Variability in abundance of the rosy apple aphid (Dysaphis plantaginea), the role of its alternate host (Plantago major), and potential control strategies in organic apple orchards in British Columbia

Brown, Amanda Erica

05 1900

The rosy apple aphid, Dysaphis plantaginea, (Homoptera: Aphididae) is a serious pest of apples in British Columbia (BC), Canada and especially in organic orchards where conventional controls cannot be used. The goals of this study were to determine the environmental or management factors of an orchard that lead to high aphid populations, to conduct an economic assessment of the damage, to determine the timing of autumn migration, and to test several autumn and spring chemical control methods and two novel autumn mechanical control methods targeting the aphids while on their alternate host, Plantago major. To explain the variation among orchards, I evaluated several potential correlates of aphid density: abundance of the alternate host (plantain, Plantago major), foliar tree nitrogen, tree age, tree planting density, and the application of an oil treatment in spring. Stepwise regression indicated that foliar nitrogen and tree age explain 27% of the variation. Orchards receiving a spring oil application had a 53% lower average aphid infestation level. Plantain abundance was not related to aphid population on apple. However, experimental manipulation of leaf angle from the ground and size showed that significantly more alate and apterous aphids occurred on large, low angle leaves. Mowing prior to spring aphid migration was associated with 75% fewer alatae and apterae on the plantain. The loss in harvest resulting from aphid damage ranged from 3% to 76% of the crop. Effective autumn control depends on accurate timing of aphid flight. The peak of female flight occurred on the 27th of September, 2007 at 11:56 hours daylength (sunrise to sunset) and the peak of male flight occurred on the12th of October, 2007 at 11:02 hours daylength. Aphid densities in the spring of 2008 were very low, making comparisons between treatments and controls difficult. Autumn applications of Superior dormant oil and kaolin clay were not effective. The PureSpray Green treatments of two October applications and one April application showed a significant reduction in rosy apple aphid infested clusters compared with the untreated control. Mowing and rotavating did not result in a significant reduction in aphid infestation level.

Integrated pest management

Rosy apple aphid

Organic agriculture

Alternate host

Plant architecture

Pest distribution

Citrus tristeza virus: characterization of Texas isolates, studies on aphid transmission and pathogen-derived control strategies

Herron, Caroline Mary

15 November 2004

Citrus tristeza virus (CTV), an economically important graft-transmissible pathogen of citrus, causes major global declines in citrus production. In the commercial citrus of the Lower Rio Grande Valley of Texas (LRGV), where red grapefruit on tristeza-decline sensitive sour orange rootstocks predominate, incidence of CTV is low. The efficient CTV vector, the brown citrus aphid (BrCA, Toxoptera citricida Kirkaldy) is now established in Mexico and Florida, thus information is needed on the severity of CTV, CTV aphid transmission and the performance of transformed citrus towards CTV before T. citricida arrives in Texas so that appropriate management strategies can be selected. Biological indexing and molecular typing were performed on fifteen Texas CTV isolates. The majority of the CTV isolates tested contained the most severe CTV types known. In Florida, T. citricida were fed on crude CTV preparations in vitro and could transmit CTV to virus-free receptor plants with two CTV isolates, whereas a more highly purified CTV preparation from one CTV isolate was not transmitted by T. citricida. There were no differences in the majority of treatments in infectivity neutralizations using three CTV-derived antibodies (p25, p27 and p20). CTV p20 antibodies significantly enhanced the occurrence of CTV transmission in one test. The CTV genome of isolate H33 was sequenced using 'shot gun' methods. The H33 major component and H33 minor components were phylogenetically compared to the six other full-length CTV sequences. An untranslatable CTV coat protein gene was genetically transformed into the genome of the Texas commercial Rio Red grapefruit variety, and fifty-two independent transgenic lines were produced. CTV challenge responses by the transgenic lines were variable. Individual plants could be identified which had low virus titers by ELISA detection, a temporal decrease in virus titer, or a delay in virus titer accumulation. Comparing all wild types to all transgenic lines over every assessment revealed significant decreases in virus titer in the transgenic lines compared to that of the wild type. An RNA entity with similarities to marafiviruses was identified in a CTV infected plant. The entity appears non-graft transmissible to citrus, and non-mechanically transmissible to a range of herbaceous species.

