Agriculture

Presenter: Jacob Davis, College of agriculture and applied science, Plant, climate and soil sciences

Presenter: Amanda Moravek, College of Engineering, Biological Engineering

Morgan Abbott, Utah Valley University

Christine Rumsey; Andrew Piskadlo; Adele Reynolds; Ryan Rowland; Shu Yang; Bill Johnson; Anna Robert; Gaurav Pandey, Westminster

Jason Klimek, Brigham Young University

Matthew Thompson, Utah State University

Carrie Draney and Amanda Hobson, Brigham Young University Agriculture Decreased β-cell mass is a hallmark of type 1 and type 2 diabetes. The use of islet transplantation as a diabetes therapy is hampered by the relative paucity of transplant ready islets. Greater understanding of the proliferative pathways controlling islet proliferation may be harnessed to increase functional β-cell mass through transplantation or by enhanced growth of endogenous β-cells. We have shown that the β-cell transcription factor Nkx6.1 induces β-cell proliferation by upregulating the orphan nuclear hormone receptors Nr4a1 and Nr4a3. Using expression analysis to elucidate the Nkx6.1 independent mechanism by which Nr4a1 and Nr4a3 induce β-cell proliferation, we demonstrated that cyclin-dependent kinase 5 regulatory subunit 1 (Cdk5r1) is upregulated by Nr4a1 and Nr4a3 and not Nkx6.1. Adenovirus mediated overexpression of Cdk5r1 is sufficient to induce proliferation in primary rat islets. The observed proliferation is primarily in β-cells. Glucose stimulated insulin secretion is maintained with Cdk5r1 overexpression. The Cdk5 inhibitor, roscovitine, blocks islet proliferation, suggesting that Nr4a mediated β-cell proliferation is a kinase dependent event. Overexpression of Cdk5r1 results in pRb phosphorylation, which is inhibited by roscovitine treatment. These data demonstrate that activation of the Cdk5 complex is sufficient to induce β-cell proliferation while maintaining glucose stimulated insulin secretion.

Ryan Graham and Bryson Ensign, Brigham Young University Agriculture Agastache is an aromatic flowering plant closely related to the mint family. Most species are 0.5-3m tall with toothededged leaves covering the stem. Agastache is commonly found in landscaping, but can become quite noxious because of the abundance of seed produced in each flower head. Here we used an antimitotic agent, trifluralin, to induce polyploidy in Agastache seedlings with the foresight of creating a sterile version of the plant. Putative polyploids were checked for chromosomal content via flow cytometry. Our data show that trifluralin treatment is a potentially successful method for inducing polyploidy in Agastache. Further, among the positively identified polyploids, we have noticed suggestive patterns of sterility. However, further research needs to be conducted to confirm this finding. For now, we are able to present an effective method for inducing polyploidy in Agastache and, potentially, other plant species.

Samantha Beck, Utah Valley University Agriculture Capsicum annuum (hot chili pepper) originated in Central and South America but due to its many economically important characteristics this species is now used all throughout the world in many varied applications. Encompassing many diverse varieties, each with distinctive beneficial characteristics such as spiciness (pungency), this species has become a focal point for research. The “pungency” is due to its secondary metabolites called Capasaicinoids (Capsaicin and Dihydrocapsaicin among others); making these varieties useful in food products and the pharmaceutical industry. Metabolites from C. annuum have shown to be effective against inflammation, pain, psoriasis, high cholesterol, atherosclerosis and other ailments. Evidence also has shown that these secondary metabolites (Capasaicinoids) trigger cell suicide in prostate cancer cell lines. Micropropagation of this important species is crucial for breeding programs, analysis of secondary metabolites, propagation at industrial level and development of research in different fields. This research evaluates the effects of different plant growth regulators on the embryogenesis and organogenesis of three varieties of pepper: Jalapeno, Cayenne and Thai. Reliable organogenesis and embryogenesis methods in these varieties have not been published. Our results show that callus growth was stimulated in these varieties with MS media amended with 5μM BAP (6-Benzylaminopurine) and 2.5μM 2,4-D (2,4-Dichlorophenoxyacetic). The response to fruit extract on callus growth was evaluated; the Jalapeno variety responded positively to the addition of fruit extract whereas the Thai variety did not show induction of callus. Additional effects of different concentrations of growth regulators and different medium on embryogenesis and organogenesis will be described. This research provides valuable information that can be used by researchers and commercial propagators.

