Evaluation and mechanisms of host-plant resistance to the wireworm-Diabrotica-Systena complex in sweetpotatoes (Ipomoea batatas) and a commercial kairomone lure in Diabroticites

Douglas, Thomas J.

06 August 2021

An evaluation of host-plant resistance to the wireworm-Diabrotica-Systena (WDS) complex of root-feeding insects in sweetpotatoes was performed on a total of 15 cultivars and advanced lines over the course of 4 years (2017-2020). It was found that sweetpotatoes varieties can differ significantly in amount of damage incurred. Several mechanisms of resistance were proposed and tested: periderm toughness, dry weight percentage, and volatile organic chemical defenses. No significant difference was found amongst the varieties tested concerning the physical properties. Chemical analysis was limited in scope but did show some differences between a susceptible variety when compared to a resistant variety in the volatile chemical composition of the foliage. Finally, a commercial kairomone lure with sticky card for Diabroticites was tested for efficacy when compared to sweep net sampling throughout the season. No correlation could be found amongst the methods in terms of number and species of insects caught by each.

Sweetpotatoes

Diabrotica

WDS

host-plant resistance

wireworm

Screening upland cotton for resistance to cotton fleahopper (Heteroptera: Miridae)

Mekala, Diwakar Karthik

15 November 2004

Cotton (Gossypium hirsutum L.) crop maturity is delayed by cotton fleahopper (Pseudatomoscelis seriatus Reuter) (fleahopper) feeding on early-season fruit forms which increases vulnerability to late-season pests such as Helicoverpa zea (Boddie) and Heliothis virescens (Fabricius). The objectives of this research were to evaluate methods of screening for resistance to fleahopper and to screen selected genotypes. Six fleahoppers were caged on plants in the insectary for 72 h. Numbers of live fleahoppers and percent square damage were determined 48 h following the removal of fleahoppers. Fleahopper numbers and percent square set were determined on randomly selected plants of 16 genotypes when grown under field conditions in 2002 and 2003. Across multiple sampling dates, the number of fleahoppers per plant was higher (p=0.05) in G. arboreum and Pilose (G. hirsutum), but no consistent differences were observed among the remaining 15 genotypes which represented several germplasm pools across the United States. Field and no-choice feeding tests suggested that Pilose, Lankart 142, Suregrow 747, and Stoneville 474 were more resistant hairy-leaf genotypes and not different (p=0.05) in resistance than the smooth-leaf genotypes, Deltapine 50 and TAM 96WD-69s. Pin-head, match-head, and one-third grown squares were removed from plants and placed on agar in petri-plates. Four fleahoppers were released per plate and allowed to feed for 48 h. Fleahopper damage, brown areas along the anthers and/or brown and shrunken pollen sacs was most evident in pin-head sized squares.

Cotton fleahopper

host plant resistance

cotton

Gossypium hirsutum.

Screening upland cotton for resistance to cotton fleahopper (Heteroptera: Miridae)

Mekala, Diwakar Karthik

15 November 2004

Cotton (Gossypium hirsutum L.) crop maturity is delayed by cotton fleahopper (Pseudatomoscelis seriatus Reuter) (fleahopper) feeding on early-season fruit forms which increases vulnerability to late-season pests such as Helicoverpa zea (Boddie) and Heliothis virescens (Fabricius). The objectives of this research were to evaluate methods of screening for resistance to fleahopper and to screen selected genotypes. Six fleahoppers were caged on plants in the insectary for 72 h. Numbers of live fleahoppers and percent square damage were determined 48 h following the removal of fleahoppers. Fleahopper numbers and percent square set were determined on randomly selected plants of 16 genotypes when grown under field conditions in 2002 and 2003. Across multiple sampling dates, the number of fleahoppers per plant was higher (p=0.05) in G. arboreum and Pilose (G. hirsutum), but no consistent differences were observed among the remaining 15 genotypes which represented several germplasm pools across the United States. Field and no-choice feeding tests suggested that Pilose, Lankart 142, Suregrow 747, and Stoneville 474 were more resistant hairy-leaf genotypes and not different (p=0.05) in resistance than the smooth-leaf genotypes, Deltapine 50 and TAM 96WD-69s. Pin-head, match-head, and one-third grown squares were removed from plants and placed on agar in petri-plates. Four fleahoppers were released per plate and allowed to feed for 48 h. Fleahopper damage, brown areas along the anthers and/or brown and shrunken pollen sacs was most evident in pin-head sized squares.

