Global ETD Search

21	<b>Accelerating oxygen depletion in hermetic storage using hand warmers to improve pest control</b> Wenbo Li (19337320) 06 August 2024 (has links) <p dir="ltr">This study explores the use of hand warmers to enhance hermetic storage. Hand warmers work similarly to conventional oxygen scavengers by consuming oxygen through oxidation. This research aimed to determine how effective hand warmers are in accelerating oxygen reduction and insect mortality in hermetic storage, hence preserving grain quality. The experiments conducted in hermetic containers showed that hand warmers rapidly reduce oxygen levels, achieving insect-lethal conditions much faster than conventional oxygen absorbers like Oxy-Sorb. Our results show that hand warmers brought oxygen levels down to below 5% within 24-48 h and kept them low for an extended period up to 240 h. This quick oxygen depletion led to high insect mortality, reduced oviposition, and inhibited progeny development. Additionally, hand warmers did not negatively impact seed moisture content or germination rates, demonstrating their effectiveness in maintaining grain quality during storage.</p> oxygen scavengers pest controls hermetic storage cowpea weevil
22	Interdisciplinary Approaches to Higher Education and Food Safety in International Development in Agriculture Leah Rachel Thompson (19201099) 05 August 2024 (has links) <p dir="ltr">The following dissertation contains a series of articles from a diverse set of research experiences over my five years as a PhD student at Purdue University. Each of the following articles relay how my interdisciplinary studies in food safety, gender, and higher education contribute to a comprehensive understanding of international development in agriculture. After an introductory chapter, chapters two and three include systematic literature review articles on the state of food safety in Lao PDR and Cambodia. Each review discusses available knowledge and potential development opportunities surrounding food safety, a significant threat to public health, especially in low- and middle-income countries. Building upon the food safety literature, chapters four and five are based upon research aimed at reducing foodborne illnesses in Cambodia’s informal vegetable value chain. Toward this end, the chapters present two articles that study the lives of Cambodian women vegetable producers to inform future food safety engagement. The final three chapters are a collection of articles based on my experiences working with agricultural higher education in international development contexts. Chapters six and seven present two articles about the employability of Egyptian agriculture university graduates. Chapter eight includes my final research article and explores how a service learning-based study abroad in Romania encouraged agricultural engagement interest and skills in undergraduate agricultural students. Lastly, chapter nine concludes the dissertation with final remarks and reflections about how each discipline provided a different perspective to international development in agriculture, and the value of applying interdisciplinary approaches to complex challenges.</p> International extension food safety higher education Interdisciplinary Study
23	<b>Challenges and Opportunities for Small- sized Processors and Growers from Different Perspectives</b> Autumn Catherine Stoll (19208041) 29 July 2024 (has links) <p dir="ltr">From farm to fork, every player in the food supply chain bears responsibility for ensuring food safety standards are met. Food safety educators are a key component in addressing knowledge and behavior gaps amongst the different players. Conducting a needs assessment allows educators to appropriately design a food safety education program for its target population. Three case studies are presented in this thesis, each investigating the food safety perceptions and needs of different target populations through a needs assessment. Each case study had two objectives: 1) identify food safety education needs for a specific target population; and 2) provide specific food safety education recommendations to address identified needs. The overall objective of this thesis was to uncover the food safety relationships between the different players in the food supply chain. The first case study (Ch. 2) examines consumers’ preferences for food safety through a national online survey. The study conclusively demonstrates consumers’ discernible preference for produce with food safety labels, however reflecting a willingness to pay only a small premium for such products. Indicating an increased price to consumer may not be an appropriate incentive in motivating farmers to adopt food safety practices. The second case study (Ch. 3) examined military veteran farmers’ on-farm food safety