Citrus tristeza virus

Toxoptera citricida

the brown citrus aphid

transgenic citrus

pathogen-derived resistance

marafiviruses

Variability in abundance of the rosy apple aphid (Dysaphis plantaginea), the role of its alternate host (Plantago major), and potential control strategies in organic apple orchards in British Columbia

Brown, Amanda Erica

05 1900

The rosy apple aphid, Dysaphis plantaginea, (Homoptera: Aphididae) is a serious pest of apples in British Columbia (BC), Canada and especially in organic orchards where conventional controls cannot be used. The goals of this study were to determine the environmental or management factors of an orchard that lead to high aphid populations, to conduct an economic assessment of the damage, to determine the timing of autumn migration, and to test several autumn and spring chemical control methods and two novel autumn mechanical control methods targeting the aphids while on their alternate host, Plantago major. To explain the variation among orchards, I evaluated several potential correlates of aphid density: abundance of the alternate host (plantain, Plantago major), foliar tree nitrogen, tree age, tree planting density, and the application of an oil treatment in spring. Stepwise regression indicated that foliar nitrogen and tree age explain 27% of the variation. Orchards receiving a spring oil application had a 53% lower average aphid infestation level. Plantain abundance was not related to aphid population on apple. However, experimental manipulation of leaf angle from the ground and size showed that significantly more alate and apterous aphids occurred on large, low angle leaves. Mowing prior to spring aphid migration was associated with 75% fewer alatae and apterae on the plantain. The loss in harvest resulting from aphid damage ranged from 3% to 76% of the crop. Effective autumn control depends on accurate timing of aphid flight. The peak of female flight occurred on the 27th of September, 2007 at 11:56 hours daylength (sunrise to sunset) and the peak of male flight occurred on the12th of October, 2007 at 11:02 hours daylength. Aphid densities in the spring of 2008 were very low, making comparisons between treatments and controls difficult. Autumn applications of Superior dormant oil and kaolin clay were not effective. The PureSpray Green treatments of two October applications and one April application showed a significant reduction in rosy apple aphid infested clusters compared with the untreated control. Mowing and rotavating did not result in a significant reduction in aphid infestation level.

Integrated pest management

Rosy apple aphid

Organic agriculture

Alternate host

Plant architecture

Pest distribution

Fungal parasitism of cereal aphids in South Africa.

Hatting, Justin Louis.