María Velasco, Utah Valley University Agriculture Calochortus is a plant genus that includes approximately 60 species distributed in North America with great ornamental and ethnotobanical value. Sego lily, mariposa lily and other common names have been used to describe the different species of Calochortus. Native Americans and settlers have used the bulbs as food, either raw or ground into flour and cooked. C. nuttallii played an important role in the success of colonization of Utah. Between 1840 and 1851 the scarcity of food due to a plague of crickets led to the pioneers to dig for the bulbous roots of sego lily, ensuring the survival of the pioneer population. This research studies the effects of Gibberellic acid on the germination and elongation of these species in vivo and in vitro. Eight different species of Calochortus are being utilized for this experiment to evaluate the effect of this growth regulator on the germination of these species. Different types of media are being tested to evaluate the optimal in vitro conditions that these species require for germination and growth. In addition embryogenesis and organogenesis is being induced by using Benzyl Amino Purine and 2,4-Dichlorophenoxyacetic acid at different concentrations. Sego Lily is the State flower of Utah; micropropagating this plant will allow us to understand and research new methods and conditions to grow these species successfully, making preservation possible since some Calochortus species have been listed as endangered. In addition, other species such as Calohortus ambiguous (Doubting Mariposa Lily), which is distributed in Utah, Arizona and New Mexico, will also benefit from the system developed in this research because they are closely related to Sego Lily (C. nuttallii). The long term goal of this research is to establish an appropriate micropropagation system for a wide variety of Calochortus species.

Johonna Sheldon, Southern Utah University Agriculture Science Scotch Thistle (Onopordum acanthium), Musk Thistle (Carduuas nutans) and Bull Thistle (Cirsium vulgare) are invasive species that produce large quantities of seeds that remain viable for long periods of time. Collections were made of the species from various locations. Five distinct stages of growth were determined. Samples were collected and labeled with the maturity stage of each seed pod recorded. Tetrazolium, cut, and pop tests will be used to help indicate seed viability. I hypothesize that different stages of maturity will have varying degrees of viability as determined by tests. Furthermore I predict later stages will have the most overall viability and the pop test will positively correlate with the tetrazolium and cut tests. The results are in progress.

Tooley, Sarah (Utah State University)
Faculty Advisor: Powell, Jake (College of Agriculture and Applied Sciences, Landscape Architecture and Environment Planning Department)

The dry, arid climate of Utah makes water a limited and precious resource. However, Utahans are the second largest per capita water users in the nation, with over 60% of that water used on outdoor landscapes. High landscape water use in the face of limited availability is a complex socio-cultural phenomenon reaching back to when pioneers first settled Utah. Settlers were from places with cultural perceptions of landscapes and climates much different then what they found when they arrived. Their desire to create a place that felt like home established a cultural landscape vernacular where Utahan's prefer a landscape more lush and green than we have water to support. With the projected increase in Utah's population, the traditional Utah landscape is quickly becoming unsustainable. As an Extension service I designed 5 landscapes following established water wise design principles which are: planning and design, plant selection and hydro zones along with practical turf areas. The purpose of these designs was to demonstrate that water wise designs can both be water efficient as well as functional, sustainable and aesthetically pleasing. The results of these planning and design efforts are currently being installed into residences in two Utah communities. I will share the design and implementation methods and results of these designs and visitor feedback data from one of the sites. This design research showcases a potential method others in Utah can use to make their landscapes more water wise and begin to redefine the vernacular landscape in Utah and the Intermountain West.

Kaundal, Amita; Hansen, Nathaniel; Ganesh, Jyothsna (Utah State University)
Faculty Advisor: Kaundal, Amita (College of Agriculture and Applied Sciences; Plants, Soils, and Climate Department)