Cotton fleahopper

host plant resistance

cotton

Gossypium hirsutum.

Host plant resistance to Whiteflies, Bemisia tabaci (Gennadius), Biotype B, (Homoptera: Aleyrodidae) in cotton race stocks for breeding improved cotton cultivars

Ripple, Brandon Wayne

30 September 2004

Whiteflies (Bemisia tabaci, Biotype B, Homoptera: Aleyrodidae) are pests of cotton crops, affecting the yield of the crop both indirectly and directly. These pests feed on the leaves of cotton plants and produce "honeydew," a sticky liquid excretion which covers the lint of the open cotton boll creating problems during the processing of the lint. High densities of these pests also can decrease the productivity of the cotton plant by stripping it of vital nutrients. The primary objective of this research was to screen 116 converted cotton race stocks for resistance to sweetpotato whiteflies. Responses of converted race stocks to whiteflies are compared to that of known susceptible commercial cultivars PSC 355 and Delta Pearl. Screens for antibiosis resistance to whitefly were established using excised leaves placed in a nutrient solution (¼ strength Hoagland's). Cohort populations of whiteflies were established on these leaves and followed daily to determine differences in developmental time as well as percent survival. Resistant candidates were determined using a chi-squared test comparing the ranked sums of leaf averages for the two selection criteria, whitefly developmental time and percent whitefly survival, of each cotton race stock to that of the putative known susceptibles (KS). These tests showed 6 converted race stocks to be significantly different (P ≤ 0.1) from the KS for at least one of the two selection criteria. Of these converted race stocks, M-9044-0154 and M-9044-0156 showed to have lower whitefly survival than the KS, while M-9644-0188, M-9644-0195, M-0044-0221, and M-9644-0242 showed whitefly to have an increased developmental time. Retesting of these six converted race stocks along with several others identified another race stock line, M-0044-0171, which was significantly different from the KS. Retesting also indicated that M-9644-0188 was different for survival in addition to developmental time which was determined in the original screening. Additional tests were conducted in the greenhouse and field to examine these race stock lines. Greenhouse screenings indicated that M-9044-0156 and M-9644-0188 contained possible non-preference resistance characteristics. Field screenings conducted in Weslaco and College Station, TX in 2002 and 2003 failed to provide useful data due to low densities of insects.

Host Plant Resistance

Whitefly

Bemisia

Converted Race Stocks

Cotton

Effects of combining Renlon with Renbarb1 and Renbarb2 genes on resistance of cotton (Gossypium hirsutum) to reniform nematode (Rotylenchulus reniformis)

Gaudin, Amanda

08 December 2017

Two sources of reniform nematode (Rotylenchulus reniformis) resistance in two Upland cotton (Gossypium hirsutum) developed from related cotton species, BARBREN-713 (Renbarb1 and Renbarb2 genes), and the LONREN germplasm lines (Renlon gene) are available to breeders. Stunting was observed in the LONREN source of resistance, but not for BARBREN. To investigate future use of LONREN germplasm, lines were developed with different combinations of genes from both the LONREN and BARBREN-713 germplasm lines. Marker assisted selection (MAS) was conducted identify these gene combinations within breeding population 1) Renbarb1 +Renbabr2 2) Renbarb1 + Renbar2 + Renlon 3) Renbarb2 + Renlon 4) Renbarb2 5) Renbarb1 6) Renbarb1+Renlon 7) Renlon, and 8) a susceptible genotype. Two populations were identified and increased in 2015. Genotypes were inoculated with 0, 2300, or 5000 reniform nematodes. Seedlings were harvested at 90 days to collect plant measurements and RF of reniform nematodes from roots and soil. The Renbarb1 genotype was susceptible. No significant differences in genotypes were observed for root and shoot measurements, and there was no indication of stunting.

host plant resistance

reproduction factor

lonren

RF

barbren

Strawberry Powdery Mildew Caused by Podosphaera aphanis: Fungicide Resistance and Host Plant Resistance