perceptions, knowledge, and behaviors through a national survey and in-person interviews. Military veteran farmers are aware of the importance of food safety; however, they reported risky on-farm food safety behaviors. Furthermore, military veteran farmers' unique needs were uncovered, which could help educators tailor resources for this niche farmer group. The third case study (Ch. 4) examined small- size produce drying processors’ food safety needs from the perspective of the inspector through interviews. The study demonstrated a need for clarity on the regulations and food safety standards for the small- size produce drying process. In summary, this thesis demonstrates the need for tailored food safety education interventions to meet the specific expectations of small-size and niche players in the food supply chain. Future work is recommended to continue exploring the food safety needs of niche players in the food supply chain and providing tailored food safety programs.</p> Food sciences not elsewhere classified food safety extension education human factors
24	ESSAYS IN FOOD DEMAND Zachary T Neuhofer (19149745) 17 July 2024 (has links) <p dir="ltr">This dissertation discusses the effects of a sustainability facts label on organic selection, demand for plant-based meat alternatives, and the political polarization of beef expenditure.</p> Agricultural Economics & Policy
25	Phenolic characterization and bioactivity of microwave-assisted extracts from edible house crickets (Acheta domesticus) Maria C Nino Bernal (11553292) 13 October 2021 (has links) <p>Entomophagy, which is the habit of eating insects, has become relevant in the past few years as it could potentially help reduce current and future food insecurity, due to the highly nutritious and sustainable characteristics of edible insects. In addition to the nutritional content of insects, research on the potential bioactive components of insect extracts has also gained popularity. In this study, extracts from house cricket (<i>Acheta domesticus</i>) from two farms and their corresponding feeds were obtained using a microwave-assisted extraction. Further phenolic characterization led to the identification and quantification of 4-hydroxybenzoic acid, <i>p</i>-coumaric acid, ferulic acid and syringic acid as major phenolic compounds in both <i>A. domesticus </i>extracts as well as both feed extracts. Additionally, <i>in vitro</i> antioxidant activity was evaluated using 2,2-diphenyl-1-picrylhydrazyl radical cation (DPPH) and 2,2’-azino-bis (3-ethylbenzothiazoline-6-sulphonic acid) (ABTS) radical assays. In both <i>in vitro</i> assays, <i>A. domesticus</i> extracts showed higher antioxidant activity compared to the feeds. Antibacterial activity against <i>E. coli</i> and <i>L. innocua</i> was also evaluated using the microwell method. The <i>A. domesticus </i>extracts showed a selective inhibition (p<0.05) towards the gram-positive bacteria <i>L. innocua </i>between a period of 4 to 8 h. This inhibition is thought to have occurred as a result of the presence of phenolic acids and antimicrobial peptides, while the feed extracts did not exhibit any inhibitory activity towards any of the bacteria. The finding of the same phenolic acids in <i>A. domesticus</i> and their corresponding feed could imply the capacity of <i>A. domesticus</i> to absorb and sequester dietary phenolics that may provide additional health benefits when the insect is consumed, unveiling new benefits of entomophagy. </p> Food Sciences not elsewhere classified entomophagy phenolic compounds antioxidant bioactivity antibacterial bioactivity Acheta domesticus targeted UPLC-MS/MS
26	CHARACTERIZATION OF DRY-AGED MEAT FLAVOR PRECURSORS AND LIBERATION MECHANISM THROUGH A METABOLOMICS APPROACH Derico Setyabrata (11791949) 20 December 2021 (has links) <p>Within the last decade, the popularity and interest in dry-aging have constantly increased among both consumers and producers. Dry-aging is a natural value-adding process where meat is exposed to a controlled refrigerated environment without any protective barrier during the aging process. This process leads to the development of unique flavors in the final meat product. Although the prevalence of this process is increasing, there are inconsistent reports regarding the impacts of dry-aging on meat sensory attributes, especially on the flavor aspect. Given that flavor generation is dependent on the composition and availability of flavor precursors, the presence or absence of these precursors may contribute to the inconsistency observed. Thus the main objective of the research described here was to characterize the flavor precursors in dry-aged meat and elucidate potential factors or mechanisms favoring to their production.