18 research outputs found
Bolivia and the paradoxes of democratic consolidation
In Bolivia from the 1990s on, two presidents were ousted by popular protests, and protests were rampant. The protests expressed a growing discontent not only with successive administrations and their policies but with politics itself. The polity failed to built trust in democracy, ignored or repressed protests, and thus contributed to a process of democratic "deconsolidation." The main factors were corruption and the reluctance of the traditional political parties to discuss the neoliberal economic model. As a result, the current administration of Evo Morales faces two challenges: to change economic policies and to repair the support for democracy
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Podcast Interview Transcript - Beyond the Manuscript post-study interview
In each volume of the Journal, the editors select one article for our Beyond the Manuscript post-study interview with the authors. Beyond the Manuscript provides the authors the opportunity to tell listeners what they would want to know about the project beyond what went into the final manuscript. The associate editors who handled the articles conduct our Beyond the Manuscript interviews.
Suzanne Grieb:
My name is Suzanne Grieb. I鈥檓 a research fellow at the Center for Child and Community Health Research at the Johns Hopkins School and Medicine and I鈥檓 an associate editor with the journal.
Today we will be discussing your paper Storytelling and Community Intervention Research: Lessons Learned from the Walk Your Heart to Health Intervention published in the Works in Progress in Lessons Learned section of the journal. So welcome
Disparate Antibiotic Resistance Gene Quantities Revealed across 4 Major Cities in California: A Survey in Drinking Water, Air, and Soil at 24 Public Parks
Widespread prevalence of multidrug and pandrug-resistant bacteria has prompted substantial concern over the global dissemination of antibiotic resistance genes (ARGs). Environmental compartments can behave as genetic reservoirs and hotspots, wherein resistance genes can accumulate and be laterally transferred to clinically relevant pathogens. In this work, we explore the ARG copy quantities in three environmental media distributed across four cities in California and demonstrate that there exist city-to-city disparities in soil and drinking water ARGs. Statistically significant differences in ARGs were identified in soil, where differences in blaSHV gene copies were the most striking; the highest copy numbers were observed in Bakersfield (6.0 脳 10-2 copies/16S-rRNA gene copies and 2.6 脳 106 copies/g of soil), followed by San Diego (1.8 脳 10-3 copies/16S-rRNA gene copies and 3.0 脳 104 copies/g of soil), Fresno (1.8 脳 10-5 copies/16S-rRNA gene copies and 8.5 脳 102 copies/g of soil), and Los Angeles (5.8 脳 10-6 copies/16S-rRNA gene copies and 5.6 脳 102 copies/g of soil). In addition, ARG copy numbers in the air, water, and soil of each city are contextualized in relation to globally reported quantities and illustrate that individual genes are not necessarily predictors for the environmental resistome as a whole
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Disparate Antibiotic Resistance Gene Quantities Revealed across 4 Major Cities in California: A Survey in Drinking Water, Air, and Soil at 24 Public Parks.
Widespread prevalence of multidrug and pandrug-resistant bacteria has prompted substantial concern over the global dissemination of antibiotic resistance genes (ARGs). Environmental compartments can behave as genetic reservoirs and hotspots, wherein resistance genes can accumulate and be laterally transferred to clinically relevant pathogens. In this work, we explore the ARG copy quantities in three environmental media distributed across four cities in California and demonstrate that there exist city-to-city disparities in soil and drinking water ARGs. Statistically significant differences in ARGs were identified in soil, where differences in blaSHV gene copies were the most striking; the highest copy numbers were observed in Bakersfield (6.0 脳 10-2 copies/16S-rRNA gene copies and 2.6 脳 106 copies/g of soil), followed by San Diego (1.8 脳 10-3 copies/16S-rRNA gene copies and 3.0 脳 104 copies/g of soil), Fresno (1.8 脳 10-5 copies/16S-rRNA gene copies and 8.5 脳 102 copies/g of soil), and Los Angeles (5.8 脳 10-6 copies/16S-rRNA gene copies and 5.6 脳 102 copies/g of soil). In addition, ARG copy numbers in the air, water, and soil of each city are contextualized in relation to globally reported quantities and illustrate that individual genes are not necessarily predictors for the environmental resistome as a whole