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- All Subjects: Nepal
- All Subjects: Indigenous
- Creators: Chhetri, Netra
Description
This dissertation explores Brain Drain and Brain Circulation phenomena at Taos Pueblo, an Indigenous community located in northern New Mexico, USA. The study examines the push and pull factors that influence the migration of educated Taos Pueblo tribal members. The information contained in this dissertation was derived from a study that was completed from 2016-2017 in Taos Pueblo. It has become evident that Indigenous communities worldwide are currently experiencing massive migration away from reservations, rural, and communities of origin and towards urbanized centers. The research conducted in this dissertation was focused on both patterns and trends and possible distinct reasons for intellectual migration, especially in Indigenous communities. This dissertation is separated into three sections. The first part is a journal article that focused on Taos Pueblo intellectual migration patterns. The article draws from studies literature review, fieldwork methodology, methods, data and findings. The second part is a book chapter that centers on a literature review and theory development. The book chapter includes a discussion on the study findings and contains broad recommendations for addressing brain drain and promoting brain circulation in Taos Pueblo. The third and final section is a Policy Paper is aimed at two audiences, the first is Indigenous Leadership and secondly, college age students who are interested in working with Indigenous Communities. The policy brief provides solutions and recommendations that were gathered from secondary literature and from the data gathered during the various interviews that were conducted during the research period.
ContributorsMontoya, Amanda Jean (Author) / Sumida Huaman, Elizabeth (Thesis advisor) / Chhetri, Netra (Thesis advisor) / Harjo, Laura (Committee member) / Arizona State University (Publisher)
Created2018
Description
In Nepal, a viable solution for environmental management, food and water security is the production of biochar, a carbon material made of plants burned in low oxygen conditions. Currently, the biochar is manufactured into charcoal briquettes and sold on the market for energy usage, however this may not provide the best value for community members who make less than a dollar a day and sell the biochar for as little as 16 cents per kilogram. This thesis seeks to improve the price of biochar and help their livelihoods as well as explore innovative solutions. One way to improve biochar while addressing water security problems is to create activated carbon, which uses its heightened porosity to adsorb contaminants from water or air. Activated carbon is also worth 100x the price of biochar. This thesis evaluates the mass content of biochar produced in Nepal, comparing it to literature values, and performed gravimetric and thermogravimetric analysis, comparing it to Activated Charcoal. Analysis of the biochar system used in Nepal reveals that the byproduct of biochar, biofuels, is highly underutilized. The higher heating value of biochar is 17.95 MJ/kg, which is much lower than other charcoals which burn around 30 MJ/kg. Low volatile content, less than 5% in biochar, provides a smokeless briquette, which is favorable on the market, however low heating value and misutilizations of biofuels in the solution indicate that creating a briquette is not the best use for biochar. Ash content is really high in this biochar, averaging around 12% and it may be due to the feedstock, a composite between Mikania and Lantana, which have 5.23% and 10.77% ash content respectively. This does not necessarily indicate a poor quality biochar, since ash values can vary widely between charcoals. Producing activated charcoal from this biochar is a favored solution; it will increase the price of the biochar, provide water security solutions, and be an appropriate process for this biochar, where heating value and underutilization of biofuel byproducts pose a problem.
ContributorsCayer, Joelle Marie Caroline (Author) / Chhetri, Netra (Thesis director) / Henderson, Mark (Committee member) / Deng, Shuguang (Committee member) / Chemical Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
Conservation is a complicated entity consisting of a multitude of professional fields including social issues, cultural issues, and physical science. This thesis evaluates the positive and negative aspects of two broad types of conservation: top down fortress conservation and bottom up community-based conservation. Fortress conservation has many negative aspects, such as displacing human communities and preventing utilization of resources. However, it also has positive aspects, such as preventing the destruction of delicate ecosystems and slowing down extinctions. Community-based conservation is more inclusive and focuses on including the indigenous populations located within the proposed conservation site in the decision-making process. Its negatives include having an anthropocentric goal instead of valuing nature's intrinsic values. Understanding the differences inherent in these two methods is necessary in order to implement a conservation network with the highest chance for success.