</p> <p> To achieve this objective, metabolomics analysis was conducted in conjunction with various chemical analyses (free amino acids, fatty acids, sugar content and volatile analysis), microbiome profiling and meat quality analysis (tenderness, water holding capacity, color stability, oxidative stability, microbial attributes and sensory analysis) to identify the essential flavor precursors and their production process. In addition, similar analyses were conducted using multiple meat sources (grass-fed beef loins, cull cow beef loins and pork loins) aged by wet-aging (WA), conventional dry-aging (DA), dry-aging in bag (DWA) and UV-light dry-aging (UDA) to elucidate the impact of the different aging treatments on meat quality, sensory attributes and flavor precursor availability.</p> <p>Regardless of the meat source, the results demonstrated that dry-aging altered the meat flavor precursor compositions, primarily by increasing the presence of protein-derived precursors (e.g., free amino acids and dipeptides), especially glutamine and glutamate compounds. Additionally, nucleotide and carbohydrate-derived compounds such as adenosine and reducing sugars were greatly increased after the dry-aging process. While the fatty acid profile was minimally affected, metabolomics analysis revealed a decrease in sterol and terpenoid lipids following dry-aging, which could potentially reduce off-flavors development in the meat. Other compounds such as vitamin B and vitamin C were also detected in the dry-aged product, which potentially could contribute to the flavor development.</p> <p>Analysis of the liberation mechanisms demonstrated that dehydration played a role in increasing the concentration of the flavor precursors in the dry-aged product, potentially promoting greater (e.g., Maillard reaction) during cooking. Furthermore, microorganisms might be responsible for further increasing the availability of flavor precursors in dry-aged meat, especially free amino acids, along with the dehydration process. Microbiome profiling found that <i>Pseudomonas</i> spp. are the most prominent bacterial species in microbial communities found on dry-aged meat which could affect the precursor release in dry-aged meat. Metabolomics analysis also indicated increased glutathione metabolism during dry-aging, which could lead to the liberation of glutamine-related compounds. The analysis also identified other compounds such as porphyrin rings (iron-related) and shikimic acid (bacterial metabolism), providing further examples of how metabolomics can identify dry-aged flavor precursors and reveal other potential mechanisms related to flavor development mechanisms.</p> <p>These outcomes demonstrate that dry-aging alters meat flavor precursor composition, mainly by increasing the availability of protein-, nucleotide- and carbohydrate-derived compounds. Such results indicate that the Maillard reaction is likely be the main mechanism in flavor generation in dry-aged meat. The current results provided more insights into the dry-aging flavor development, especially highlighting important flavor precursor such as glutamate and glutamine containing products, likely to contribute to the dry-aged flavor. Future study to identify the impact of different microorganism (especially mold and yeast) on dry-aging flavor development would be of interest. Additionally, impact of different cooking process should also be studies to maximize the dry-aged flavor potential from the product.</p> Food Sciences not elsewhere classified Dry-aging Metabolomics Sensory attributes Microbiome Flavor precursor Beef Pork
27	PROCESSED MEAT CHARACTERISTICS BETWEEN COMMERCIAL DUROC SIRED AND HERITAGE BREED LARGE BLACK PIGS Yufei Guo (11798366) 20 December 2021 (has links) <p>The United States is ranked third for global pork production as well as first in pork exports according to the USDA Economic Research Service in 2019. The majority of the commercial pork production in the United States applies some form of confinement system with environmentally adapted facilities. However, with information and easy media access to the US consumers, news and reports on different farming practices and potential issues in the animal industry have come under the spotlight. Consumers are becoming more interested in knowing what goes on behind the scenes of the commercial animal industry and where and how their food is produced. Whether it is due to personal beliefs, ethical concerns, novelty-seeking, eating experience, or choice of lifestyle, consumers are demanding diversity in their meat purchasing options. Although the commercial pork industry has shifted to fewer and larger farms in the last 40 years, small specialty farms such as heritage breed pork are on the rise to form a niche market. Large Black pig is a pasture-raised heritage breed originating in England, and it remains one of the rarest British pig breeds. Due to differences in husbandry, pasture-raised Large Black pigs consume a relatively high forage diet compared to corn-based diet used in commercial swine production. Although heritage pork has been lauded to have unique and superior quality, enhanced eating experience, and is often sold at a premium price, there are very little data on pork quality of Large Black pig compared to Duroc-sired breeds which are commonly used in commercial pork production. The purpose of this study is to fill the dearth and investigate differences in pork processing characteristics between commercial Duroc-sired and Large Black genetic lines fed high forage or commercial diets.