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322 results on '"Murphy, Kevin M."'

309. Have We Lost The War On Drugs?

Author

Becker, Gary S. and Murphy, Kevin M.

Subjects
*DRUG control, *DRUG traffic, *POLICE, *DRUG legalization, *IMPRISONMENT, *SCHOOL dropouts, *FINANCE
Abstract

The article examines the financial and social aspects of U.S. drug control. It covers the direct monetary cost to taxpayers in order to finance police forces, court personnel, and the imprisonment of convicted drug offenders. Information is also provided on high U.S. dropout and incarceration rates, as well as how stricter U.S. drug laws increase prices for illegal drugs and thus provide more financial incentives for individuals to traffic drugs. The decriminalization of drugs is also covered.

Published
2013

310. Strategic malting barley improvement for craft brewers through consumer sensory evaluation of malt and beer.

Author

Craine, Evan B., Bramwell, Stephen, Ross, Carolyn F., Fisk, Scott, and Murphy, Kevin M.

Subjects
*BEER flavor & odor, *BARLEY breeding, *GENOTYPES, *CRAFT beer, *MICROBREWERIES
Abstract

American craft brewers are targeting barley malt as a novel source of flavor and as a means of differentiation. However, fundamental tools have only recently emerged to aid barley breeders in supporting this effort, such as the hot steep malt sensory method, a wort preparation method recently approved by the American Society of Brewing Chemists for evaluation of extractable malt flavor. The primary objective of this study was to determine if insights into beer liking and sensory attributes can be gained through hot steep malt sensory using an untrained panel of craft beer consumers (n = 95). We evaluated consumer acceptance of hot steep and beer samples of different barley genotypes using a 9‐point hedonic scale, check‐all‐that‐apply (CATA), and open comment during separate sensory panels. Beers brewed with Washington State University breeding lines (n = 4), selected for all‐malt craft brewing, generally had higher consumer acceptance than the industry‐standard control variety (CDC Copeland). Genotype had a significant influence on the consumer acceptance of beer aroma, appearance, taste/flavor, sweetness, and overall liking but only on hot steep appearance. Significant differences between genotypes were found for 18% (fruity and other) and 46% (chemical, citrus, earthy, fruity, stale, and sweet aromatic) of CATA attributes for the hot steep and beer panels, respectively. Hot steep and beer liking and sensory attributes had low correlation coefficients. For example, beer overall liking was negatively correlated with chemical (r = −0.338, p < 0.0001) and positively correlated with fruity (r = 0.265, p < 0.0001). This study demonstrates that untrained craft beer consumers can better differentiate among genotypes using beers than hot steep samples. Practical Application: In general, Washington State University barley breeding lines had higher consumer acceptance than the control variety, CDC Copeland. Each genotype had a distinctive beer flavor profile, such as 12WA_120.14 (fruity and sweet aromatic), which had the highest consumer acceptance ratings, and 10WA_107.43 (citrus), which has been released as the variety "Palmer." The results illustrate that the use of different barley genotypes presents varied sensory properties in the final beer and that particular malt and beer sensory attributes may influence consumer acceptance. [ABSTRACT FROM AUTHOR]

Published
2021
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312. The effects of sequential heat treatment on microbial reduction and spore inactivation during milk processing.

Author

Li, Fang, Hunt, Karen, Buggy, Aoife K., Murphy, Kevin M., Ho, Quang Tri, O'Callaghan, Tom F., Butler, Francis, Jordan, Kieran, and Tobin, John T.

Subjects
*DAIRY processing, *HEAT treatment, *FOOD pasteurization, *HEAT treatment of milk, *BACILLUS licheniformis, *DAIRY industry, *DAIRY products, *APPLE juice
Abstract

Sequential heating processes are commonly applied to milk by the dairy industry as part of their microbiological control strategy. Often pasteurisation at 72 °C is followed by a sequential high heat treatment step of up to 125 °C; however, such severe heat treatment can lead to reduced protein quality. Nine temperature combinations (80–90 °C) were evaluated to assess microbial reduction and whey protein nitrogen index values during pilot scale milk processing. A total of 110 bacterial isolates were identified to species level by 16S rDNA sequencing, with Bacillus licheniformis identified as the dominant species. While the experimental treatments did not achieve microbial reductions comparable with the control heating process, the results of this study provide a benchmark for milk processors relative to the effects of sequential heat treatments on milk and their impact on the survival of both thermally resistant microbial populations and thermally labile milk components during processing. [ABSTRACT FROM AUTHOR]

Published
2020
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313. Agronomic and economic performance of organic forage, quinoa, and grain crop rotations in the Palouse region of the Pacific Northwest, USA.