17 December 2013

The Russian wheat aphid, Diuraphis noxia is one of the most destructive exotic invaders of South Africa, capable of reducing individual wheat plant yields by up to 90%. Entomopathogenic fungi are important natural mortality factors associated with this aphid in its Eurasian endemic habitats as well as in the United States and Canada; their impact often exceeding that of predators and parasitoids. The principal objectives of this study included (1) baseline characterization of the aphid-pathogenic flora associated with aphids from South Africa, with special reference to six common cereal aphids, (2) quantification of the comparative impact of the different fungal species on the cereal-aphid complex in three different wheat producing regions of South Africa, (3) field evaluation of the Hyphomycete Beauveria bassiana against D. noxia on resistant wheat, (4) screening of six fungicides for their potential usage in managing entomophthoralean epizootics within greenhouse rearings of the Russian wheat aphid, and (5) development and evaluation of a novel bioassay protocol for screening entomopathogenic Hyphomycetes against D. noxia. A total of nine species of fungi known to infect and kill aphid hosts were collected, including the six entomophthoraleans, Pandora neoaphidis, Conidiobolus thromboides, Conidiobolus obscurus, Entomophthora planchoniana, Conidiobolus coronatus and Neozygites fresenii, and three Hyphomycetes, Beauveria bassiana, Verticillium lecanii, and Paecilomyces farinosus. The former four entomophthoraleans are considered first reports from this country. For the first time, morphological characteristics of these nine South African-collected species are visually depicted and techniques for their isolation and in vitro culture discussed. Seven species of fungi were recorded from D. noxia, of which P. neoaphidis was the most important, causing up to 50% mortality during the late season under dryland conditions in the summer-rainfall region. Mycoses at epizootic levels, together with the large diversity of fungal species recorded from this host, indicated a high level of susceptibility to fungal infection. In contrast, infection of the oat aphid Rhopalosiphum padi remained < 5% despite favourable numbers of hosts and apparently suitable environmental conditions. This phenomenon strongly suggests some level of low susceptibility to fungal infection in this species. Under irrigated conditions m KwaZulu-Natal, the rose-gram aphid Metopolophium dirhodum was the predominant aphid but remained below economical injury levels. Field surveys revealed that this aphid was effectively targeted by P. neoaphidis and C. obscurus, and findings suggest that in some areas of South Africa entomophthoralean fungi effectively suppress this aphid, negating the need for insecticide applications. On average, ca. 61% control of D. noxia on resistant wheat was observed following an application of B. bassiana (5 x 10¹³ conidia per hectare) during the early flag-leaf stage of the wheat. Efficacy of B. bassiana applications on younger plants appeared to be influenced by the level of aphid activity, possibly explained by secondary pick-up of inoculum by D. noxia. These findings accentuate the importance of understanding the tritrophic relationship between host plant, pest and pathogen. The fungicides copper oxychloride, mancozeb + oxadixyl, captab + metalaxyl, bittertanol, iprodione, and mancozeb at a rate of 0.1% active ingredient moderately to strongly inhibited C. thromboides vegetative growth (mean inhibition 81.1 %). Mancozeb at concentrations of 10.0, 2.0, 1.25, 0.5, 0.08, and 0.016% was further evaluated in vitro. The fungus growth cut-off point, midway between 1.25 and 2.0% mancozeb, was calculated and a rate of 1.625% active ingredient per litre of water was used to decontaminate the fungus-infected D. noxia cultures. A novel bioassay protocol was developed, employing live host plants for rearing aphids post inoculation. Using this design against D. noxia, an average LC₅₀ estimate of 85 conidia per mm² for B. bassiana strain GHA was calculated. Control mortality was restricted to levels below 4%. The data indicated high precision due to an average coefficient of variation for slope of less than 20%, and an average chi-squared value of 5.46 ± 2.74 (n = 10 assays). The design will accommodate the use of cereal aphid species other than D. noxia, while live host plants will facilitate tritrophic studies on the effect of host-plant resistance on fungus-induced mortality of D. noxia. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 2002.

Russian wheat aphid.

Aphids--Biological control.

Biological assay.

Wheat--Diseases and pests.

Entomopathogenic fungi.

Theses--Entomology.

The management of spotted alfalfa aphid, Therioaphis trifolii (Monell) f. maculata, in dryland lucerne pasture in South Australia / by P.G. Allen

Allen, P. G. (Peter Gordon), 1941-

January 1984

Mounted ill. / Bibliography: leaves 263-265 / 265 leaves [1] leaf of plates : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Agriculture, 1984

633.31/9709/94234 19

Spotted alfalfa aphid Control.