</p><p> The study contained a total of 50 pigs: 25 Duroc-sired (DS) and 25 Large Black sired (LB) pigs. After all the pigs were weighed, the pigs were randomly assigned with heavy and light weights as blocks to two dietary treatments: Fiber (FIB) and Control (CON); and the feeding trial lasted a total of 126 days. There were 14 Large Black pigs fed fiber diet (LB FIB); 11 Large Black pigs fed control diet (LB CON); 14 Duroc-sired pigs fed fiber diet (DS FIB) and 11 Duroc-sired pigs fed control diet (DS CON). Pigs were fed either a control Corn-Soybean Meal-DDGS based diet or a high fiber diet with wheat middlings and dehydrated alfalfa meal replacing corn and soybean meal in the control diet. Diets were fed over six 21 days phases with fibrous ingredient levels increasing from 8.5 to 30 percent of the diet with sequential dietary phase from 1 to 6. Pigs were harvested at a common age with some variations in body weight between genetics (DS 125 ± 2.23 kg, LB 99 ± 2.28 kg; <i>P</i> < 0.001). Individual batches of 80% lean : 20% fat sausage patties with seasoning (136g per patty) were made from the shoulder of each pork carcass. PVC packaging was applied to each batch of sausage patties. Fat smear was noted on day 0 with a fat smear scale of 1 (excessive far smearing) to 8 (clear fat particle definition). Color parameters that include lightness (L), redness (a), yellowness (b), and lipid oxidation (2-Thiobarbituric acid reactive substances, TBARS) due to retail display effect were measured at days 0, 3, and 7 by placing packaged sausage patties under the retail display lighting. Boneless bellies were removed and weighed (fresh weight) from each pig and measurements for belly thickness, length, and firmness were recorded. Fresh bellies were injected to 110% fresh weight, thermally processed (62°C), and cooled (1°C internal temperature). Cooked weight was obtained before slicing. Belly processing yield was calculated as a percentage using (cooked weight / fresh weight) x 100. Adobe Photoshop was used to perform visual image analysis for bacon slice length (SL; cm), slice area (SA; cm<sup>2</sup>), and slice lean area (LA; %), one 0.64 cm bacon slice was obtained from 25, 50, and 75% distance respectively from the blade end of each cooked bellies for the analysis. RStudio (1.2.1335) was used to analyze data with breed and diet as fixed effects and least square means separated at (<i>P</i> < 0.05).</p><p> Results showed that only diet was significant for patty fat smear (<i>P </i>= 0.0104), CON patties had better particle definition than FIB patties. Difference for patty color L (<i>P </i>= 0.0051), a* (<i>P </i>< 0.0001) and b* (<i>P </i>< 0.0001) were found for days of retail display. Breed was significant in L* (<i>P </i>< 0.0001) and a* (<i>P </i>< 0.0001) with DS patties being lighter and less red than LB patties. Days under retail display (<i>P </i>< 0.0001) and breed x diet interaction (<i>P </i>= 0.0014) were found in lipid oxidation. DS CON had the least amount of lipid oxidation throughout retail display time. Breed and diet were significant for both belly thickness and length. LB (<i>P </i>= 0.0263) and CON (<i>P </i>< 0.0001) bellies were thicker than DS and FIB bellies respectively. DS (<i>P </i>< 0.0001) and CON (<i>P </i>= 0.0045) bellies were longer than LB and FIB bellies respectively. A breed x diet interaction (<i>P </i>= 0.0527) was observed in belly firmness and LB CON had the firmest bellies. Processing yield was found to be greater in DS bellies (<i>P </i>= 0.0014) than LB bellies. Breed effect had a tendency (<i>P </i>= 0.065) on SL, DS slices were longer. CON had greater SA (<i>P </i>< 0.0048) than FIB slices. DS slices had significantly higher LA (<i>P </i>< 0.0001) than LB slices.</p> The study provided novel insights into the differences in processing characteristics between the DS and LB genetic lines as well as the effect of diet on each breed. Results such as thicker and firmer belly, lower LA in LB were expected since LB is a minor swine breed that has not undergone intense genetic selection for percent lean meat. Overall, each breed had a better product when fed their accustomed diet (FIB for LB, CON for DS) such as less lipid oxidation in sausage patties for DS CON compared to LB CON. Although LB fits into the niche market of heritage breed pork, future studies in management systems, processing methods, and genetic improvement should be considered to improve product quality to better meet modern consumer demands. Food Processing Food Sciences not elsewhere classified Meat Science Pork Quality Pork Processing
