Aphids in Corn Research

Corn, Zea mays L., is the most abundant field crop in Iowa, and there are many insect pests associated with this field crop. Although aphids are not typically economically important in corn, recent observations have indicated several aphid species developing heavy populations in northwest Iowa and southwest Minnesota. Historically, the corn leaf aphid, Rhopalosiphum maidis (Hemiptera: Aphididae), has been the most abundant aphid species in corn; however, the bird cherry oat aphid, R. padi (Hemiptera: Aphididae), and several other species have also been detected. Recent observations show a shift to populations peaking later in the summer. Damage potential and management guidelines for aphids in corn are not well defined and this research is aimed at developing economic threshold and sampling protocols.

Diminished UV-absorbing nets reduce the Spreads and population density of Macrosiphum euphorbiae in lettuce.

UV-absorbing covers reduce the incidence of injurious insect pests and viruses in protected crops. In the present study, the effect of a UV-absorbing net (Bionet) on the spatio-temporal dynamics of the potato aphid on lettuce plants was evaluated. A field experiment was conducted during three seasons in two identical tunnels divided in four plots. A set of lettuce plants were artificially infested with Macrosiphum euphorbiae adults and the population was estimated by counting aphids on every plant over 7 to 9 weeks. Insect population grew exponentially but a significantly lower aphid density was present on plants grown under the UV-absorbing cover compared to a standard 50 mesh net. Similarly, in laboratory conditions, life table parameters were significantly reduced under the Bionet. Moreover, SADIE analysis showed that the spatial distribution of aphids was effectively limited under the UV-absorbing nets. Our results indicate that UV-absorbing nets should be considered as an important component of lettuce indoor cropping systems preventing pesticide applications and reducing the risk of spread of aphid-borne virus diseases.

A synthetic cryIC gene, encoding a Bacillus thuringiensis δ-endotoxin, confers Spodoptera resistance in alfalfa and tobacco

Spodoptera species, representing widespread polyphagous insect pests, are resistant to Bacillus thuringiensis δ-endotoxins used thus far as insecticides in transgenic plants. Here we describe the chemical synthesis of a cryIC gene by a novel template directed ligation–PCR method. This simple and economical method to construct large synthetic genes can be used when routine resynthesis of genes is required. Chemically phosphorylated adjacent oligonucleotides of the gene to be synthesized are assembled and ligated on a single-stranded, partially homologous template derived from a wild-type gene (cryIC in our case) by a thermostable Pfu DNA ligase using repeated cycles of melting, annealing, and ligation. The resulting synthetic DNA strands are selectively amplified by PCR with short specific flanking primers that are complementary only to the new synthetic DNA. Optimized expression of the synthetic cryIC gene in alfalfa and tobacco results in the production of 0.01–0.2% of total soluble proteins as CryIC toxin and provides protection against the Egyptian cotton leafworm (Spodoptera littoralis) and the beet armyworm (Spodoptera exigua). To facilitate selection and breeding of Spodoptera-resistant plants, the cryIC gene was linked to a pat gene, conferring resistance to the herbicide BASTA.

Overexpression of the Bacillus thuringiensis (Bt) Cry2Aa2 protein in chloroplasts confers resistance to plants against susceptible and Bt-resistant insects

Evolving levels of resistance in insects to the bioinsecticide Bacillus thuringiensis (Bt) can be dramatically reduced through the genetic engineering of chloroplasts in plants. When transgenic tobacco leaves expressing Cry2Aa2 protoxin in chloroplasts were fed to susceptible, Cry1A-resistant (20,000- to 40,000-fold) and Cry2Aa2-resistant (330- to 393-fold) tobacco budworm Heliothis virescens, cotton bollworm Helicoverpa zea, and the beet armyworm Spodoptera exigua, 100% mortality was observed against all insect species and strains. Cry2Aa2 was chosen for this study because of its toxicity to many economically important insect pests, relatively low levels of cross-resistance against Cry1A-resistant insects, and its expression as a protoxin instead of a toxin because of its relatively small size (65 kDa). Southern blot analysis confirmed stable integration of cry2Aa2 into all of the chloroplast genomes (5,000–10,000 copies per cell) of transgenic plants. Transformed tobacco leaves expressed Cry2Aa2 protoxin at levels between 2% and 3% of total soluble protein, 20- to 30-fold higher levels than current commercial nuclear transgenic plants. These results suggest that plants expressing high levels of a nonhomologous Bt protein should be able to overcome or at the very least, significantly delay, broad spectrum Bt-resistance development in the field.

