DRUM - Digital Repository at the University of Maryland

DRUM collects, preserves, and provides public access to the scholarly output of the university. Faculty and researchers can upload research products for rapid dissemination, global visibility and impact, and long-term preservation.

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The University of Maryland Equitable Access Policy provides equitable, open access to the University's research and scholarship. Faculty can learn more about what is covered by the policy and how to deposit on the policy website.

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DRUM includes all UMD theses and dissertations from 2003 forward.

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Archaeology in Annapolis

Barrio de Langley Park

Recent Submissions

Greenhouse Gas Inventory and Analysis for the United States: 1990-2024
(2026-04-15) Desai, Mausami; Camobreco, Vincent; Hedger, Toby; Irving, William; Rewcastle, Kenna; Steller, John; Barbieri, Lindsay; Weitz, Melissa; Murumkar, Tanvi; Fawcett, Allen; Lou, Jiehong; Cui, Ryna; Hultman, Nate
The Greenhouse Gas Inventory and Analysis for the United States (GHGIA) presents comprehensive, economy-wide greenhouse gas (GHG) sources and sinks estimates covering the United States. The data are presented for each year from 1990 through 2024, the latter being the most recent year when comprehensive data are available for the entire economy. Along with detailed results for single years and analyses of trends over time, this report presents methodological descriptions, data inputs, a characterization of uncertainties, recalculations, and improvements. The report adheres to good practice and methodological guidance as defined by the Intergovernmental Panel on Climate Change (IPCC) and to international standards for transparency, accuracy, completeness, comparability, and consistency. In 2024, total gross emissions were 6,205.3 million metric tons of carbon dioxide equivalent (MMT CO2 Eq.). Gross emissions in 2024 decreased by 5.1 percent relative to 1990 and were 0.04 percent higher than gross emissions in 2023. The decreasing trend from around 2005 is associated primarily with a decrease in CO2 emissions from fossil fuel combustion. Total net U.S. GHG emissions in 2024, including emissions and sinks from the land use, land-use change and forestry (LULUCF) sector, were 5,298.8 MMT CO2 Eq. This net emissions estimate is a 3.8 percent decrease from 1990 and a 0.2 percent annual increase from 2023. Sequestration of CO2 in the LULUCF sector offset the equivalent of 14.6 percent of gross emissions in 2024 (906.5 MMT CO2 Eq.).This report has been developed in a manner that supports comparability and continuity with past official U.S. inventories prepared by the U.S. Environmental Protection Agency. The GHGIA is not an official national inventory on behalf of the United States, nor is it an official submission in the context of the United Nations Framework Convention on Climate Change (UNFCCC).
Exploring Innovative Funding Options for The MARC Growth and Transformation Plan
(2026-05-15) Mears, Daniel; Brown, Paul
This report explores innovative funding strategies to support the Maryland Transit Administration’s (MTA) Maryland Area Regional Commuter (MARC) Growth and Transformation Plan, which outlines major investments to expand capacity, improve reliability, and strengthen regional rail connections. With traditional transportation revenues under strain, new and sustainable funding approaches are needed. The study analyzes the MARC Plan’s financial requirements, reviews existing research on transportation finance, and conducts case studies of Connecticut, Massachusetts, Virginia, and Utah, states that have developed stable and innovative rail transit systems. Through document review, data analysis, and expert interviews, the project identifies practical funding mechanisms that can be adapted for Maryland. These findings inform a set of recommendations to help MTA advance the MARC Growth and Transformation Plan and build a more sustainable financial framework for Maryland’s commuter rail system.
What’s That: Whole Object and Taxonomic Constraint in Children with Autism
(2026-05) Eisenfeld, Hannah; Newman, Rochelle
This paper focuses on determining how children with autism (ASD) approach word learning. Prior research has determined that non-autistic (NA) children exhibit word learning biases to assist with paring down potential or unlikely referent alternatives to effectively learn new word meanings. Some children with autism exhibit some of these word learning biases, but it is unclear if they exhibit two specific biases: the taxonomic and whole object biases. This project aims to investigate if children with ASD exhibit these biases, and if children with ASD perform similarly on the experimental tasks to their NA peers. 22 NA children ages 2-10 years participated in an analysis comparing their performance to that of children in previous studies and 11 ASD-NA pairs were matched for receptive language. Results suggest that children with ASD exhibit a taxonomic bias regardless of a label being presented or not, and that they exhibit a whole object bias. No statistically significant differences between groups arose for the taxonomic or whole object tasks, suggesting that children with ASD perform similarly to their NA peers. We anticipate this research will enhance our knowledge of how children with autism engage in the word learning process.
Subcellular Compartmentalization of Human Ribosomal Protein S6 Turnover
(2026) Neuman, Robert; Apau, Daniel; Liu, Annie; Zeidan, Quira; Zeidan, Quira
The ribosome assembles in the nucleolus of the cellular nucleus. The mechanism of Ribosomal Protein S6 (RPS6) is well understood in the context of the ribosome; however, its function outside the translational machinery remains unknown. Here, we use a nuclear export sequence (NES) to determine the presence and function of RPS6 in the cytoplasm, outside the ribosome. Using restriction ligation cloning and subsequent site-directed mutagenesis, plasmid vectors were constructed that encode a fusion protein of RPS6, pmTurquoise (a Green Fluorescent Protein derivative), and NES. Control plasmids were constructed with and without RPS6 and NES. Western blot analysis confirmed expression of plasmid constructs in human embryonic kidney cells (HEK293), with RPS6-NES-pmTurq detected at 48 hours post-transfection. Nuclear-cytoplasmic preparations were obtained from the tranfected HEK293 cells, which confirmed the presence of both RPS6-mTurq and RPS6-mTurq-NES, in both the nuclear and cytoplasmic fractions, suggesting that the amount of transfected plasmid, and therefore protein overexpressed, overwhelmed the transport machinery. However, RPS6-pmTurq was detectable by Western blot with and without an NES, indicating a stable protein in both cellular compartments. Future experiments will aim to optimize transfection conditions for construct expression and immunopurification, and, together with fluorescent microscopy, confirm the presence and localization of the fusion proteins, their protein interactions, and their post-translational modifications. These studies aim to determine the cytosolic events that contribute to RPS6's extra-ribosomal functions, stability, and transport before its incorporation into the ribosome.
ScholComm Classroom
(2026) Wicks, Madison; Wilson, Michelle