ContributorsFink, Laurel Berylline (Author) / Smith, Andrew (Thesis director) / Collins, James (Committee member) / Minteer, Ben (Committee member) / Barrett, The Honors College (Contributor) / School of Life Sciences (Contributor)
Created2014-05
Description
After visiting Nepal and seeing the problem of potable drinking water, there needed to be a solution to purify it. Simultaneously, local national forests have been overrun with two invasive plant species: Mikania micrantha and Lantana camara. Both a very fast-growing species and can be turned into biochar. If the resulting is made through an effective process, then the community would be able to work less making each batch of biochar and make more money per batch, whereby the market already exists. The community could grow their profits even further by activating the created charcoal, which fetches an even better price. Most Importantly, among other important uses, the activated charcoal could also be used in clean drinking water systems. The prospect of using activated charcoal as water purifying agents can be tested in a future design of experiments. This design of experiments would assess the effectiveness of the activated charcoal, to determine which pore size is the most cost effective at filtering out pollutants. This thesis focuses on researching different types of biochar kilns, clean drinking water systems, and the use of charcoal in clean drinking water systems.
ContributorsBarron, Timothy (Author) / Chhetri, Netra (Thesis director) / Henderson, Mark (Committee member) / Engineering Programs (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
There is an increasing need to understand and develop clean cooking technologies in low- and middle-income countries (LMICs). The provision of clean energy where modern energy is not available is important in advancing the 17 sustainable development goals as set by the United Nations. Green charcoal is a cooking fuel technology made from ground and compressed biochar, an organic material made from heating a feedstock (biomass, forest residues, agriculture waste, invasive species, etc.) in an oxygen deprived environment to high temperatures. Green charcoal behaves similarly to wood charcoal or coal but is different from these energy products in that it is produced from biomass, not from wood or fossil fuels. Green charcoal has gained prominence as a cooking fuel technology in South-East Asia recently. Within the context of Nepal, green charcoal is currently being produced using lantana camara, an invasive species in Nepal, as a feedstock in order to commoditize the otherwise destructive plant. The purpose of this study was to understand the innovation ecosystem of green charcoal within the context of Nepal’s renewable energy sector. An innovation ecosystem is all of the actors, users and conditions that contribute to the success of a particular method of value creation. Through a series of field interviews, it was determined that the main actors of the green charcoal innovation ecosystem are forest resources governance agencies, biochar producers, boundary organizations, briquette producers, distributors/vendors, the political economy of energy, and the food culture of individuals. The end user (user segment) of this innovation ecosystem is restaurants. Each actor was further analyzed based on the Ecosystem Pie Model methodology as created by Talmar, et al. using the actor’s individual resources, activities, value addition, value capture, dependence on green charcoal and the associated risk as the building blocks for analysis. Based on ecosystem analysis, suggestions were made on how to strengthen the green charcoal innovation ecosystem in Nepal’s renewable energy sector based on actor-actor and actor-green charcoal interactions, associated risks and dependence, and existing knowledge and technology gaps. It was determined that simply deploying a clean cooking technology does not guarantee success of the technology. Rather, there are a multitude of factors that contribute to the success of the clean cooking technology that deserve equal amounts of attention in order to successfully implement the technology.
ContributorsDieu, Megan (Author) / Chhetri, Netra (Thesis director) / Henderson, Mark (Committee member) / Chemical Engineering Program (Contributor, Contributor) / School of Sustainability (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
The most recent decision of the 2012 Conference of the Parties (CoP) to the United Nations Framework Convention on Climate Change (UNFCCC) recognizes that in order to create climate policies that respond to the different needs of men and women a more balanced representation of women from developed and developing countries is needed. National Adaptation Programmes of Action (NAPAs) provide a process for Least Developed Countries (LDCs) to “identify priority activities that respond to their urgent and immediate needs to respond to impending threats from climate change.” Since 1997, the United Nations has agreed to gender mainstreaming- a globally accepted strategy for promoting gender equality by ensuring that gender perspectives and attention to the goal of gender equality are central to all activities in the all UN systems.
Due to the gender division of labor climate change will affect men and women differently. Policies and programs that do not take into account the needs and capacities of both men and women will fail to be effective and may worsen preexisting conditions that historically favor men. My research investigates the UN’s commitment towards gender mainstreaming. More specifically my objective is to understand how and to what extent the NAPAs from 49 countries integrate a gender dimension into their national climate adaptation policy. For the purpose of this research, I consider three interrelated issues: whether gender-specific needs and vulnerabilities were identified by the NAPA; if these needs and vulnerabilities were addressed by proposed adaptation projects; and in what forms women participated in the formulation of the NAPA. The scope of this research begins with an overview assessment of 49 NAPAs followed by a comparative assessment of NAPAs from four countries- Afghanistan, Bangladesh, Maldives, and Niger, and an in-depth analysis of Nepal’s NAPA, which incorporates field study. Nepal was chosen as a focus country due to its identification as being both inclusive and gender sensitive.
