Low Impact Development: Low-Maintenance Design to Encourage Residential Adoption of Sustainable Systems

Residential adoption of low-impact development (LID) technology can positively impact downstream watershed hydrology by reducing total volumetric discharge from the residential site. This reduction can provide economic, environmental, and social benefits for the residents as well as the community at large. Additionally, homeowners are often affected by stormwater related issues, like flooding or washout, that could be easily mitigated with a sustainably engineered LID structure or network. Engineering for sustainability often includes the blending of several objectives to provide greater overall benefit. This thesis compares the outflow characteristics of three low-maintenance residential LID design scenarios differing in rain garden soil depth and therefore differing in available pore space. As pore space increases, water storage potential also increases, allowing for greater reductions in total volumetric discharge. Despite this relationship, the deepest possible rain garden cannot be considered the best choice for all homeowners. Economic considerations may deter some who are interested in environmental preservation but cannot endure the initial cost of investment attached to the most environmentally beneficial design. To encourage widespread adoption, it is recommended that homeowners invest in low-maintenance LIDs that incorporate the use of native plant species in the design. Generally, the incorporation of residential rain gardens provides exceptional benefit. These LIDs excel in the reduction of total volumetric discharge and can be designed to aesthetically appeal to a multitude of visual preferences. By following this guidance, homeowners can enjoy the benefits of successful and sustainable engineering design while also providing an ecological service to their community

Physician decision making in selection of second-line treatments in immune thrombocytopenia in children.

Immune thrombocytopenia (ITP) is an acquired autoimmune bleeding disorder which presents with isolated thrombocytopenia and risk of hemorrhage. While most children with ITP promptly recover with or without drug therapy, ITP is persistent or chronic in others. When needed, how to select second-line therapies is not clear. ICON1, conducted within the Pediatric ITP Consortium of North America (ICON), is a prospective, observational, longitudinal cohort study of 120 children from 21 centers starting second-line treatments for ITP which examined treatment decisions. Treating physicians reported reasons for selecting therapies, ranking the top three. In a propensity weighted model, the most important factors were patient/parental preference (53%) and treatment-related factors: side effect profile (58%), long-term toxicity (54%), ease of administration (46%), possibility of remission (45%), and perceived efficacy (30%). Physician, health system, and clinical factors rarely influenced decision-making. Patient/parent preferences were selected as reasons more often in chronic ITP (85.7%) than in newly diagnosed (0%) or persistent ITP (14.3%, P = .003). Splenectomy and rituximab were chosen for the possibility of inducing long-term remission (P < .001). Oral agents, such as eltrombopag and immunosuppressants, were chosen for ease of administration and expected adherence (P < .001). Physicians chose rituximab in patients with lower expected adherence (P = .017). Treatment choice showed some physician and treatment center bias. This study illustrates the complexity and many factors involved in decision-making in selecting second-line ITP treatments, given the absence of comparative trials. It highlights shared decision-making and the need for well-conducted, comparative effectiveness studies to allow for informed discussion between patients and clinicians

PDK1-SGK1 signaling sustains AKT-independent mTORC1 activation and confers resistance to PI3Kα inhibition

SummaryPIK3CA, which encodes the p110α subunit of PI3K, is frequently mutated and oncogenic in breast cancer. PI3Kα inhibitors are in clinical development and despite promising early clinical activity, intrinsic resistance is frequent among patients. We have previously reported that residual downstream mTORC1 activity upon treatment with PI3Kα inhibitors drives resistance to these agents. However, the mechanism underlying this phenotype is not fully understood. Here we show that in cancer cells resistant to PI3Kα inhibition, PDK1 blockade restores sensitivity to these therapies. SGK1, which is activated by PDK1, contributes to the maintenance of residual mTORC1 activity through direct phosphorylation and inhibition of TSC2. Targeting either PDK1 or SGK1 prevents mTORC1 activation, restoring the antitumoral effects of PI3Kα inhibition in resistant cells

National Register Testing At Sites 41BP585, 41BP594, And 41BP595 Three Oaks Mine, Bastrop County, Texas

Between October 2012 and July 2013, Atkins conducted National Register of Historic Places (NRHP) eligibility testing at historic sites 41BP585 and 41BP594 and prehistoric site 41BP595, located within the Three Oaks Mine in Bastrop County, Texas, which is owned and operated by Luminant. Impacts to all three sites are anticipated as a result of planned mine development. This work was conducted under the direction of Principal Investigator David L. Sherman. This report of investigations was written at Atkins and is being finalized by Blanton & Associates, with David L. Sherman remaining as the Principal Investigator. This work demonstrated that significant archeological deposits that may contribute to the overall NRHP eligibility statuses of the two historic sites are absent at both sites. Standing architecture at 41BP594, however, has previously been determined to be eligible for listing on the NRHP (Martin 2001). Archival research conducted as part of the current investigation into the histories of the historic sites remains inconclusive with respect to the identity of their 1870s and earlier occupants. Testing at prehistoric site 41BP595 indicated it resulted from multiple occupational episodes during the period from the late Paleoindian to the Late Prehistoric. Shovel testing and mechanical trenching revealed the presence of an expansive buried anthrogenic A soil horizon, or midden, replete with preserved subsistence remains. Mechanical trenching also exposed a variety of burned rock cooking facilities partially surrounding the midden area. Radiocarbon assays of burned nut shells recovered from feature contexts, along with the assemblage of diagnostic lithic artifacts, suggest the site was most intensively occupied from the Late Archaic to the early Late Prehistoric. A suite of special studies was conducted on burned rock samples recovered from four of the better-preserved burned rock features. These studies, which include residue, starch, and phytolith analysis, suggest that the burned rock features were used in part to process tubers/roots and grass seeds for subsistence. Macrobotanical analysis of flotation samples recovered from feature contexts identified spent fuel remains including oak and hickory wood and subsistence remains including oak, hickory, black walnut, and acorn burned nut shells. A small amount of burned bulb, possibly representing wild onion, was also recovered through flotation. These findings suggest that significant archeological deposits important to understanding the Late Archaic to early Late Prehistoric period have been preserved at 41BP595