Palmer, Michael G

01 December 2020

Strawberry powdery mildew, caused by Podosphaera aphanis, affects leaves, fruit, and runners of strawberry plants. Infected leaves have reduced photosynthetic capability and infected fruit become unmarketable. Both of these factors translate to economic loss for the grower and therefore merit taking measures to control the disease. One objective of this study was to evaluate the resistance developed in populations of strawberry powdery mildew to chemical control measures. A fungicide assay was developed to evaluate the efficacy of six treatments (penthiopyrad, quinoxyfen, myclobutanil, trifloxystrobin, cyflufenamid, fluopyram + trifloxystrobin) for control of the disease. Nineteen isolates of strawberry powdery mildew were collected from Balico, Salinas, Watsonville, San Luis Obispo, Santa Maria, Ventura, and Oxnard CA and tested through the assay. The number of isolates resistant to each treatment was: penthiopyrad (7), quinoxyfen (6), myclobutanil (7), trifloxystrobin (2), cyflufenamid (1), fluopyram + trifloxystrobin (0). This documents resistance in P. aphanis to multiple chemicals used for its control. Documentation of any resistance is novel in California and novel worldwide with resistance to Fungicide Resistance Action Committee (FRAC) codes 7 and 13. Another objective of this study was to evaluate host plant resistance to strawberry powdery mildew. Twelve cultivars were evaluated in a winter greenhouse trial, sixteen cultivars in a summer greenhouse trial, and the ten cultivars shared in both trials were also evaluated in two fields. The cultivars found to be most susceptible to mildew infection were BG 3.324 and Royal Royce. The cultivars found to be the least susceptible to mildew infection were Fronteras, San Andreas, and Sweet Ann. The cultivars evaluated represent more than 55% of the state’s acreage and the host plant resistance information will be a valuable tool to growers looking to culturally control powdery mildew.

Strawberry

Powdery Mildew

Fungicide Resistance

Host Plant Resistance

Plant Pathology

Effect of previous feeding on antibiosis levels of soybeans

Viswanathan, Poornima

January 1900

Master of Science / Department of Entomology / John C. Reese / The soybean aphid, Aphis glycines is documented to have arrived in North America in mid 2000 and has ever since established itself as a formidable pest of soybeans, with the capacity to cause immense crop losses. This formidable pest with its complex life cycle and habits represents a current threat to soybean production. Host plant resistance is a promising avenue that can offer considerable control over the soybean aphid problem. Antibiosis being the most effective host plant resistance category, this study was aimed at attempting to understand the effects of induction on the antibiosis levels of soybeans. In the first set of experiments, different soybean genotypes and two soybean aphid biotypes were tested to comprehend if and how the genotypes and biotypes affected the survival and reproduction of the aphid. The experiments revealed mixed results that can be attributed to the genotypes tested and the biotypes used. While some genotypes showed no significant changes due to previous infestation, K1621 suggested signs of induced resistance to biotype 1 and PI567301B showed induced resistance to biotype 2, while K1639 pointed towards induced susceptibility to biotype 2. A follow up feeding behavior study with Electrical Penetration Graph (EPG) technique was carried out on PI567301B to elucidate if the induced resistance was tissue-specific, which could affect the feeding behavior of the aphid (biotype 2); but the results showed no appreciable differences in the feeding behavior of the aphids on clean vs. infested plants. Induced response studies shed light on how plants respond to herbivory and help us identify how changes in plant physiology affect the various herbivores that visit it for food and shelter. This knowledge can thus be applied to the development of superior varieties of crops that can defend themselves better against recurring infestations.

Soybean aphid

Induced resistance

Host plant resistance

Biology (0306)

Entomology (0353)

The indirect and direct effects of temperature and host plant resistance on population growth of soybean aphid (Aphis glycines) biotype 1