Plants are sessile and bound to their origin so they cannot move to defend themselves against adverse environmental conditions. Soil salinity is one of such environmental stress, which limits the growth and development of plants. Salt stress directly affects crop production. It has been predicted that by 2050, about 50% of arable land will be affected by salinity. About 23% of the worldwide farmland is affected by soil salinity and the crop losses due to salinity are estimated to be tens of billion dollars per year. On top of that, an increase in the world population, the demand for food production also increases. Thus, feeding the growing population under adverse conditions is a challenge. This challenge demands to create more resilient crops to adverse conditions and to feed the growing population. In this study we are investigating General Control Non-repressible 4 (GCN4) in Arabidopsis for salt stress tolerance. GCN4 is an AAA+-ATPase (ATPases associated with diverse cellular activities). AAA+ proteins have diverse functions, such as assembly or disassembly of protein complexes, protein folding or unfolding, protein transport or degradation. It has been shown previously that when AtGCN4 overexpressed in Arabidopsis, it plays a significant role in host-pathogen interaction and control stomatal movement upon pathogen infection by degrading RIN4 - 14-3-3 proteins in PM H+-ATPase complex. Besides this GCN4 when overexpressed exhibit drought tolerance. In this study, we have investigated the previously developed overexpressed and silenced GCN4 Arabidopsis transgenic lines along with wild type plants for salt tolerance at different NaCl concentrations of 90mM, 120mM, and 150mM. So far, the studies indicate that the overexpressor lines were able to tolerate up to 150mm of NaCl as compared to the WT and silenced lines. Further studies are in progress to confirm our hypothesis that GCN4 improves the salt tolerance of transgenic plants. The obtained knowledge will help to investigate the common link in the mechanisms involved in various abiotic and biotic stresses.

Perisse, Iuri Viotti; Fan, Zhiqian; Wang, Zhongde; Harris, Ann; White, Kenneth L.; Polejaeve, Irina A. (Utah State University)
Faculty Advisor: PoleJaeva, Irina (College of Agriculture and Applied Sciences; Animal, Dairy, and Veterinary Sciences Department)

Cystic Fibrosis (CF) is a recessive human genetic disease that is caused by mutations in the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) gene. This gene is responsible to transport Cl- and HCO3- anions in epithelial cells. Previously, we generated CFTR-/- lambs using CRISPR/Cas9 and SCNT techniques. The CFTR-/- lambs display many features similar to human CF disease, including meconium ileus (MI), pancreatic fibrosis, portal fibrosis and biliary hyperplasia, small gallbladder, and absence of vas deferens. In CF patients, MI affects only 15-20% of human babies, whereas it was observed in 100% of newborn CFTR-/- lambs and was the primary cause of death. We here hypothesized that the transgenic expression of the ovine CFTR cDNA under regulation of an intestinal-specific expression promoter would promote the correction of MI in CFTR-/- sheep. In this study, we are constructing three potential vectors with different promoters to be evaluated prior to the generation of transgenic animals. Rat intestinal Fatty Acid Binding Protein (iFABP), rat liver Fatty Acid Binding Protein (LFABP), and Villin1 promoters have already been characterized and successfully used for intestinal-specific expression. After digestion and ligation cloning, the three constructs will be sequenced to confirm the presence of all segments (promoter, cDNA, and vector) in the correct orientation. Subsequently, we plan to evaluate the transient gene expression of the constructs in CaCo-2 cells to ensure they are fully functional. Therefore, we will construct the pcDNA3.1>promoter>CFTR expression vector in order to generate intestine-CFTR transgenic CFTR-/- sheep.

Leatham, Dallin (Weber State University)
Faculty Advisor: Domek, Matthew (Weber State University, Microbiology); Oberg, Craig (Weber State University, Microbiology); Culumber, Michelle (Weber State University, Microbiology); Walker, Edward (Weber State University, Biochemistry)

Gouda cheese is known for its buttery flavor which is produced by the compound 2,3-butanedione or more commonly known as diacetyl. To measure the concentration of diacetyl in cheese a colorimetric test for vicinal diketones is used, known as the Voges and Proskauer (VP) method. This method involves using 5.0% a-naphthol and 0.4% creatine-KOH to develop a pink to red color. In the VP method the concentration of diacetyl is directly related to the absorbance. When this method was performed using known concentrations of Diacetyl in dH2O, a linear relationship was found to have a R2 value of .9571 confirming that the VP method is a viable method of testing for diacetyl concentration. It was proposed that by using a GC-MS to measure these concentrations a simpler test could be performed with similar or improved accuracy. Extracting of the diacetyl from Gouda cheese was done using a stomacher and a mixture of 50:50 acetone:dH2O. Before the concentration of cheese was measured dilutions of diacetyl concentrations were run in a 50:50 acetone:dH2O mixture at 0.1 uL/mL, 1 uL/mL, and 10 uL/mL. The concentrations of diacetyl that gouda cheese commonly contains are from 0.01 uL/mL to 0.1 uL/mL. It was found that the concentration of .1 uL/mL of diacetyl could not be distinguished from the background interference of the instrument. Currently it seems that using a GC-MS to determine diacetyl concentrations in gouda cheese might not be a practical method. Further research and a better understanding of the equipment could improve this method in order to obtain readable results.