Characterization of the mitochondrial genomes of Diuraphis noxia biotypes

De Jager, Laura-Ellen

12 1900

Thesis (MSc)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Diuraphis noxia (Kurdjumov, Hemiptera, Aphididae) commonly known as the Russian wheat aphid (RWA), is a small phloem-feeding pest of wheat (Triticum aestivum L). Virulent D. noxia biotypes that are able to feed on previously resistant wheat cultivars continue to develop and therefor the identification of factors contributing to virulence is vital. Since energy metabolism plays a key role in the survival of organisms, genes and processes involved in the production and regulation of energy may be key contributors to virulence: such as mitochondria and the NAD+/NADH that reflects the health and metabolic activities of a cell. The involvement of carotenoids in the generation of energy through a photosynthesis-like process may be an important factor, as well as its contribution to aphid immunity through mediation of oxidative stress. The complete mitochondrial genome of global Diuraphis noxia populations was characterised using Next Generation sequencing, and was found to be 15 721bp in size and consisting of 38 genes typically found within most insects. Single nucleotide polymorphism (SNP) analyses of the genomes of nine populations revealed 125 SNPs in the protein coding genes with the majority of the SNPs occurring in the ND genes, and the least in the ND4L gene. Low SNP variant frequency was found for the atp6 and atp8 genes, which differed from other reports in the Hemiptera. Variable ND5 expression levels were observed among the biotypes, although no correlation was apparent between ND5 expression and the virulence associated with each biotype. Whereas atp6 transcription was higher in the highly virulent biotype (SAM) under normal and stressful conditions in comparison to the least virulent biotype (SA1). A significantly higher NAD+/NADH ratio was also observed for the SAM biotype under stressful conditions in comparison to the lesser virulent biotypes. UPLC-MS analysis did not reveal any lycopene or β-carotene due to low compound concentrations in the extracted samples but various hydrophobic compounds were present in different concentrations among the biotypes. The carotene desaturase expression profile revealed that SA1 had the lowest relative expression of the gene involved in carotenoid products, while SAM had the highest, under normal and stressful conditions. The results indicate that sequence conservation in mitochondrial genes are associated with key energy processes to maintain a state of homeostasis under variable conditions and that the generation of energy is a contributing factor to the virulence development of D. noxia. The results also show that carotenoids may possibly contribute to fitness of D. noxia through reactive oxygen species scavenging or the production of additional energy, but further investigation is needed for confirmation. / AFRIKAANSE OPSOMMING: Diuraphis noxia (Kurdjumov, Hemiptera, Aphididae) algemeen bekend as die Russiese koringluis (RWA), is ‘n klein floëem-voedende pes van koring (Triticum aestivum L). Virulente D. noxia biotipes wat instaat is om op voorheen bestande koring kultivars te voed gaan ontwikkel voortdurend, en daarom is die identifisering van faktore wat kan bydrae tot virulensie so belangrik. Omdat energie-metabolisme ‘n sleutelrol in die oorlewing van organismes speel, kan gene en prosesse wat by die produksie en regulering van energie betrokke is belangrike bydraers tot virulensie lewer: soos onder andere mitokondria en die NAD+/NADH-verhouding wat die gesondheid en metaboliese aktiwiteit van ‘n sel reflekteer. Die betrokkenheid van karotenoïede in die produksie van energie deur 'n fotosintese-verwante proses kan 'n belangrike faktor bydraend tot luis fiksheid wees, asook die bydra daarvan tot plantluis-immuniteit deur bemiddeling van oksidatiewe stres. Die volledige mitochondriale genoom van globale Diuraphis noxia populasies is met behulp van volgende generasie DNA volgordebepaling gekarrakteriseer, en daar is bevind dat dit 15 721 bp in grootte is en uit 38 gene bestaan wat tipies binne insekte voorkom. Enkelnukleotied- polimorfisme (SNP) ontleding van die genome van nege populasies het onthul dat daar 125 SNPs in die proteïen-koderende gene voorkom, met die meerderheid van die SNPs in die ND-gene, en die minste in die ND4L-geen. Lae SNP-frekwensies is gevind vir die atp6- en atp8- gene, wat verskil van verslae oor ander Hemiptera. Veranderlike ND5-uitdrukkingsvlakke onder die biotipes is waargeneem, alhoewel geen korrelasie duidelik was tussen ND5-uitdrukking en die virulensie geassosieer met elke biotipe nie. Die transkripsie van atp6 was hoër in die hoogs virulente biotipe (SAM) onder normale en stresvolle toestande in vergelyking met die minste virulente biotipe (SA1). ‘n Aansienlike hoër NAD+/NADH-verhouding is ook waargeneem vir die SAM-biotipe onder spanningsvolle omstandighede in vergelyking met die minder virulente biotipes. UPLC-MS-analise het geen likopeen of β-karoteen geïdentifiseer nie as gevolg van lae verbinding konsentrasies in die onttrekte monsters, maar verskeie hidrofobiese verbindings was in verskillende konsentrasies tussen die biotipes teenwoordig. Die karoteen desaturase-uitdrukkingsprofiel het aangetoon dat SA1 die laagste relatiewe uitdrukking van gene betrokke by karotenoïed produksie het, terwyl SAM die hoogste relatiewe uitdrukking onder normale en spanningsvolle omstandighede het. Die resultate van die studie dui daarop dat die volgorde bewaring in mitochondriale gene verband hou met die sleutel energie prosesse om 'n toestand van homeostase onder wisselende omstandighede te handhaaf en dat die produksie van energie 'n bydraende faktor tot die ontwikkeling van virulensie in D. noxia is. Die resultate toon ook aan dat karotenoïede moontlik kan bydra tot fiksheid van D. noxia deur reaktiewe suurstofspesies te aas of deur die produksie van addisionele energie, maar verdere ondersoeke word benodig ter bevestiging.

