron microscopy) provided a test that was at least a thousand times more sensitive than conventional electron microscopy for detecting potato leafroll (PLRV) and potato mop-top (PMTV) viruses. The identity of the attached virus particles was confirmed by exposing them to additional virus antibody, which coated the particles.
PLRV particles (up to 50/μm² of grid area) were detected in extracts of infected potato leaves and tubers, infected Physalis floridana leaves, and single virus-carrying aphids. On average, Myzus persicae yielded 10–30 times more PLRV particles than did Macrosiphum euphorbiae .
PMTV particles (up to 10/μm² of grid area) were detected in extracts of inoculated tobacco leaves, and of infected Arran Pilot potato tubers with symptoms of primary infection. Particles from tobacco leaves were of two predominant lengths, about 125 nm or about 290 nm, and fewer particles of other lengths were found than in previous work, in which partially purified or purified preparations of virus particles were examined, using grids not coated with antiserum.     

Direct and indirect sublethal effects of Galanthus nivalis agglutinin (GNA) on the development of a potato-aphid parasitoid, Aphelinus abdominalis (Hymenoptera: Aphelinidae)

Snowdrop lectin (Galanthus nivalis agglutinin, GNA), has been shown to confer partial resistance to two potato aphids Myzus persicae and Aulacorthum solani, when incorporated in artificial diet and/or expressed in transgenic potato. First-tier laboratory-scale experiments were conducted to assess the potential effect of GNA on the aphid parasitoid Aphelinus abdominalis. GNA (0.1% w/v) was successfully delivered to Macrosiphum euphorbiae via artificial diet and induced a reduced growth rate and increased mortality compared to aphids fed a control diet. As aphid parasitoid larvae are endophagous, they may be exposed to GNA during their larval development and potential "chronic toxicity" on A. abdominalis was investigated. The amounts of GNA present in aphid and parasitoid tissues were estimated by western blotting. Results suggest that parasitoids excrete most of the GNA ingested. Sublethal effects of GNA on several parasitoid fitness parameters (parasitism success, parasitoid development and size, emergence success, progeny survival and sex ratio) were studied. No direct detrimental effect of GNA on A. abdominalis was observed. However, GNA had an indirect host-size-mediated effect on the sex ratio and the size of parasitoids developing in GNA-fed aphids. This work highlights the need to determine the exact "causes and effects" when assessing the ecological impact of transgenic plants on non-target beneficial insects. Such bioassays form the basis of a tiered risk assessment moving from laboratory studies assessing individuals towards field-scale experiments assessing populations.     

Screening for resistance against Myzus persicae and Macrosiphum euphorbiae among wild Solanum

As a consequence of selection for productive traits, the genetic diversity of Solanum tuberosum cultivars has been drastically reduced. With the goal to develop aphid-resistant potato cultivars, our objective was to quantify the resistance of 14 accessions belonging to five wild potato species ( Solanum chomatophilum , Solanum stoloniferum stoloniferum , Solanum bukasovii , Solanum marinasense and Solanum medians ) against two aphid pests, Myzus persicae and Macrosiphum euphorbiae . Aphids were reared under controlled conditions in microcages clipped on the abaxial face of mature leaves of the Solanum species. The five wild Solanum species induced more than 90% of nymph mortality in M. persicae . The mortality rate of Ma. euphorbiae was also >90% on all S. chomatophilum , S. stoloniferum and S. medians accessions and on S. bukasovii -PI 414155. When enough adult aphids emerged, that is for Ma. euphorbiae on three S. bukasovii and three S. marinasense accessions, the prereproductive period, the adult survival and fecundity were assessed. These parameters allowed us to calculate the intrinsic rate of natural increase ( r_m ), the finite rate of increase and the population doubling time (DT). The r_m and the finite rate of increase were significantly reduced, whereas the population's DT was significantly enhanced for most (five out of six) wild Solanum accessions. All accessions of S. chomatophilum , S. stoloniferum and S. medians and S. bukasovii -PI 414155 were highly resistant to both M. persicae and Ma. euphorbiae . In conclusion, S. chomatophilum -PI 310943 and -PI 310990, and S. stoloniferum -PI 195167, -PI 201855 and -PI 275248, can be amenable for potato breeding programmes.     

PRELIMINARY STUDIES ON POTATO APHIDS IN NORTH AND NORTH-EAST SCOTLAND

Studies of potato aphids made in the potato seed-growing areas of north and north-east Scotland during 1950-3 showed that potato plants were first infested during July, but with few aphids; maximum populations did not develop until mid-late August or early September, which is the period of potato haulm destruction in seed crops. Myzus persicae (Sulzer) was scarce in rural districts and most numerous near urban areas. The main influx of alatae occurred in early August. Aulacorthum solani (Kltb.) was the predominant species north of Inverness. Macrosiphum euphorbiae (Thomas) was present in small numbers in many potato fields, but Aphis nasturtii (Kltb.) was extremely scarce.
Because of the small numbers of aphids found during two years by examining two or three compound leaves per haulm, it was preferable to count the aphids on one main stem and all its leaves.
Stove-pipe sticky traps provided information complementary to complete stem/leaf examination, but are considered to be of doubtful use in an area where aphids are few.     