Dodge, Reagan; Backman, Talia (Utah Valley University)
Faculty Advisor: Zahn, Geoffrey (Utah Valley University, Biology)

We assessed the ability of Pleurotus ostreatus, Oyster mushroom, to efficiently decompose waste products containing cellulose. As common pollutants are comprised of cellulose it is important to understand organisms that have cellulolytic enzymes such as P. ostreatus. The fungus P. ostreatus was introduced to the substrates of paper textiles, peanut shells, and livestock manure. After each treatment, the yield of mushroom production and remaining substrate was measured. As these substrates have been broken down during mushroom production they can be sold as inorganic fertilizer or compost. As well, Oyster mushrooms can be purchased and enjoyed in meals. Mushroom cultivation is a multi-billion dollar industry, and excessive wastes are a strain on the environment. By understanding what cellulase substrates produce the greatest yields we can eliminate waste all while increasing profits. Oh, and eating great mushrooms!

Black, Brent; Peterson, Savannah (Utah State University)
Faculty Advisor: Black, Brent (College of Agriculture and Applied Science; Plants, Soils, and Climate Department)

Utah has 1,200 acres of commercial peaches (15th largest peach producing state) making it the second most important fruit crop in the state. However, Utah soils are alkaline, and many trees grown on alkaline soils struggle with iron chlorosis. Peaches and other fruit trees are a combination of the desired variety (scion) grafted onto a rootstock. Some peach rootstocks may be better adapted to Utah's alkaline soils. An orchard comparing 12 peach rootstocks was planted in Utah County in 2007 and evaluated in the 2019 season for survival, tree size and iron chlorosis (leaf chlorophyll content, an indicator of alkaline soil tolerance).The scion for all trees was O'Henry. Most rootstocks had good survival after 13 years (>80%). Empyrean 2 and Julior had the poorest survival (< 50%). The largest trees were on Monegro, Empyrean 1 and Nickels rootstocks, and the smallest were on Lovell, Julior and Krymsk 86. Leaf chlorophyll was lowest (most chlorotic) for Lovell, Julior and Empyrean 1. Selecting the best adapted rootstock is essential for an orchard to be successful and profitable. These results will be useful for Utah growers to select trees best adapted to their conditions.

Tyler Hacking, Jonathan Wasden and Dr. Michael Stevens (Utah Valley University)
Faculty Advisor: Stevens, Michael (Science, Biology)

Abstract:

Plant growth can be affected by both genes and the environment. To test genetic effects on growth we used two varieties of lettuce. To test environmental effects on growth, we used four different water treatments. We were interested in the main effects of genes and the environment and also in their interaction. In other words, is the effect of water treatment different across two lettuce varieties? Two varieties of Lactuca sativa were cultivated in a growth chamber in pots using vermiculite as the growth medium. The two varieties were treated with four types of water: tap, tap-aerated, reverse osmosis, and reverse-osmosis-aerated throughout the experiment. Aeration was accomplished using both surface aeration (waterfall and vortex) and sub-surface aeration using submerged waterstones. All plants were fertilized using 8-15-36 (N-P-K) water-soluble lettuce fertilizer powder plus trace minerals by Greenway Biotech, Inc. The plants were harvested and dried to a constant weight for analysis of biomass. We observed varietal differences in growth with the Buttercrunch variety producing 145% more biomass than the Butterhead variety (p < 0.001). The water treatments affected growth, with the plants watered with tap water producing 31% more biomass than the plants watered with reverse-osmosis water (p < 0.001). The other two water treatments (tap-aerated and reverse-osmosis-aerated) were intermediate between the tap-watered plants and the reverse-osmosis-watered plants in terms of biomass. Finally, we observed a variety-by-environment interaction such that the Buttercrunch showed a marked response to water treatment whereas the Butterhead was only minimally affected by water treatment (p < 0.001). The Buttercrunch produced more biomass than the Butterhead because of its shorter life cycle. By the end of the experiment, the Buttercrunch plants were already bolting and producing flowers. This could also explain why the Buttercrunch was more responsive to differences in water treatments.