Archeological Investigations at the Santa Maria Creek Site (41CW104) Caldwell County, Texas

The excavations by Atkins at the Santa Maria Creek site (41CW104) described in the following report have succeeded in bringing together a myriad of information regarding aboriginal occupations in eastern Central Texas at the dawn of the Historic period. The analysis of the materials recovered from National Register of Historic Places testing and data recovery has demonstrated that even a site buried in sandy, bioturbated sediments can still significantly add to the archeological record. This becomes even more important for areas such as Caldwell County, Texas, which have witnessed few such investigations. The report utilized a wide array of analytical techniques to unravel the site, including extensive ethnohistorical research, artifact analysis, special studies, and experimental archeology

Volume 03

Introduction from Dean Dr. Charles Ross Little Shop of Horrors by Longwood Theater Department Who Has the Hottest Hotsauce in Farmville: A Quantitative Comparison of Sauces from Local Restaurants by Cheryl Peck and Charles Hoever Precipitation Effects on the Growth of White Oaks and Virginia Pines on the Mt. Vernon Plantation by Brittany Anderson Design and Synthesis of Novel Ion Binding Molecules for Self-Assembly and Sensing Applications by J. Ervin Sheldon A Statistical Analysis of Algorithms for Playing SameGame by Richard Hayden Intersecting Cylinders at Arbitrary Angles by Yuri Calustro Putting a Foot in the Revolving Door: Strategies for Reducing Teacher Attrition by Candice Fleming and Rebecca Franklin The Effect of Presentation on Spanish Vocabulary Recall by Ashley Yocum How Attractive Are You? Individuals Sensitivity to Number of Sexual Partners by Danielle M. Jagoda and Cristina M. Valdivieso Culturally Relevant Practices for Teaching Code-Switching to African-American Students in Kindergarten Classrooms by Jameka Jones Two Poems – “Dust” and “Check Out Girls” by Amy Ellis Three Poems – “Rosewood Massacre, 1923”, “Jarring” and “Reverence” by Ashley Maser Three Poems – “Dirty Thunderstorm”, “Summer Hide \u27N Seek Car Tag” and “Bliss” by Erikk Shupp Analysis of the Wilton Diptych by Jamie Yurasits “Nod”, “Corriline” “Flying” “Familiar” by Alexander Leonhart Papermaking by Kenny Wolfe and Sally Meadows “Plant” by J. Haley, Amy Jackson, and Morgan Howard “Dare to Dart” by Amy Jackson, Adrienne Heinbaugh and Melissa Dorton Untitled Photographs by Hopson “Lockets” by Morgan Howard Graphic Designs and Untitled Photographs by Ciarra Stalker Selections from a Senior Recital by Joshua Davi

Replicating phages in the epidermal mucosa of the eel (anguilla anguilla)

n this work, we used the eel (Anguilla anguilla) as an animal model to test the hypothesis of Barr et al. (2013a,b) about the putative role of the epidermal mucosa as a phage enrichment layer. To this end, we analyzed the microbial content of the skin mucus of wild and farmed eels by using a metagenomic approach. We found a great abundance of replicating phage genomes (concatemers) in all the samples. They were assembled in four complete genomes of three Myovirus and one Podovirus. We also found evidences that ΦKZ and Podovirus phages could be part of the resident microbiota associated to the eel mucosal surface and persist on them over the time. Moreover, the viral abundance estimated by epiflorescent counts and by metagenomic recruitment from eel mucosa was higher than that of the surrounding water. Taken together, our results support the hypothesis that claims a possible role of phages in the animal mucus as agents controlling bacterial populations, including pathogenic species, providing a kind of innate immunity

Logic integration of mRNA signals by an RNAi-based molecular computer

Synthetic in vivo molecular ‘computers’ could rewire biological processes by establishing programmable, non-native pathways between molecular signals and biological responses. Multiple molecular computer prototypes have been shown to work in simple buffered solutions. Many of those prototypes were made of DNA strands and performed computations using cycles of annealing-digestion or strand displacement. We have previously introduced RNA interference (RNAi)-based computing as a way of implementing complex molecular logic in vivo. Because it also relies on nucleic acids for its operation, RNAi computing could benefit from the tools developed for DNA systems. However, these tools must be harnessed to produce bioactive components and be adapted for harsh operating environments that reflect in vivo conditions. In a step toward this goal, we report the construction and implementation of biosensors that ‘transduce’ mRNA levels into bioactive, small interfering RNA molecules via RNA strand exchange in a cell-free Drosophila embryo lysate, a step beyond simple buffered environments. We further integrate the sensors with our RNAi ‘computational’ module to evaluate two-input logic functions on mRNA concentrations. Our results show how RNA strand exchange can expand the utility of RNAi computing and point toward the possibility of using strand exchange in a native biological setting