Author

Wieme, Rachel A., Carpenter-Boggs, Lynne A., Crowder, David W., Murphy, Kevin M., and Reganold, John P.

Subjects
*ARID regions agriculture, *CROP rotation, *QUINOA, *ORGANIC farming, *CROPPING systems, *CROP quality, *ALFALFA, *GRAIN
Abstract

• Tested 8 grain crop sequences for dryland organic agriculture, some with quinoa. • Crop sequence affected agronomic outcomes but weather caused greater differences. • Economic returns from organic quinoa were moderate despite low yields. • Using alfalfa in organic grain cropping systems can increase profits & reduce risk. • Organic cropping systems financially outperformed a typical conventional system. Volatile crop prices and a desire for sustainability have farmers considering alternative practices to increase revenue diversity and protect soil health. Organic management is rapidly expanding as an alternative to conventional agriculture, and quinoa (Chenopodium quinoa Willd.) is a potential new crop for organic systems in the Pacific Northwest. Here we tested the agronomic and economic effects of diversifying dryland crop rotations with organic quinoa in the Palouse region of the Pacific Northwest. Eight 3-year grain cropping sequences were compared based on metrics of crop productivity, crop quality, and economic performance. While the crop sequences affected these metrics, crop yields and quality were mediated primarily by weather across growing seasons. Cumulative yields were higher for crop sequences that started with chickpea compared to barley. Organic quinoa yields were lower than the yield potential for the region, but some 3-year sequences with quinoa produced similar net returns to some sequences with wheat. Mean returns over variable costs were $324 ha−1 yr−1 for the 3-year sequence treatments; each treatment averaged positive net returns to variable costs despite some individual years having negative returns. The highest net returns to variable costs were in sequences that grew wheat and those that started with chickpea. Returns over total costs for the 3-year sequence treatments averaged -$33 ha−1 yr−1. The organic cropping systems (the total 8-year crop rotations including 5 years of organic alfalfa) produced higher returns over variable and total costs ($615 ha−1 yr−1 and $168 ha−1 yr−1, respectively) than a typical conventional rotation with county average yields during the same 8-year period ($477 ha−1 yr−1 and $82 ha−1 yr−1). Our results show that premiums for organic alfalfa and grains make these organic cropping systems economically viable for dryland production in the Pacific Northwest. Advances in organic weed control and regionally adapted quinoa varieties would further reduce the risk for farmers attempting this cropping system diversification. [ABSTRACT FROM AUTHOR]

Published
2020
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316. Mineral, seed morphology, and agronomic characteristics of proso millet grown in the inland Pacific Northwest.