Hydroperoxide lyase depletion in transgenic potato plants leads to an increase in aphid performance

Hydroperoxide lyases (HPLs) catalyze the cleavage of fatty acid hydroperoxides to aldehydes and oxoacids. These volatile aldehydes play a major role in forming the aroma of many plant fruits and flowers. In addition, they have antimicrobial activity in vitro and thus are thought to be involved in the plant defense response against pest and pathogen attack. An HPL activity present in potato leaves has been characterized and shown to cleave specifically 13-hydroperoxides of both linoleic and linolenic acids to yield hexanal and 3-hexenal, respectively, and 12-oxo-dodecenoic acid. A cDNA encoding this HPL has been isolated and used to monitor gene expression in healthy and mechanically damaged potato plants. HPL gene expression is subject to developmental control, being high in young leaves and attenuated in older ones, and it is induced weakly by wounding. HPL enzymatic activity, nevertheless, remains constant in leaves of different ages and also after wounding, suggesting that posttranscriptional mechanisms may regulate its activity levels. Antisense-mediated HPL depletion in transgenic potato plants has identified this enzyme as a major route of 13-fatty acid hydroperoxide degradation in the leaves. Although these transgenic plants have highly reduced levels of both hexanal and 3-hexenal, they show no phenotypic differences compared with wild-type ones, particularly in regard to the expression of wound-induced genes. However, aphids feeding on the HPL-depleted plants display approximately a two-fold increase in fecundity above those feeding on nontransformed plants, consistent with the hypothesis that HPL-derived products have a negative impact on aphid performance. Thus, HPL-catalyzed production of C6 aldehydes may be a key step of a built-in resistance mechanism of plants against some sucking insect pests.

Construction of an improved mycoinsecticide overexpressing a toxic protease.

Mycoinsecticides are being used for the control of many insect pests as an environmentally acceptable alternative to chemical insecticides. A key aim of much recent work has been to increase the speed of kill and so improve commercial efficacy of these biocontrol agents. This might he achieved by adding insecticidal genes to the fungus, an approach considered to have enormous potential for the improvement of biological pesticides. We report here the development of a genetically improved entomopathogenic fungus. Additional copies of the gene encoding a regulated cuticle-degrading protease (Pr1) from Metarhizium anisopliae were inserted into the genome of M. anisopliae such that Pr1 was constitutively overproduced in the hemolymph of Manduca sexta, activating the prophenoloxidase system. The combined toxic effects of Pr1 and the reaction products of phenoloxidase caused larvae challenged with the engineered fungus to exhibit a 25% reduction in time of death and reduced food consumption by 40% compared to infections by the wild-type fungus. In addition, infected insects were rapidly melanized, and the resulting cadavers were poor substrates for fungal sporulation. Thus, environmental persistence of the genetically engineered fungus is reduced, thereby providing biological containment.

Interazioni piante - insetti: ruolo delle formiche in un sistema multitrofico. Aspetti ecoetologici ed applicativi