Wheat -- Diseases and pests

UCTD

Theses -- Genetics

Dissertations -- Genetics

Genetická variabilita a fylogeografie mšice zhoubné \kur{Diuraphis noxia} (Aphididae) / Genetic variability and phylogeography of Russian wheat aphid, \kur{Diuraphis noxia} (Aphididae)

SATTRANOVÁ, Anna

January 2013

Genetic analysis of 433 samples of serious crop pest aphid Diuraphis noxia was conducted with the use of 8 microsatellites loci. Statistical analysis revealed sexual reproduction of D. noxia in temperate regions. The linkage disequilibrium was detected because of the excess of heterozygotes. These results support the theory of RNDr. Starý about the invasion of D. noxia to American continent via states of North Africa, Spain and France.

Biochemistry of resistance in Myzus persicae and Aphis gossypii

Moores, Graham David

January 1997

The insecticide resistance mechanisms present in the aphids Myzus persicae and Aphis gossypii have been characterised and sensitive biochemical assays have been developed to monitor their presence in individual aphids. It was found that enhanced esterase activity is present in both aphid species, and that this enhanced activity results from the presence of larger amounts of the same enzyme rather than the presence of a more efficient enzyme. In Myzus persicae this mechanism alone is sufficient to confer high levels of insecticide resistance. In Aphis gossypii, it appears that the presence of insensitive acetylcholinesterase (AChE) is necessary for measurable levels of resistance to occur. During the course of this work, insensitive AChE was detected in Myzus persicae for the first time. This additional resistance mechanism, when combined with the enhanced esterase activity, was found to confer extremely high levels of tolerance against specific insecticides. This additional mechanism is rare in the UK at present but the use of sensitive assays to monitor its existence is of increasing importance. When the AChE mechanism becomes more prevalent in the UK, as it almost certainly will, new strategies for aphid control will be needed. Further examples of insensitive AChE conferring insensitivity not only to carbamates, but also to organophosphates, have also been detected in Aphis gossypii. The inter-relationships of the two mechanisms in this species have been resolved and new monitoring methods made available.

