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- All Subjects: Climate Change
- Creators: Chhetri, Netra
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.
Global environmental change and sustainability science increasingly recognize the need to address the consequences of changes taking place in the structure and function of the biosphere. These changes raise questions such as: Who and what are vulnerable to the multiple environmental changes underway, and where? Research demonstrates that vulnerability is registered not by exposure to hazards (perturbations and stresses) alone but also resides in the sensitivity and resilience of the system experiencing such hazards. This recognition requires revisions and enlargements in the basic design of vulnerability assessments, including the capacity to treat coupled human–environment systems and those linkages within and without the systems that affect their vulnerability. A vulnerability framework for the assessment of coupled human–environment systems is presented.
Research on global environmental change has significantly improved our understanding of the structure and function of the biosphere and the human impress on both (1). The emergence of “sustainability science” (2–4) builds toward an understanding of the human–environment condition with the dual objectives of meeting the needs of society while sustaining the life support systems of the planet. These objectives, in turn, require improved dialogue between science and decision making (5–8). The vulnerability of coupled human–environment systems is one of the central elements of this dialogue and sustainability research (6, 9–11). It directs attention to such questions as: Who and what are vulnerable to the multiple environmental and human changes underway, and where? How are these changes and their consequences attenuated or amplified by different human and environmental conditions? What can be done to reduce vulnerability to change? How may more resilient and adaptive communities and societies be built?
Answers to these and related questions require conceptual frameworks that account for the vulnerability of coupled human–environment systems with diverse and complex linkages. Various expert communities have made considerable progress in pointing the way toward the design of these frameworks (10, 11). These advances are briefly reviewed here and, drawing on them, we present a conceptual framework of vulnerability developed by the Research and Assessment Systems for Sustainability Program (http://sust.harvard.edu) that produced the set of works in this Special Feature of PNAS. The framework aims to make vulnerability analysis consistent with the concerns of sustainability and global environmental change science. The case study by Turner et al. (12) in this issue of PNAS illustrates how the framework informs vulnerability assessments.