Maryland Shared Open Access Repository

MD-SOAR is a shared digital repository platform for twelve colleges and universities in Maryland. It is currently funded by the University System of Maryland and Affiliated Institutions (USMAI) Library Consortium (usmai.org) and other participating partner institutions. MD-SOAR is jointly governed by all participating libraries, who have agreed to share policies and practices that are necessary and appropriate for the shared platform. Within this broad framework, each library provides customized repository services and collections that meet local institutional needs. Please follow the links below to learn more about each library's repository services and collections.

 

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A Multilayered Approach to Public Diplomacy Evaluation: Pathways of Connection
(Wiley, 2017-10-26) Sevin, Efe; Towson University. Department of Mass Communication
This article presents a multilayered framework, called pathways of connection, as an approach to public diplomacy evaluation. It is well established both in the study and practice of public diplomacy that evaluation is a daunting task, mostly due to the complex and convoluted nature of the concept. To overcome such obstacles, the proposed framework first defines public diplomacy as a foreign policy tool. This definition is then used to state that the only success criterion for a public diplomacy project is its contribution to advancing national interests, regardless of the type of the project or the practitioner country. Second, three layers on which the outcomes of public diplomacy projects can be observed are described by incorporating mainstream international relations theories in the practice of public diplomacy. Third, pathways of connection are introduced to explain how the changes in target audiences contribute to the advancement of national interests.
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Capturing country images: a methodological approach
(Taylor & Francis, 2021-03-26) Sevin, Efe; Ayhan, Kadir Jun; Ingenhoff, Diana; Towson University. Department of Mass Communication
Country images have been notoriously difficult to capture and measure effectively. In this article, we propose a methodological approach that combines designed and found data to capture public attitudes. We demonstrate how a mixed-method design with survey data and digital data – namely tweets and Google Trends – make it possible to better capture what target audiences think about a country. We make the case for such a combination by highlighting three aspects of country images. First, to understand what different types of public think about a country, we need to listen to different voices, and complement standardised public opinion survey data with open questions and digital data. Second, social media platforms are invaluable data resources as well as outlets that people on social media turn to for news and information. Last, digital data is unique and powerful, but difficult to analyse and interpret to create value for developing strategic communication policies. Public opinion survey data can help structure digital data and link both outcomes with each other. We support our methodological arguments through an illustrative study of the South Korean country image. We conclude our article by presenting a roadmap for multi-method analysis.
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Stratospheric ozone trends and variability as seen by SCIAMACHY from 2002 to 2012
(EGU, 2014-01-24) Gebhardt, C.; Rozanov, A.; Hommel, R.; Weber, M.; Bovensmann, H.; Burrows, J. P.; Degenstein, D.; Froidevaux, L.; Thompson, Anne M.
Vertical profiles of the rate of linear change (trend) in the altitude range 15–50 km are determined from decadal O₃ time series obtained from SCIAMACHY¹/ENVISAT² measurements in limb-viewing geometry. The trends are calculated by using a multivariate linear regression. Seasonal variations, the quasi-biennial oscillation, signatures of the solar cycle and the El Niño–Southern Oscillation are accounted for in the regression. The time range of trend calculation is August 2002–April 2012. A focus for analysis are the zonal bands of 20° N–20° S (tropics), 60–50° N, and 50–60° S (midlatitudes). In the tropics, positive trends of up to 5% per decade between 20 and 30 km and negative trends of up to 10% per decade between 30 and 38 km are identified. Positive O₃ trends of around 5% per decade are found in the upper stratosphere in the tropics and at midlatitudes. Comparisons between SCIAMACHY and EOS MLS³ show reasonable agreement both in the tropics and at midlatitudes for most altitudes. In the tropics, measurements from OSIRIS4/Odin and SHADOZ⁵ are also analysed. These yield rates of linear change of O₃ similar to those from SCIAMACHY. However, the trends from SCIAMACHY near 34 km in the tropics are larger than MLS and OSIRIS by a factor of around two. ¹ SCanning Imaging Absorption spectroMeter for Atmospheric CHartographY ² European environmental research satellite ³ Earth Observing System (EOS) Microwave Limb Sounder (MLS) ⁴ Optical Spectrograph and InfraRed Imager System ⁵ Southern Hemisphere ADditional OZonesondes
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Oltmans Receives 2013 Yoram J. Kaufman Unselfish Cooperation in Research Award
(AGU, 2014-08-26) Thompson, Anne M.
Samuel “Sam” Oltmans, an AGU Fellow since 2007, was head of the National Oceanic and Atmospheric Administration's (NOAA) Global Monitoring Division Ozone and Water Vapor group for more than 30 years. He is currently a senior research scientist at the Cooperative Institute for Research in the Environmental Sciences (CIRES) of the University of Colorado at Boulder.
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Bollasina Receives 2013 James R. Holton Junior Scientist Award
(AGU, 2014-08-26) Thompson, Anne M.
Dr. Massimo Bollasina, a postdoctoral scholar at the National Oceanic and Atmospheric Administration's (NOAA) Geophysical Fluid Dynamics Lab (GFDL) through the Princeton University Atmospheric and Ocean Science Visitors Program, is this year's recipient of the James R. Holton Junior Scientist Award from AGU's Atmospheric Sciences section, named after a pioneer in atmospheric dynamics, the late James R. Holton of the University of Washington. Since its inception in 2004, the Holton Award has become a highly sought honor. It recognizes the achievements and potential of a junior AGU member whose Ph.D. was awarded within 3 years of the nomination deadline.