Author

Reinman T, Braden J, Miller ND, and Murphy KM

Abstract

Climate change increases stressors that will challenge the resiliency of global agricultural production. Just three crops, wheat, maize, and rice, are estimated to sustain 50% of the caloric demand of the world population, meaning that significant loss of any of these crops would threaten global food security. However, increasing cropping system diversity can create a more resilient food system. One crop that could add diversity to wheat-dominated cropping systems in the inland Pacific Northwest is proso millet, a climate-resilient, small-seeded cereal crop that is highly water efficient, able to grow in low fertility soils, and has a desirable nutritional profile. Proso millet shows potential for adoption in this region due to its short growing season, compatibility with regional equipment, and environmental requirements, however US cultivars have been developed for the Great Plains and little research has been conducted outside of this region. To better understand the potential for adoption in the inland PNW, seven commercially available varieties were planted in a researcher-run trial in Pullman, WA and in a series of producer-run trials across the region in 2022. Samples were analyzed for mineral concentration (Zn, Fe, Cu, Mn, Mg, Ca, P, and K), seed morphology phenotypes (seed area, seed eccentricity, thousand seed weight, and seed color), and agronomic phenotypes (grain yield, plant height, days to heading, days to maturity, and percent emergence). Varieties from the researcher-run trial showed significant differences for all traits excluding percent emergence. Samples from producer-run trials showed differences by location for concentration of all minerals and for all seed morphology traits but were not analyzed for agronomic phenotypes. Samples from producer-run trials showed no difference by variety for mineral concentration but showed varietal differences for all seed morphology phenotypes. Most minerals were positively correlated with one another (0.28 <  r  < 0.92). Grain yield was negatively correlated with Zn ( r  = -0.55, p  < 0.01) and was positively correlated with plant height ( r  = 0.62, p  < 0.001), seed area ( r  = 0.45, p  < 0.05), and thousand seed weight ( r  = 0.45, p  < 0.05). Results from this study can inform variety selection for stakeholders interested in adopting proso millet in the inland PNW and can support future proso millet breeding efforts, particularly in this region., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Reinman, Braden, Miller and Murphy.)

Published
2024
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317. Preharvest Sprouting in Quinoa: A New Screening Method Adapted to Panicles and GWAS Components.

Author

Ocaña-Gallegos C, Liang M, McGinty E, Zhang Z, Murphy KM, and Hauvermale AL

Abstract

The introduction of quinoa into new growing regions and environments is of interest to farmers, consumers, and stakeholders around the world. Many plant breeding programs have already started to adapt quinoa to the environmental and agronomic conditions of their local fields. Formal quinoa breeding efforts in Washington State started in 2010, led by Professor Kevin Murphy out of Washington State University. Preharvest sprouting appeared as the primary obstacle to increased production in the coastal regions of the Pacific Northwest. Preharvest sprouting (PHS) is the undesirable sprouting of seeds that occurs before harvest, is triggered by rain or humid conditions, and is responsible for yield losses and lower nutrition in cereal grains. PHS has been extensively studied in wheat, barley, and rice, but there are limited reports for quinoa, partly because it has only recently emerged as a problem. This study aimed to better understand PHS in quinoa by adapting a PHS screening method commonly used in cereals. This involved carrying out panicle-wetting tests and developing a scoring scale specific for panicles to quantify sprouting. Assessment of the trait was performed in a diversity panel ( N = 336), and the resulting phenotypes were used to create PHS tolerance rankings and undertake a GWAS analysis ( n = 279). Our findings indicate that PHS occurred at varying degrees across a subset of the quinoa germplasm tested and that it is possible to access PHS tolerance from natural sources. Ultimately, these genotypes can be used as parental lines in future breeding programs aiming to incorporate tolerance to PHS.

Published
2024
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318. Evaluating relationships between seed morphological traits and seed dormancy in Chenopodium quinoa Willd.

Author

McGinty EM, Craine EB, Miller ND, Ocana-Gallegos C, Spalding EP, Murphy KM, and Hauvermale AL

Abstract

Introduction: Quinoa is a high-value, nutritious crop that performs well in variable environments, marginal soils, and in diverse crop rotations. Quinoa's many attributes make it an ideal crop for supporting human health in global communities and economies. To date, quinoa research has largely focused on traits in adult plants important for enhancing plant phenotypic plasticity, abiotic stress, disease resistance, and yield. Fewer studies have evaluated quinoa seed dormancy and suggest that most modern quinoa varieties have weak or no seed dormancy, and a narrow window of seed viability post-harvest. In other crops, diminished seed dormancy is a major risk factor for preharvest sprouting (PHS; germination on the panicle due to rain prior to harvest) and may also pose a similar risk for quinoa., Methods: This study (1) developed a dormancy screening assay to characterize seed dormancy strength in a large collection of quinoa varieties, (2) investigated if morphological variables including seed coat color, seed coat thickness, seed shape including eccentricity which evaluates the roundness or flatness of a seed, and other agronomic traits like crude protein content and seed moisture, contribute to quinoa seed dormancy, and (3) evaluated the use of a phenetic modeling approach to explore relationships between seed morphology and seed dormancy., Results: Dormancy screening indicated seed dormancy ranges in quinoa varieties from none to strong dormancy. Further, phenetic modeling approaches indicate that seed coat thickness and eccentricity are important morphological variables that impact quinoa seed dormancy strength., Conclusions: While dormancy screening and phenetic modeling approaches do not provide a direct solution to preventing PHS in quinoa, they do provide new tools for identifying dormant varieties as well as morphological variables contributing to seed dormancy., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 McGinty, Craine, Miller, Ocana-Gallegos, Spalding, Murphy and Hauvermale.)