Field studies of potato leaf roll virus spread in south-eastern Scotland, 1962–1969, in relation to aphid populations and other factors

Between 1962 and 1967 spread of potato leaf roll virus (PLRV) and the pattern of potato crop infestation by common potato aphids was investigated at sites in the counties of East Lothian, West Lothian, Midlothian and Berwickshire. Within this area aphid activity and the extent of PLRV spread varied considerably both within years and between years.
Macrosiphum euphorbiae activity as measured by the angle of colonization method was as well correlated with PLRV spread as that for Myzus persicae , and in certain years Aulacorthum solani and Aphis fabae may become common enough to have an effect. Spread was not well correlated with site altitude or with distance from the market garden area of Musselburgh, previously thought to be the main regional overwintering centre for aphids. Evidence is presented of the more general distribution of market gardening in the area which may account for these variations. Results from infector units of different sizes and bulk samples suggest, as do earlier findings, that in southern Scotland PLRV spread is mainly from sources within the crop. The practical implications for potato certification in the region are discussed.     

Resistance level to an aphid potato pest varies between genotypes from the same Solanum accession

Plant resistance to aphids can be improved by introgressing resistant traits from wild Solanum species into the potato germplasm. Breeding parents are commonly selected from the different accessions of each species. Accessions originate from several seeds collected in a restricted area and are conserved as seeds in genebanks. Genetic heterogeneity may be expected between genotypes from the same accession and could influence resistance level. Working with the potato aphid, Macrosiphum euphorbiae (Thomas), and the accession PI243340 of Solanum chomatophilum (Bitter), which has been previously rated as resistant to M. euphorbiae, we genetically identified and assessed the resistance level of genotypes within the accession. A combination of two multilplex polymerase chain reactions (PCRs) discriminated the 13 plant genotypes assessed. Survival of M. euphorbiae, measured using clip cages, varied significantly between five genotypes, randomly selected among the 13 previously assessed, but did not differ between same-genotype plants. Survival among genotypes ranged from 0 to > 60% 12 d after adult molt, and the least resistant genotype exhibited survival close to the susceptible standard, Solanum tuberosum L. Our results support the use of PCR multiplex methods to assess genetic heterogeneity in wild Solanum, and suggest that within accession genetic heterogeneity is sufficient to influence resistance level to aphids. Fine screening at the genotype level is preferable when assessing resistance to aphids.     

Response of potato aphid (Homoptera: Aphididae) to synthetic potato-derived Colorado potato beetle (Coleoptera: Chrysomelidae) attractant and natural potato odor

A recently synthesized kairomone blend, based on the volatiles produced by potato (Solanum spp.) plants, has been demonstrated to be attractive to both adult and larval stages of the Colorado potato beetle, Leptinotarsa decemlineata (Say) (Coleoptera: Chrysomelidae). It was subsequently formulated in a viscous inert carrier for field applications and showed potential for aggregating beetles in treated areas of the field. We investigated effects of this kairomone formulation on the potato aphid, Macrosiphum euphorbiae (Thomas) (Homoptera: Aphididae). The response of both winged and wingless adults to natural potato foliage and synthetic kairomone was tested in a Y-tube olfactometer. Aphid response to untreated potato foliage, foliage treated with the kairomone blend, and foliage treated with blank inert carrier also was tested in petri dishes. In addition, aphid densities on field plots treated with kairomone and blank inert carrier were compared with the control plots. The untreated potato foliage was found to be attractive to wingless, but not winged, potato aphids. In the olfactometer, the foliage treated with synthetic Colorado potato beetle kairomone was not attractive to either winged or wingless aphids. In petri dishes, aphids avoided leaflets treated with both kairomone formulation and its blank carrier. There was no statistical difference between any treatments compared in the field.     

Rapid method to screen resistance of potato plants against Myzus persicae (Homoptera: Aphididae) in the laboratory

With the objective to develop a potato, Solanum tuberosum L., resistance program against aphids, we propose a rapid screening method with Myzus persicae (Sulzer) in the laboratory. We aimed to optimize the duration of the whole procedure and to decrease the frequency of measurements. In a first experiment, intrinsic rate of natural increase (r(m)) values were compared between adult aphids reared throughout their entire life and adults reared only during a period equivalent to their prereproductive period. No significant differences were observed. In a second experiment, four groups of aphids were distinguished according to the sampling frequency, i.e., those whose biological parameters were evaluated every single, second, third, and fourth day. Except for the fourth-day experiment, the r(m) values estimated on aphids reared on the three potato lines were not significantly different whatever sampling frequency of single, second, or third day used to check aphids. Thus, screening efforts in laboratory can be largely optimized by evaluating adult aphids only during a period equivalent to their prereproductive period and assessing M. persicae populations every third day. Our method is reliable and adapted to screen a large number of potato plants against M. persicae because it allows an average 70% reduction in the time required for the whole experimental process.