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Dive into the research topics where Juliet M. Marshall is active.

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Featured researches published by Juliet M. Marshall.


Plant Disease | 2011

Effect of Foliarly Applied Spirotetramat on Reproduction of Heterodera avenae on Wheat Roots

Richard W. Smiley; Juliet M. Marshall; Guiping Yan

The cereal cyst nematode, Heterodera avenae, has the potential to reduce yields of cereal crops in the Pacific Northwest. Spirotetramat (Movento) is a foliar-applied insecticide with ambimobile translocation that reduces fecundity of sucking insects which feed on roots as well as foliage. Spirotetramat (88 g/ha) was applied to foliage during 2010 in two wheat fields infested by H. avenae near St. Anthony, ID and Palouse, WA. In Idaho, two applications at 2-week intervals during late spring to plants already exhibiting swollen white females reduced the postharvest density of H. avenae eggs plus juveniles by 35% (P = 0.03) compared to the nontreated control. In Washington, a single application before white females became apparent reduced the nematode density by 78% (P = 0.01). Grain yields and test weights were not significantly affected by application of spirotetramat at either location. In addition, symptomatic plants from the Idaho field were transplanted into greenhouse pots and treated with spirotetramat. One application (110 g/ha) reduced numbers of eggs plus juveniles/plant by 78% (P = 0.02). Spirotetramat effectively reduced H. avenae populations and warrants further evaluation as a substitute for crop rotations or long fallow periods that reduce nematode population densities in infested fields.


Plant Disease | 2012

Influence of Nematicides and Fungicides on Spring Wheat in Fields Infested with Soilborne Pathogens

Richard W. Smiley; Jennifer A. Gourlie; Karl Rhinhart; Juliet M. Marshall; Monte D. Anderson; Guiping Yan

A complex of fungal soilborne pathogens and plant-parasitic nematodes reduces wheat yields in the Pacific Northwest. On several other crops in nematode-infested soils, seed treatment with abamectin (Avicta) or Bacillus firmus (Votivo) or foliar application of spirotetramat (Movento) reduced root injury and improved yield. These products, along with fungicide seed treatments and aldicarb (Temik), were evaluated in 13 spring wheat trials over 3 years. During 2011, the mean wheat yield at four locations was 419 kg/ha greater (valued at


Molecular Breeding | 2014

Quantitative trait loci of barley malting quality trait components in the Stellar/01Ab8219 mapping population

Emir Islamovic; D. E. Obert; Allen D. Budde; Mark R. Schmitt; Robert Brunick; Andrzej Kilian; Shiaoman Chao; Gerard R. Lazo; Juliet M. Marshall; Eric N. Jellen; Peter J. Maughan; Gongshe Hu; Kathy Esvelt Klos; Ryan H. Brown; Eric W. Jackson

122/ha) from seed treated with fungicides and insecticide than from untreated seed, due to protection against soilborne fungal pathogens. Aldicarb increased the mean grain yield over the fungicide-plus-insecticide treatment by another 798 kg/ha (valued at


PLOS ONE | 2014

Comparative Systems Biology Reveals Allelic Variation Modulating Tocochromanol Profiles in Barley (Hordeum vulgare L.)

Rebekah E. Oliver; Emir Islamovic; D. E. Obert; Mitchell L. Wise; Lauri L. Herrin; An Hang; Stephen A. Harrison; Amir M. H. Ibrahim; Juliet M. Marshall; K Miclaus; Gerard R. Lazo; Gongshe Hu; Eric W. Jackson

254/ha) and also reduced the density of Heterodera avenae but is not registered for use on wheat. Abamectin and B. firmus had negligible effects on grain yield and postharvest density of Pratylenchus spp. and H. avenae. Spirotetramat reduced density of H. avenae but did not improve grain yield. We conclude that management of fungal pathogens by seed protectants remains essential and that management of nematodes can be achieved through crop rotations and genetic resistance.