595.7

Exploring aphid-virus-wheat interactions using current wheat varieties, aphid control techniques and vector surveys

Girvin, John Jacob III

January 1900

Master of Science / Entomology / C. Michael Smith / The bird cherry oat aphid, Rhopalosiphum padi, and one of the viruses it vectors, barley yellow dwarf virus (BYDV), form a very damaging pest unit on cereals. Understanding how people can better manage crops to prevent damage or recognize environmental or geographic factors that put their crops at risk for BYDV could lead to improved virus aphid management strategies. One of the most successful methods for mitigating pest damage is using pest-resistant varieties of crops. Seven candidate wheat varieties were screened for resistance to R. padi, by testing aphid population densities and aphid host choice. Results of this research identified six varieties of wheat that show resistance to R. padi. One of the major knowledge gaps in BYDV management is forecasting potential damage. Our objective was to create viral presence maps, to start building the foundation of correlations between persistent and changing frequency of viruliferous R. padi. The results of BYDV assays in R. padi in wheat fields across Kansas indicated that the amount of BYDV infection in viruliferous aphids changes rapidly from year to year, and differs considerably between geographic regions and field landscape characteristics in Kansas. Neonicotinoid wheat seed treatment is a management technique that reduces R. padi populations. However, a common question among producers is whether or not seed treatments stop viral transmission. Results of greenhouse seed treatment experiments with plants from neonicotinoid treated and untreated seed infested with viruliferous R. padi indicated no significant difference in viral transmission due to seed treatment. This new information about R. padi wheat varietal resistance, geographic distribution of BYDV in Kansas, and neonicotinoid seed treatment creates a better understanding of aphid-virus-wheat interactions. Results from this thesis directly enhance producer ability to forecast risk from BYDV, select wheat varieties that effectively reduce R. padi as a BYDV vector, and to make better decisions about the use of insecticide to reduce BYDV infection.

Aphid

Wheat

R. padi

BYDV

Virus

Seed treatment

Agriculture, General (0473)

Entomology (0353)

Plant Pathology (0480)

Black aphid preference to cowpea landraces from Pentecoste, CearÃ. / PreferÃncia de Aphis craccivora, Koch por variedades locais de feijÃo-de-corda oriundas de Pentecoste, CearÃ