The method of inquiry consists of both quantitative and qualitative analysis, utilizing the quantitative measures of HDI and GII and the qualitative methods of content analysis and case study. The findings suggest that the response to the gender dimensions of climate change found in adaptation policies vary widely among the LDCs and the level of response is dependent upon social, cultural, economic, and political contexts within each LDC. Additionally, I find that gender mainstreaming techniques have not been fully integrated into the NAPA policy and processes, and have not been effective at promoting gender equality through adaptation strategies. Recommendations are provided in order to help mainstream gender in NAPAs as they continue to be developed, revised, and implemented.
Due to the gender division of labor climate change will affect men and women differently. Policies and programs that do not take into account the needs and capacities of both men and women will fail to be effective and may worsen preexisting conditions that historically favor men. My research investigates the UN’s commitment towards gender mainstreaming. More specifically my objective is to understand how and to what extent the NAPAs from 49 countries integrate a gender dimension into their national climate adaptation policy. For the purpose of this research, I consider three interrelated issues: whether gender-specific needs and vulnerabilities were identified by the NAPA; if these needs and vulnerabilities were addressed by proposed adaptation projects; and in what forms women participated in the formulation of the NAPA. The scope of this research begins with an overview assessment of 49 NAPAs followed by a comparative assessment of NAPAs from four countries- Afghanistan, Bangladesh, Maldives, and Niger, and an in-depth analysis of Nepal’s NAPA, which incorporates field study. Nepal was chosen as a focus country due to its identification as being both inclusive and gender sensitive.
The method of inquiry consists of both quantitative and qualitative analysis, utilizing the quantitative measures of HDI and GII and the qualitative methods of content analysis and case study. The findings suggest that the response to the gender dimensions of climate change found in adaptation policies vary widely among the LDCs and the level of response is dependent upon social, cultural, economic, and political contexts within each LDC. Additionally, I find that gender mainstreaming techniques have not been fully integrated into the NAPA policy and processes, and have not been effective at promoting gender equality through adaptation strategies. Recommendations are provided in order to help mainstream gender in NAPAs as they continue to be developed, revised, and implemented.
ContributorsAnagnostou, Sotiria (Author) / Chhetri, Netra (Thesis advisor) / Hackett, Edward (Committee member) / Hibner-Koblitz, Ann (Committee member) / Arizona State University (Publisher)
Created2015
Description
Farmer-Managed Irrigation Systems (FMIS) are community managed and operated irrigation systems, celebrated for their successful governance of water resources for many decades and in several countries. Nevertheless, in the face of climatic, political, and social change, their future is uncertain. This dissertation utilizes household adaptive capacity, socio-ecological system (SES) robustness, and the Institutional Analysis and Development framework to structure a multi-scalar and multi-stressor analysis of changes experienced in Nepal’s FMIS. The dissertation documents irrigators’ perception of environmental change, impacts, and response; diagnoses the multiple disturbances impacting the robustness of the FMIS; and analyzes changes in the FMIS as an institution over time, in an effort to understand the major drivers of SES change. Fifteen FMIS from five districts of Nepal were selected for the study. Data were collected through field observations, household surveys, key informant interviews, and focus group discussions. The status of the existing rules was compared with the data collected three decades ago in the Nepal Irrigation Institutions and Systems database. This study finds that FMIS’s robustness is threatened by uncertain water supply, inefficient infrastructure, scarcity of farm labor, weakening collective action, and natural disasters. Farm households, whose actions are necessary to sustain the management of FMIS, perceive environmental change differently according to their ecological region and position along the irrigation canal, leading to different adaptation strategies. Despite livelihood diversification, irrigators rely primarily on irrigation infrastructure management to respond to the impacts of environmental change. Institutional analysis demonstrates the evolution of FMIS in terms of working rules in the face of multiple stressors. In this study, payoff, information, and position rules have exhibited the most substantive change. However, boundary, choice, aggregation, and scope rules are less likely to change. The findings of this work point to the need for geographically differentiated adaptation support policies, and a need for closer attention to the dynamics of labor, environmental change, and institutional persistence in agriculture and irrigation sectors. FMIS being an exemplary institutional arrangement for the study of a SES, the research findings benefit similar institutions globally facing challenges to the sustainable governance of common pool resources.
ContributorsParajuli, Jagadish (Author) / Eakin, Hallie (Thesis advisor) / Chhetri, Netra (Thesis advisor) / Anderies, Marty (Committee member) / Arizona State University (Publisher)
Created2021