Plants (Basel, Switzerland) | 2015

A Substantial Fraction of Barley (Hordeum vulgare L.) Low Phytic Acid Mutations Have Little or No Effect on Yield across Diverse Production Environments

Victor Raboy; Kevin L. Peterson; Chad Jackson; Juliet M. Marshall; Gongshe Hu; Hirofumi Saneoka; Phil Bregitzer

Malting barley is of high economic and scientific importance. Determining barley grains that are suitable for malting involves measuring malting quality, which is an expensive and complex process. In order to decrease the cost of phenotyping and accelerate the process of developing superior malting barley cultivars, markers for marker-assisted breeding are needed. In this study, we identified quantitative trait loci (QTLs) for malting traits in a Stellar/01Ab8219 F6:8 recombinant inbred line population grown at Aberdeen and Tetonia, Idaho, USA in 2009 and 2010. We identified QTLs associated with malt extract (ME), wort protein, soluble/total protein (S/T), diastatic power (DP), alpha-amylase, beta-glucan (BG) and free amino nitrogen (FAN) at a logarithm of odds score ≥2.5 using a high-density genetic map produced by merging Diversity Arrays Technology markers with the current single nucleotide polymorphism map. Novel QTLs were identified for DP and FAN on chromosome 5H, S/T on 6H, and BG and ME on 7H. Dissection of the genetic regions associated with malting traits suggests the involvement of multiple molecular pathways. The resulting molecular markers may prove useful for barley improvement.


Plant and Soil | 2017

Variation in cadmium accumulation in spring wheat cultivars: uptake and redistribution to grain

Xi Liang; Daniel G. Strawn; Jianli Chen; Juliet M. Marshall

Tocochromanols are recognized for nutritional content, plant stress response, and seed longevity. Here we present a systems biological approach to characterize and develop predictive assays for genes affecting tocochromanol variation in barley. Major QTL, detected in three regions of a SNP linkage map, affected multiple tocochromanol forms. Candidate genes were identified through barley/rice orthology and sequenced in genotypes with disparate tocochromanol profiles. Gene-specific markers, designed based on observed polymorphism, mapped to the originating QTL, increasing R2 values at the respective loci. Polymorphism within promoter regions corresponded to motifs known to influence gene expression. Quantitative PCR analysis revealed a trend of increased expression in tissues grown at cold temperatures. These results demonstrate utility of a novel method for rapid gene identification and characterization, and provide a resource for efficient development of barley lines with improved tocochromanol profiles.


Arthropod-plant Interactions | 2017

Sugar beet wireworm Limonius californicus damage to wheat and barley: evaluations of plant damage with respect to soil media, seeding depth, and diatomaceous earth application

Arash Rashed; Christopher W. Rogers; Mahnaz Rashidi; Juliet M. Marshall

The potential benefits of the low phytic acid (lpa) seed trait for human and animal nutrition, and for phosphorus management in non-ruminant animal production, are well documented. However, in many cases the lpa trait is associated with impaired seed or plant performance, resulting in reduced yield. This has given rise to the perception that the lpa trait is tightly correlated with reduced yield in diverse crop species. Here we report a powerful test of this correlation. We measured grain yield in lines homozygous for each of six barley (Hordeum vulgare L.) lpa mutations that greatly differ in their seed phytic acid levels. Performance comparisons were between sibling wild-type and mutant lines obtained following backcrossing, and across two years in five Idaho (USA) locations that greatly differ in crop yield potential. We found that one lpa mutation (Hvlpa1-1) had no detectable effect on yield and a second (Hvlpa4-1) resulted in yield losses of only 3.5%, across all locations. When comparing yields in three relatively non-stressful production environments, at least three lpa mutations (Hvlpa1-1, Hvlpa3-1, and Hvlpa4-1) typically had yields similar to or within 5% of the wild-type sibling isoline. Therefore in the case of barley, lpa mutations can be readily identified that when simply incorporated into a cultivar result in adequately performing lines, even with no additional breeding for performance within the lpa line. In conclusion, while some barley lpa mutations do impact field performance, a substantial fraction appears to have little or no effect on yield.


