Political-Economic Indicators for Self-Sustainability in Greenland

Wennecke, Christian

doi:10.22584/nr45.2017.006

Cited by 2 publications

(2 citation statements)

References 4 publications

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“…Although one can easily see changes in RBC sizes under a microscope at very high (nonphysiological, 20% v/v or above) concentrations of ethanol, there have been multiple references showing elevation, − reduction, , or no change , in RBC volume upon ethanol exposure at physiological concentrations. The main reason for this ambiguity has been the limitation of the techniques used, − hence the long-standing nature of the problem. Our work quantitively shows these changes in RBC physiology at physiologically relevant ethanol concentrations.…”

Section: Results and Discussionmentioning

confidence: 99%

Measurement of Alcohol-Dependent Physiological Changes in Red Blood Cells Using Resistive Pulse Sensing

et al. 2020

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Alcohol exposure has been postulated to adversely affect the physiology and function of the red blood cells (RBCs). The global pervasiveness of alcohol abuse, causing health issues and social problems, makes it imperative to resolve the physiological effects of alcohol on RBC physiology. Alcohol consumed recreationally or otherwise almost immediately alters cell physiology in ways that is subtle and still unresolved. In this paper, we introduce a high-resolution device for quantitative electrofluidic measurement of changes in RBC volume upon alcohol exposure. We present an exhaustive calibration of our device using model cells to measure and resolve volume changes down to 0.6 fL. We find an RBC shrinkage of 5.3% at 0.125% ethanol (the legal limit in the United States) and a shrinkage of 18.5% at 0.5% ethanol (the lethal limit) exposure. Further, we also measure the time dependence of cell volume shrinkage (upon alcohol exposure) and then recovery (upon alcohol removal) to quantify shrinkage and recovery of RBC volumes. This work presents the first direct quantification of temporal and concentration-dependent changes in red blood cell volume upon ethanol exposure. Our device presents a universally applicable highresolution and high-throughput platform to measure changes in cell physiology under native and diseased conditions. KEYWORDS: size of red blood cells, alcohol-induced shrinkage of biological cells, resistive pulse technique, micropores, electrofluidic devices ■ SIGNIFICANCE STATEMENTThe physiological changes in red blood cells caused by alcohol are not well understood, specifically the changes in cell volume that directly affect the oxygen carrying function of RBCs. Most of these changes are subtle and difficult to quantify. In the last decade, multiple methods have been used to measure this subtle change in cell size caused by alcohol exposure. The focus of this work is an electrofluidic sensing approach that accurately measures changes in cell volume of a cell population at single-cell resolution. The approach has potential to rapidly provide changes in cell volumes in cases like chemical exposure, malaria infection, large population sickle-cell disease screening, and quantifying cell lysis in a label-free, low-cost, and microscopy-independent way.

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Section: Results and Discussionmentioning

confidence: 99%

Measurement of Alcohol-Dependent Physiological Changes in Red Blood Cells Using Resistive Pulse Sensing

et al. 2020

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“…According to Wennecke (2017), the 'self-sustaining economy' concept requires an aspect of sustainability as well as independence, which for Greenland comes down to 1) termination of the block grant (independence), 2) devolution of all political powers (independence), 3) solid public finances (sustainability), and 4) living standards comparable to those of Denmark (sustainability). With this interpretation of 'self-sustaining economy', there is an even greater need for economic development in Greenland than simply reducing the size of the block grant in relation to GDP.…”

Section: Self-sustaining Economymentioning

confidence: 99%

Motivations for Indigenous island entrepreneurship: Entrepreneurs and behavioral economics in Greenland

Wennecke¹,

Jacobsen²,

Ren³

2019

ISJ

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Greenland continues to undergo decolonization, the ultimate political ambition being a 'self-sustaining economy' and political independence from Denmark. Drawing on a recent survey in combination with ethnographic fieldwork, this paper explores the connection between political independence and entrepreneurial activities in Greenland. While entrepreneurs are increasingly expected to play a central role in fostering economic change, we are curious about what motivates them, and especially whether their motivations are related to the struggle for national independence. While entrepreneurship generally seems primarily motivated by a desire for personal autonomy, entrepreneurship in the context of an Indigenous island community seems driven by certain communal values, such as supporting the local community, cultural pride, family, and place. Our research supports the notion that entrepreneurship is motivated by non-pecuniary values, and we find entrepreneurship to result from a mesh of intertwined motivations. While we were unable to identify a direct link between the ambition for national autonomy and entrepreneurship, the paper contributes to the understanding of entrepreneurship as an instrument for decolonization drawing on a range of empirical cases and a multidisciplinary approach.

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Political-Economic Indicators for Self-Sustainability in Greenland

Cited by 2 publications

References 4 publications

Measurement of Alcohol-Dependent Physiological Changes in Red Blood Cells Using Resistive Pulse Sensing

Measurement of Alcohol-Dependent Physiological Changes in Red Blood Cells Using Resistive Pulse Sensing

Motivations for Indigenous island entrepreneurship: Entrepreneurs and behavioral economics in Greenland

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