28	PHYSICOCHEMICAL AND SENSORY EVALUATION OF INVASIVE SILVER CARP (Hypophthalmichthys molitrix) FISH NUGGETS Joseph L King (8788295) 01 May 2020 (has links) <p>Silver carp (<i>Hypophthalmichthys molitrix</i>)<b> </b>are an underutilized, invasive fish threatening native species throughout major water systems in the United States. The goal of this research was to use silver carp meat to create a value-added product, to analyze the changes in physicochemical structure and consumer liking over time, and to evaluate the benefits of adding soy, pea, and a combination of soy and pea protein isolates to the formulations. Fish nuggets were prepared from minced meat in four treatments consisting of 3% soy protein isolate (SPI), 3% pea protein isolate (PPI), a combination of 1.5% SPI and 1.5% PPI, and a control without plant protein isolate. Nuggets from each treatment were stored frozen for 1.5, 8.5, and 13.5 weeks. Proximate composition, pH, cook loss, textural hardness, expressible moisture, color, microbial counts and lipid oxidation were evaluated. Sensory acceptability was also evaluated for each frozen storage time period and treatment. A descriptive (QDA<sup>™</sup>) trained sensory panel was also conducted on all treatments independent of the storage testing. Results showed that lipid oxidation and textural hardness significantly (P < 0.05) increased with frozen storage time. PPI had significantly lower expressible moisture compared to the control at week 1.5, but there were no statistically significant differences between treatments at weeks 8.5 and 13.5. Similarly, formulations with PPI improved (p<0.05) cook loss for week 1.5, but not week 8.5 or 13.5. Overall, sensory acceptability did not change (P > 0.05), with the exception of decreased degree of liking scores for SPI aroma (p=0.03) and flavor (p=0.03)) during the frozen storage period; all degree of liking scores remained above 6.5 throughout analysis, indicating that consumers’ acceptability of the sample treatments over time despite the changes in physicochemical structure. The descriptive panel created an attribute lexicon for the aroma, flavor, and mouthfeel of the fish nuggets and did not find significant differences in intensities for those attributes between the treatments. Although there were measurable changes in oxidation, texture, expressible moisture, and cook loss over 13.5 weeks, these changes did not impact sensory acceptance. The addition of protein isolates improved water holding capacity initially but did not maintain those benefits over extended shelf life and had little impact on consumer liking during any time period. Overall, this study demonstrated that value-added products such as silver carp nuggets can be created using an otherwise under-utilized fish. The fish nuggets had high sensory acceptability, and the addition of protein isolates did not significantly improve their sensory characteristics; therefore, silver carp nuggets can be formulated without the need of additional protein additives .</p> Food Sciences not elsewhere classified invasive silver carp fish nuggets sensory analysis shelf life
29	INNOVATIVE COLD PLASMA-ASSISTED EXTRACTION FOR BIOACTIVE COMPOUNDS FROM AGRICULTURAL BYPRODUCTS Yiwen Bao (8232060) 06 May 2020 (has links) <p>Fruits play a necessary role in the human diet, and their cultivation is important to the prosperity of any country worldwide. However, fruit waste generated in large quantities in agricultural value chain is normally used to feed animals or directly disposed to landfill, ending up with low economic value and a heavy environmental burden. Agricultural waste that contains significant amounts of bioactive compounds can be utilized as byproducts and valorized through bioactives recovery. Conventional bioactive compounds extraction includes intensive uses of organic solvents and also has relatively low efficiency. Therefore, an environment-friendly alternative with higher extraction efficiency is needed. Cold plasma can convert gaseous medium to a highly reacting state with low energy cost, generating reactive species that are able to disrupt cell structures as well as modify material surfaces. This study has developed an innovative cold plasma-assisted extraction technology to enhance the recovery of bioactive compounds from fruit processing byproducts. The objectives of this study are to examine the effects of dielectric barrier discharge plasma on fruit pomaces, in terms of (i) surface microstructure and properties, (ii) extraction efficiency of their bioactive compounds, and (iii) bioactives composition and nutritional value of their extracts.