Molecular Breeding | 2013

Genetic dissection of grain beta-glucan and amylose content in barley (Hordeum vulgare L.)

Emir Islamovic; D. E. Obert; Rebekah E. Oliver; Stephen A. Harrison; Amir M. H. Ibrahim; Juliet M. Marshall; K Miclaus; Gongshe Hu; Eric W. Jackson

Background and aimsDue to the risks of cadmium (Cd) toxicity in the human diet, there is need to develop low-Cd wheat, since wheat is one of the most consumed food worldwide. The objective of this study was to investigate variations in Cd accumulation in grain among spring wheat (Triticum aestivum L.) cultivars, and the relationships between root morphology and Cd accumulations in grain and shoot biomass, to better understand Cd accumulation mechanisms in grain.MethodsGrain yield, shoot biomass, Cd concentration and content, and root characteristics were measured in multiple spring wheat cultivars in a greenhouse experiment with and without Cd amendments, and in a field experiment conducted in un-contaminated soils at two locations in southeastern Idaho, USA.ResultsCultivars ‘LCS Star’ and ‘UI Pettit’ had greater root morphological parameters (e.g., root length, surface area, and volume), and concentrations and contents of Cd in grain than ‘UI Platinum’ and ‘UI Stone’. Cadmium concentration and content in grain were positively correlated with those in shoot biomass, and root morphological parameters (e.g., length, surface area, and volume).ConclusionsDifferences in root morphological characteristics between spring wheat cultivars is an important factor that contributes to Cd accumulation in grain.


Field Crops Research | 2013

A new genetic linkage map of barley (Hordeum vulgare L.) facilitates genetic dissection of height and spike length and angle

Emir Islamovic; D. E. Obert; Rebekah E. Oliver; Juliet M. Marshall; K Miclaus; An Hang; Shiaoman Chao; Gerard R. Lazo; Stephen A. Harrison; Amir M. H. Ibrahim; Eric N. Jellen; Peter J. Maughan; Ryan H. Brown; Eric W. Jackson

Wireworms, the larval stage of click beetles (Coleoptera: Elateridae), continue to be one of the major concerns of cereal producers, primarily due to the lack of effective pesticides and species-specific management options. To have a better understanding of species-specific interactions of one of the most damaging wireworms in the Pacific Northwest and intermountain regions of the USA, a greenhouse study was set to evaluate the damage from the sugar beet wireworm Limonius californicus to wheat and barley planted at different depths and in soil media with varying levels of organic content and texture. Overall, the evaluated wheat appeared to be more susceptible than the barley, showing greater reductions in emergence success and foliar biomass. The greatest loss of foliar biomass was observed in peatmoss-dominated medium, as indicated by a significant host plant-by-soil media interaction. Percentage of plants fed upon by L. californicus was significantly higher in the sand-dominated medium than peatmoss-dominated and 1:1 mix media. Moreover, manipulation of soil media by the addition of diatomaceous earth showed no consistent effect in protecting the planted wheat. Our findings indicated that in addition to quantifying wireworm species-specific interactions, host plant interactions with the environment in the presence of wireworm infestation should also be further studied. These relationships could influence the outcome of integrated management approaches and future risk assessment models and recovery plans.


American Journal of Potato Research | 2013

Potato cultivar response to seasonal drought patterns

J. C. Stark; Stephen L. Love; Bradley A. King; Juliet M. Marshall; William H. Bohl; Thomas Salaiz

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Gongshe Hu

Agricultural Research Service

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D. E. Obert

Agricultural Research Service

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C. P. Evans

Agricultural Research Service

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K. Satterfield

Agricultural Research Service

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An Hang

Agricultural Research Service

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Emir Islamovic

Agricultural Research Service

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