Hough, Ashley Rose

January 1900

Master of Science / Department of Entomology / James R. Nechols / Temperature has an important indirect impact on pest populations. Direct effects occur, but also may result from temperature-induced changes in plant quality, including the expression of host plant resistance traits. Therefore, I examined both indirect and direct effects of temperature on biotype 1 soybean aphids (SBA), Aphis glycines, on a Rag1-resistant soybean variety and compared the effects with a susceptible variety to gain a better understanding of how temperature impacts SBA. Four aphid responses were evaluated: preimaginal development, survival to adulthood, number of progeny produced, and adult longevity. In the first experiment, I grew soybean seedlings to the V-0 stage at 25°C and then conditioned them for 0, 3 or 5 days at 20° or 30°C before infesting with a single first instar SBA at each of the two experimental temperatures. Based on previous literature for SBA, I hypothesized that conditioning plants at the lower temperature would cause resistance to break down and that longer exposure would exacerbate the effect. Results showed that conditioning soybeans to 20°C significantly reduced SBA survival, and the effect on survival increased with longer conditioning. Conditioning plants to 30°C had no significant effect on SBA survival. However, estimated population growth decreased as conditioning time increased at 30°C and this effect was also observed at 20°C. Thus, plant resistance may have increased at both temperatures. The second experiment compared SBA responses, including population growth, at four temperatures (15, 20, 25, and 30⁰C) on a Rag1-resistant and susceptible soybean variety. I predicted that SBA fitness would be lower at all temperatures on resistant soybeans, but the magnitude of differences between cultivars would not be uniform across temperatures. Results indicated that both temperature (highest and lowest) and plant resistance detrimentally affected SBA fitness. There was also a significant interaction between the two variables with respect to SBA survival. Survival was lower and development rates were slower on the resistant cultivar. SBA required more degree-days to develop on resistant soybeans compared to the susceptible cultivar. This information will aid soybean producers in implementing a cost-efficient IPM strategy involving Rag1 resistant soybeans to combat SBA under a range of temperatures.

Aphis glycines

soybean aphid

host plant resistance

Rag1

temperature effect

soybean

Efeitos do tempo e da temperatura de armazenamento de grãos de feijoeiro Phaseolus vulgaris L. na manifestação da resistência ao caruncho Acanthoscelides obtectus (Say, 1831)(Coleoptera: Bruchidae). / Effects of the time and temperature of storage bean grains Phaseolus vulgaris L. on the expression of the resistance to the bean weevil Acanthoscelides obtectus (Say, 1831) (Coleoptera: Bruchidae).

Baldin, Edson Luiz Lopes

01 November 2001

Visando avaliar os efeitos do tempo e da temperatura de armazenamento de grãos de feijoeiro, Phaseolus vulgaris L., sobre a manifestação da resistência ao caruncho Acanthoscelides obtectus (Say, 1831), realizaram-se ensaios com e sem chance de escolha sob condições de laboratório. Em casa-de-vegetação avaliou-se a preferência para oviposição e os danos causados pelo caruncho em vagens e grãos. Os genótipos utilizados nos ensaios foram Arc.1S, Arc.3S, Arc.5S, Carioca Pitoco, Ipa 6, Porrillo 70, Onix, Arc.1, Arc.2, Arc.3 e Arc.4. Em teste com chance de escolha utilizando-se grãos de diferentes idades, observou-se que os genótipos selvagens Arc.1S e Arc.5S expressaram antibiose e/ou não-preferência para alimentação como mecanismos de resistência a A. obtectus; os genótipos Arc.1 e Arc.2 apresentaram somente antibiose; já Arc.3S expressou não-preferência para oviposição e baixos níveis de antibiose. Em teste sem chance de escolha, os genótipos Arc.1S, Arc.3S, Arc.5S, Arc.1 e Arc.2 expressaram antibiose. Em teste onde avaliou-se a influência do tamanho de grãos na manifestação da resistência, os genótipos selvagens Arc.1S, Arc.3S e Arc.5S expressaram antibiose e/ou não-preferência para alimentação; Arc.1 e Arc.2 expressaram antibiose. No estudo com grãos armazenados sob diferentes temperaturas observou-se antibiose em grãos de Arc.1S e Arc.2, independentemente da temperatura em que estiveram confinados; já com Arc.1, notou-se que os efeitos antibióticos de seus grãos foram reduzidos à medida que a temperatura de armazenamento se elevou. Constatou-se também que 25°C não é a melhor temperatura para discriminar genótipos em estudos de resistência, comparativamente à 20°C e 30°C. Em casa-de-vegetação observou-se que as vagens e grãos do genótipo Arc.4 foram mais preferidos para oviposição e alimentação por A. obtectus em relação aos demais materiais; por sua vez Arc.1, Arc.5S, Ipa 6, Arc.3S e Porrillo 70 revelaram-se menos preferidos para oviposição e alimentação pelo caruncho. / Aiming to evaluate the effects of the time and temperatures of storage bean grains Phaseolus vulgaris L. on the expression of the resistance to the bean weevil Acanthoscelides obtectus (Say, 1831), free and no choice tests were accomplished under laboratory conditions. The preference for oviposition and damages caused by the weevil in pods and grains were evaluated under greenhouse conditions. The genotypes used in the assays were Arc.1S, Arc.3S, Arc.5S, Carioca Pitoco, Ipa 6, Porrillo 70, Onix, Arc.1, Arc.2, Arc.3 and Arc.4. In free choice test using grains of different ages, the wild genotypes Arc.1S and Arc.5S expressed antibiosis and/or no-preference for feeding as resistance mechanisms to A. obtectus; the genotypes Arc.1 and Arc.2 presented only antibiosis; Arc.3S expressed no-preference for oviposition and low antibiosis levels. In no-choice test, the genotypes Arc.1S, Arc.3S, Arc.5S, Arc.1 and Arc.2 expressed antibiosis. In test where the influence of the size of grains was evaluated in the expression of resistance, the wild genotypes Arc.1S, Arc.3S and Arc.5S expressed antibiosis and/or no-preference for feeding; Arc.1 and Arc.2 expressed antibiosis. In the study with grains stored under different temperatures, antibiosis was observed in grains of Arc.1S and Arc.2, independently of the confinement temperature; in Arc.1, it was observed that the antibiotic effects of its grains were reduced as the storage temperature increased. It was also verified that 25°C was not the best temperature to discriminate genotypes in studies of resistance, comparatively to 20°C and 30°C. In greenhouse the pods and grains of Arc.4 were the most preferred for oviposition and feeding by A. obtectus, comparing to the other materials; Arc.1, Arc.5S, Ipa 6, Arc.3S and Porrillo 70 were the least preferred for oviposition and feeding by the bean weevil.