</p><p>High voltage atmospheric cold plasmas (HVACP) generated with different working gases (air, argon, helium and nitrogen) were applied on tomato pomace (TP). In addition to creating ruptures on TP epidermal cells, HVACP treatments were found to decrease the water contact angles of tomato peels and accelerate the drying of tomato fruits, indicating the formation of more hydrophilic surfaces. Helium and nitrogen plasmas-treated TP showed increased PC extraction yields by 10%, and all HVACP-treated samples exhibited higher AA and changes in their phenolic compositions.</p><p>Grape pomace (GP) from red wine production was treated by helium-HVACP for different time periods (5, 10 and 15 min). Similar cell structure disruption and surface hydrophilicity enhancement were observed, and the effects became more significant as treatment extended. HVACP treatment also increased the total phenolic content in GP extracts, by 10.9−22.8%, which contained a higher anthocyanin concentration and showed an improved AA (16.7−34.7%). Furthermore, competitive effects of HVACP treatment on PC extractability enhancement and their degradation were observed.</p><p>The results of this study have proved that HVACP-assisted extraction successfully improved the extraction efficiency of bioactive compounds from fruit pomace and enhanced the nutritional quality of their extracts. This novel technology is a promising method for valorizing different agriculture byproducts into functional food ingredients and nutraceuticals with high nutritional values, which thus can bring significant economic benefits to the agricultural, food and nutraceutical industries.</p> Food Engineering Food Processing Food Sciences not elsewhere classified High Voltage Atmospheric Cold Plasma Surface Modification Extraction Enhancement Bioactive Compounds
30	PREBIOTIC POTENTIAL OF A WIDE SELECTION OF TUBERS, GRAINS, AND PULSES IN COMPARISON TO FRUCTO-OLIGOSACCHARIDE Ahmad Enosh Kazem (9760571) 11 December 2020 (has links) <p>The most common food and supplement prebiotic fiber is inulin – most commonly extracted from chicory root. Fructo-oligosaccharide (FOS) is a smaller version of inulin, both containing mainly fructose units with β-1,2 linkages. FOS/inulin has been used, and studied, as a prebiotic for decades. The potential of alternative prebiotics intrinsic in whole foods, such as in tubers, grains, vegetables, and pulses – the world’s most common staple crops – are not as commonly recognized as prebiotics, though have this potential if fermentable in the gut. If such alternative sources of prebiotic ingredients could be established it would allow for cheaper, possibly more effective, and more diverse food product development options beyond FOS/inulin. </p> <p>This study demonstrates the potential of tubers, grains, and pulses as prebiotics in relation to their <i>in vitro</i> human fecal fermentation rate, short chain fatty acid (SCFA) production, and microbiota indicators of alpha diversity and impact on key bacterial genera. Fecal samples were obtained from three diverse healthy human donors and used as the initial bacterial inoculum to simulate conditions in the human gut (colon). Substrates (n=35), after undergoing an upper gastrointestinal tract simulated digestion, were fermented by each individual donors’ inoculum separately, and measurements after 6, 12, and 24 h of fermentation were made on gas production, SCFA metabolite production, and microbiome composition. </p> <p>The results of this study establish high fermentability and potential prebiotic effects of dietary fibers from tubers, grains, and pulses. Whole foods, ground and cooked the same way, produced dietary fibers that were largely insoluble, but surprisingly fermentable with high SCFA levels, mostly slow fermentation profiles indicating high tolerability, and mostly promoting diverse microbiota responses compared to FOS. Generally, whole food fibers had higher fermentability than similar isolated fibers. Overall, the processing steps, such as atmospheric or pressure cooking, tested in some pulses did not detract, or add to, the prebiotic abilities of the substrates. Each food fiber substrate had unique effects on the gut microbiota parameters tested. Gut microbiome compositional responses to the same substrate varied significantly among the three donors, but notably SCFA metabolite responses were similar among donors. </p> Food Sciences not elsewhere classified microbiome prebiotic supplementation whole food prebiotics dietary fiber tubers grains Pulses fructo-oligosaccharides

Search results