Le formiche svolgono un importante ruolo all’interno degli ecosistemi ed alcune specie sono considerate keystone in quanto in grado di modificare la componente biotica e/o abiotica dell’ecosistema stesso. Sono animali ubiquitari che hanno colonizzato molteplici ambienti, compresi gli agroecosistemi. Negli agroecosistemi spesso svolgono un ruolo impattante determinando la diffusione o il regresso di specie di artropodi, alcune delle quali dannose alle colture. La presente ricerca tiene conto di un’ampia visione dei rapporti ecoetologici intercorrenti tra le formiche e la componente biotica di un ecosistema, utilizzando il concetto di rete multitrofica. In quest’ottica, si è pensato di costruire un sistema multitrofico costituito da una specie vegetale di interesse agrario (Cucumis sativus), dai suoi fitofagi naturali, divisi in fitomizi (afidi) (Aphis gossypii e Myzus persicae) e fitofagi masticatori (bruchi del lepidottero Mamestra brassicae), formiche (Formica pratensis) e predatori afidofagi (Aphidolets aphidimyza). Il sistema multitrofico è stato utilizzato sia per studiare l’aggressività delle formiche, sia per verificare l’esistenza di una comunicazione interspecifica tra le formiche e le piante (allelochimici). Gli studi sull’aggressività sono consistiti nel: • Verificare il livello di aggressività delle formiche nei confronti di un fitofago masticatore, competitore degli afidi nello sfruttare la pianta ospite. • Verificare se la presenza di afidi mutualisti fa variare il livello di aggressività delle formiche verso il competitore. • Verificare se esiste aggressività verso un predatore di afidi, i quali, secondo il paradigma della trofobiosi, dovrebbero essere difesi dalle formiche in cambio della melata. • Verificare se il predatore ha evoluto strategie volte ad eludere il controllo delle formiche sugli insetti che si approcciano alla colonia di afidi. Gli studi sui rapporti piante-formiche sono stati effettuati mediante olfattometro, osservando la risposta delle formiche alle sostanze volatili provenienti da piante infestate in modo differente con i fitofagi del sistema. Attraverso il trappolaggio e l’analisi gas-cromatografica delle sostanze prodotte dalle piante oggetto di studio abbiamo quindi individuato tipo e quantità di ogni composto volatile. Oltre alle piante di cetriolo, per questi esperimenti sono state utilizzate anche piante di patata (Solanum tuberosum). Dagli esperimenti sull’aggressività è risultato che le formiche manifestano un elevato potenziale predatorio, eradicando completamente la presenza dei bruchi sulle piante. Questo livello di aggressività tuttavia non cresce con la presenza degli afidi mutualisti che dovrebbero essere difesi dai competitori. Le formiche inoltre non sono in grado di sopprimere i predatori afidofagi che ipotizziamo riescano ad effettuare un camuffamento chimico, assumendo gli odori degli afidi dei quali si nutrono. I risultati degli esperimenti in olfattometro mostrano una chiara risposta positiva delle formiche verso gli odori di alcune delle piante infestate. Vi sono delle differenze nella risposta in funzione della specie di fitofago presente e della specie di pianta utilizzata. Nei trattamenti in cui erano presenti le piante di C. sativus, gli esperimenti in olfattometro hanno mostrato che le formiche rispondono in modo significativo agli odori emessi dalle piante in cui vi era la presenza del fitofago masticatore M. brassicae, solo o in associazione con A. gossypii. La presenza dei soli afidi, sia mutualisti (A. gossypii) sia non mutualisti (M. persicae), non ha invece indotto una risposta significativa nelle formiche rispetto agli odori delle piante non infestate. Nei trattamenti in cui erano presenti le piante di S. tuberosum la scelta delle formiche è stata significativa verso gli odori emessi dalle piante infestate con ciascuna delle singole specie di erbivori rispetto alle piante non infestate. Gli esperimenti sull’analisi delle sostanze volatili emesse dalle piante hanno confermato che gli organismi vegetali sono una vera centrale di produzione biochimica, infatti ben 91 composti volatili diversi sono stati individuati dall’analisi gas-cromatografica delle piante di cetriolo e 85 in quelle di patata. Dalle elaborazioni effettuate, rispettivamente 27 e 4 di essi sono prodotti esclusivamente dalle piante attaccate dai fitofagi. In generale, il cambiamento più consistente è dato dalla quantità di alcune sostanze volatili emesse dalle piante infestate rispetto a quelle integre che determina un cambiamento nei rapporti tra le sostanze che compongono i volatiles. E’ probabile che l’effetto attrattivo esercitato sulle formiche sia dato da un Blend di sostanze più che dai singoli composti presenti

Alternatives for reducing insecticides on cotton and corn : economic and environmental impact /

"Grant no. R802518-02."

Insecticide application equipment for the control of insects of public health importance /

Mode of access: Internet.

Enemies of the rose.

"National Rose Society's Handbook on the fungus and insect pests of the rose."

Zeitschrift für angewandte Entomologie : zugleich Organ of the Deutsche Gesellschaft für Angewandte Entomologie.

Mode of access: Internet.

The San Jose scale, Aspidiotus perniciosus and some other destructive scale-insects of the State of New York /

Brief explanation printed on the verso of plates.

Method of destroying grasshoppers /

Issued originally as Entomological series. Circular 3, revised.

Chinch-bug barriers.

Issued originally as Entomological Series. Circular 5.