Published
2023
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319. A comprehensive characterization of agronomic and end-use quality phenotypes across a quinoa world core collection.

Author

Craine EB, Davies A, Packer D, Miller ND, Schmöckel SM, Spalding EP, Tester M, and Murphy KM

Abstract

Quinoa ( Chenopodium quinoa Willd.), a pseudocereal with high protein quality originating from the Andean region of South America, has broad genetic variation and adaptability to diverse agroecological conditions, contributing to the potential to serve as a global keystone protein crop in a changing climate. However, the germplasm resources currently available to facilitate quinoa expansion worldwide are restricted to a small portion of quinoa's total genetic diversity, in part because of day-length sensitivity and issues related to seed sovereignty. This study aimed to characterize phenotypic relationships and variation within a quinoa world core collection. The 360 accessions were planted in a randomized complete block design with four replicates in each of two greenhouses in Pullman, WA during the summer of 2018. Phenological stages, plant height, and inflorescence characteristics were recorded. Seed yield, composition, thousand seed weight, nutritional composition, shape, size, and color were measured using a high-throughput phenotyping pipeline. Considerable variation existed among the germplasm. Crude protein content ranged from 11.24% to 17.81% (fixed at 14% moisture). We found that protein content was negatively correlated with yield and positively correlated with total amino acid content and days to harvest. Mean essential amino acids values met adult daily requirements but not leucine and lysine infant requirements. Yield was positively correlated with thousand seed weight and seed area, and negatively correlated with ash content and days to harvest. The accessions clustered into four groups, with one-group representing useful accessions for long-day breeding programs. The results of this study establish a practical resource for plant breeders to leverage as they strategically develop germplasm in support of the global expansion of quinoa., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Craine, Davies, Packer, Miller, Schmöckel, Spalding, Tester and Murphy.)

Published
2023
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320. Developing a definition of biofortification through the synthesis of food biofortification publications: a scoping review protocol.

Author

Kellogg JA, Klarquist EF, Waziri AD, Luftig D, Carbonero F, Solverson P, Perrigue M, Aytekin D, Walton J, Garland-Campbell K, and Murphy KM

Subjects
Humans, Minerals, Review Literature as Topic, Vitamins, Washington, Biofortification, Vitamin A
Abstract

Objective: The objective of this review is to develop a definition of biofortification through the synthesis of food biofortification publications and to document the breadth of the research on this topic., Introduction: Biofortification of a food source is a human health intervention. Due to the varying definitions of this concept, biofortification can be difficult to describe. Originally, biofortification was defined as the use of plant breeding methods to produce staple foods dense in minerals and vitamins. Research using the term focused on mineral, vitamin, and protein improvement of staple foods. However, the field has expanded to include non-staple foods as well as different methodological approaches to biofortification (eg, transgenic, molecular breeding). Researchers require a broad overview of the evidence and consensus on a definition to ensure effective communication within this scientific community., Inclusion Criteria: Inclusion criteria will be broad to ensure that existing definitions of biofortification are captured across the different areas of study in this field. The review will consider research published in English. Inclusion will not be limited by participant type, date of publication, or context. The concept will be strictly biofortification., Methods: A broad search strategy will be utilized for AGRICOLA, AGRIS, Web of Science, PubAg, CINAHL, PubMed, Cochrane Library, Epistemonikos, JBI Evidence Synthesis, Google Scholar, and Washington State University Libraries' integrated catalog. A limited search for gray literature will be conducted. The data extracted will include study and author characteristics. Tables and figures will demonstrate the breadth of the evidence., Competing Interests: The authors declare no conflict of interest., (Copyright © 2022 JBI.)