Acanthoscelides obtectus

bruchidae

grãos armazenados

host plant resistance

resistência de plantas a insetos

storage grains

Cabbage and turnip root flies on resistant and susceptible Brassicas : host selection and chemical interactions

Hopkins, Richard James

January 1994

During post-alighting behaviour gravid female turnip root fly, D.jloralis, select a plant for oviposition predominantly during the initial landing phase; the cabbage root fly, D.radicum, also utilise the leaf resting phase. The post-alighting behaviour exhibited by D.radicum and D.floralis infers that oviposition site selection is primarily based upon positive stimuli present on the leaf surface. Ranking of four genotypes of plants for antixenotic resistance to oviposition by D.radicum and D.jloralis was found to be the same for both fly species, tested in the laboratory (swede cv Doon Major, most susceptible; kale cv Fribor, most resistant) and varied x80 (D.floralis) and x5 (D.radicum). Field experiments showed that oviposition (which was dominated by D.radicum) varied x2 between plant genotypes (swede cv Doon Major, most susceptible; swede cv GRL aga, most resistant). Testing of Brassica leaf surface extracts, applied to surrogate plants, indicated that leaf surface chemicals strongly influence the site of oviposition of D.floralis. Methanol soluble polar compounds are the most stimulatory element for D.floralis and a fraction which contained aliphatic glucosinolates stimulated oviposition strongly although glucosinolates were not the primary oviposition stimulant. Collaborative experiments indicate that "CIF" (cabbage identification factor) is probably present in this fraction. The concentrations of Brassica root sugars are generally reduced by the damage of both D.radicum and D.floralis and appear to influence larval development. The percentages of plant fibre and lignin in the roots of Brassicas rise following the damage of D.floralis. The concentrations of individual glucosinolates in Brassica roots arc radically altered by the damage of D.floralis and D.radicum. D.floralis damage resulted in a rise in the concentration of aromatic glucosinolates and a fall in the concentration of aliphatic glucosinolates. D.radicum damage generally resulted in an elevated concentration of both aliphatic and aromatic glucosinolates. There was no clear evidence that glucosinolatc profiles were associated with different levels of antibiotic resistance to D.radicum and D.floralis. GRL aga (SCRI breeding line) was consistently resistant to the oviposition and larval feeding of D.radicum and D.floralis both in the laboratory and in the field. It was shown that the use of end-of-season chemical analysis to assess the influence of plant chemistry on insect development or host plant resistance in field experiments and the use of damage indexes based on the percentage of a plant root damaged by D.radicum may be flawed.

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