Antonia DÃbora Camila de Lima Ferreira

06 July 2015

CoordenaÃÃo de AperfeÃoamento de Pessoal de NÃvel Superior / Currently the production of cowpea is taking ever greater proportions, and thereby arousing the interest of many producers for this culture. The attack of pests is among factors that affect production, being the black aphid considered key pest. The control of this pest can be accomplished through the use of resistant plants, resistance may occur in cultivars or in landraces. The objective of this study was to compare natural resistance of cowpea landraces genotypes against Aphis craccivora as well as the effects caused in its biology. In the first trial a free choice test was done using 21 genotypes compared to four standards. In this trial sowings were performed in 300 mL polystyrene cups arranged in a randomized block design consisting of 6 replicates and 25 treatments. It was found that the analyzed genotypes presented genetic variability in relation to against A. craccivora, resistance, and formed seven groups: Highly resistant (BRS Guariba, TVU 408 P2, Enrica pobre, Das Almas, CE-13 Selection and Ritinha), Resistant (CE-55, 40 dias 1, Praiano), Intermediate (SeridÃ, Sel. CE-42, 7 semanas), susceptible (Vinagre 1, PitiÃba, Rabo de calango FÃgado de galinha, BR 17-Gurgueia) and highly susceptible (RoxÃo 1 (CE-13), Cabecinha, Isabel 1, VITA-7, Rita Joana, Milagroso, Bengala). After screening of these genotypes, six were selected to compose the second trial, which corresponded to the determination of biological parameters, four resistants: Ritinha, Enrica Pobre, Das Almas e Sel. CE-13, and two susceptible: RoxÃo 1(CE-13) e VITA-7. This test consisted of six treatments and six replications arranged in a randomized blocks at a greenhouse. Daily observations were made to determine the biological parameters: time of one generation, generation mortality, overall fertility, reproductive period, post-reproductive period and period of a cycle. From these dada, the population parameters were calculated: Intrinsic rate of increase (rm) and the finite rate of increase (&#955;). The different genotypes influence the biology A. craccivora. VITA-7 and RoxÃo1 (CE-13) were more suitable for the development of aphid providing superior fertility, greater reproductive period and longevity of adults. Genotypes Das Almas and Ritinha provided deleterious effects in individuals, causing 100% morality, being antibiose the main resistance mechanism. / Atualmente a produÃÃo de feijÃo-de-corda vem tomando proporÃÃes cada vez maiores, e com isso, despertando o interesse de muitos produtores. O ataque de pragas està entre os fatores que afetam a produÃÃo, sendo o pulgÃo-preto considerado como praga chave. O controle dessa praga pode ser realizado atravÃs do uso de plantas resistentes, e a resistÃncia pode ocorrer em materiais nÃo comercializados como as variedades locais. Objetivou-se com este trabalho comparar genÃtipos locais de feijÃo-de-corda quanto a sua resistÃncia natural contra Aphis craccivora, bem como os efeitos provocados na sua biologia. No primeiro ensaio foi realizado teste com chance de escolha para definir quais dos 21 genÃtipos testados possuÃam resistÃncia genÃtica comparados a quatros padrÃes. Neste ensaio as semeaduras foram realizadas em copos de poliestireno de 300 mL arranjados em um delineamento de blocos casualizados constando de seis repetiÃÃes e 25 tratamentos. Verificou-se que os genÃtipos analisados apresentaram variabilidade genÃtica em relaÃÃo à resistÃncia contra o A. craccivora, sendo formados sete grupos: Altamente Resistente (BRS Guariba, TVu 408 P2, Enrica Pobre, Das Almas, SeleÃÃo da CE 13 e Ritinha), Resistente (CE-55, 40 dias1, Praiano), IntermediÃrio (SeridÃ, Sel. CE-42, 7 semanas), SusceptÃvel(Vinagre 1 PitiÃba Rabo de calango FÃgado de galinha BR 17-Gurgueia) e Altamente SusceptÃvel (RoxÃo 1 (CE-13), Cabecinha, Isabel 1, VITA-7, Rita Joana, Milagroso, Bengala). ApÃs a triagem destes genÃtipos, foram selecionados seis para compor o segundo ensaio, que correspondia à determinaÃÃo dos parÃmetros biolÃgicos, sendo quatro resistentes: Ritinha, Enrica Pobre, Das Almas e Sel. CE-13 e dois suscetÃveis: RoxÃo 1(CE-13) e VITA-7. O ensaio constou de seis tratamentos e seis repetiÃÃes dispostos em blocos casualizados dentro de casa de vegetaÃÃo. Foram realizadas observaÃÃes diÃrias para determinar os parÃmetros biolÃgicos: tempo de uma geraÃÃo, mortalidade na geraÃÃo, fecundidade total, perÃodo reprodutivo, perÃodo pÃs-reprodutivo e perÃodo de um ciclo. A partir destes, foram calculados os seguintes parÃmetros populacionais: taxa intrÃnseca de crescimento (rm) e a razÃo finita de crescimento (&#955;). Os diferentes genÃtipos influenciaram na biologia A. craccivora. VITA-7 e RoxÃo1 (CE-13) mostraram-se mais adequados ao desenvolvimento do afÃdeo por permitirem maior fecundidade, maior perÃodo reprodutivo e maior longevidade do adulto. Os genÃtipos Das Almas e Ritinha proporcionaram efeitos deletÃrios causando moralidade em 100% dos indivÃduos sendo a antibiose o principal mecanismo de resistÃncia envolvido.

Biologia

PulgÃo-preto-do-feijoeiro

ResistÃncia

Vigna unguiculata

Biology

Cowpea black aphid

Resistance

Vigna unguiculata

ENTOMOLOGIA AGRICOLA