Published
2022
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321. The diversity of quinoa morphological traits and seed metabolic composition.

Author

Tabatabaei I, Alseekh S, Shahid M, Leniak E, Wagner M, Mahmoudi H, Thushar S, Fernie AR, Murphy KM, Schmöckel SM, Tester M, Mueller-Roeber B, Skirycz A, and Balazadeh S

Subjects
Droughts, Plant Breeding, Saponins, Chenopodium quinoa chemistry, Chenopodium quinoa genetics, Chenopodium quinoa metabolism, Metabolome, Seeds chemistry, Seeds metabolism
Abstract

Quinoa (Chenopodium quinoa Willd.) is an herbaceous annual crop of the amaranth family (Amaranthaceae). It is increasingly cultivated for its nutritious grains, which are rich in protein and essential amino acids, lipids, and minerals. Quinoa exhibits a high tolerance towards various abiotic stresses including drought and salinity, which supports its agricultural cultivation under climate change conditions. The use of quinoa grains is compromised by anti-nutritional saponins, a terpenoid class of secondary metabolites deposited in the seed coat; their removal before consumption requires extensive washing, an economically and environmentally unfavorable process; or their accumulation can be reduced through breeding. In this study, we analyzed the seed metabolomes, including amino acids, fatty acids, and saponins, from 471 quinoa cultivars, including two related species, by liquid chromatography - mass spectrometry. Additionally, we determined a large number of agronomic traits including biomass, flowering time, and seed yield. The results revealed considerable diversity between genotypes and provide a knowledge base for future breeding or genome editing of quinoa., (© 2022. The Author(s).)

Published
2022
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322. Preliminary Studies of the Performance of Quinoa (C henopodium quinoa Willd.) Genotypes under Irrigated and Rainfed Conditions of Central Malawi.

Author

Maliro MF, Guwela VF, Nyaika J, and Murphy KM

Abstract

The goal of sustainable intensification of agriculture in Malawi has led to the evaluation of innovative, regionally novel or under-utilized crop species. Quinoa ( Chenopodium quinoa Willd.) has the potential to provide a drought tolerant, nutritious alternative to maize. We evaluated 11 diverse varieties of quinoa for their yield and agronomic performance at two locations, Bunda and Bembeke, in Malawi. The varieties originated from Ecuador, Chile and Bolivia in South America; the United States and Canada in North America; and, Denmark in Europe, and were chosen based on their variation in morphological and agronomic traits, and their potential for adaptation to the climate of Malawi. Plant height, panicle length, days to maturity, harvest index, and seed yield were recorded for each variety under irrigation at Bunda and Bembeke, and under rainfed conditions at Bunda. Plant height was significantly influenced by both genotype and environment. There were also significant differences between the two locations for panicle length whereas genotype and genotype × environment (G × E) interaction were not significantly different. Differences were found for genotype and G × E interaction for harvest index. Notably, differences for genotype, environment and G × E were found for grain yield. Seed yield was higher at Bunda (237-3019 kg/ha) than Bembeke (62-692 kg/ha) under irrigated conditions. The highest yielding genotype at Bunda was Titicaca (3019 kg/ha) whereas Multi-Hued was the highest (692 kg/ha) at Bembeke. Strong positive correlations between seed yield and (1) plant height ( r = 0.74), (2) days to maturity ( r = 0.76), and (3) biomass ( r = 0.87) were found under irrigated conditions. The rainfed evaluations at Bunda revealed significant differences in seed yield, plant biomass, and seed size among the genotypes. The highest yielding genotype was Black Seeded (2050 kg/ha) followed by Multi-Hued (1603 kg/ha) and Bio-Bio (1446 kg/ha). Ecuadorian (257 kg/ha) was the lowest yielding genotype. In general the seed yields of the genotypes were lower under rainfed conditions than under irrigated conditions at Bunda. The results also highlight the need to continue evaluating a diverse number of cultivars to select for genotypes adapted to specific agro-ecological areas and across seasons in Malawi.

Published
2017
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