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"Himalayas"
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The flying mountain
\"The Flying Mountain tells the story of two brothers who leave the southwest coast of Ireland on an expedition to Transhimalaya, the land of Kham, and the mountains of eastern Tibet--looking for an untamed, unnamed mountain that represents perhaps the last blank spot on the map. As they advance toward their goal, the brothers find their past, and their rivalry, inescapable, inflecting every encounter and decision as they are drawn farther and farther from the world they once knew\"--Jacket.
Book
Himalayan perceptions
In the 1970s and 1980s many institutions, agencies and scholars believed that the Himalayan region was facing severe environmental disaster, due primarily to rapid growth in population that has caused extensive deforestation, which in turn has led to massive landsliding and soil erosion. This series of assumptions was first challenged in the book: The Himalayan Dilemma (1989: Ives and Messerli, Routledge). Nevertheless, the environmental crisis paradigm still commands considerable support, including logging bans in the mountain watersheds of China, India, and Thailand, and is constantly being promoted by the news media. Himalayan Perceptions identifies the confusion of misunderstanding, vested interests, changing perceptions, and institutional unwillingness to base development policy on sound scientific knowledge. It analyzes the large amount of new research published since 1989 and totally refutes the entire construct. It examines recent social and economic developments in the region and identifies warfare, guerrilla activities, and widespread oppression of poor ethnic minorities as the primary cause for the instability that pervades the entire region. It is argued that the development controversy is further confounded by exaggerated reporting, even falsification, by news media, environmental publications, and agency reports alike.
Jack D. Ives is Senior Advisor on Sustainable Mountain Development at The United Nations University, Tokyo.
1. The Myth of Himalayan Environmental Degradation 2. The Himalayan Region: An Overview 3. Status of the Mountain Forests 4. Geomorphology of Agricultural Landscapes 5. Flooding in Bangladesh: Causes and Perceptions of Causes 6. Mountain Hazards 7. Development of Tourism and its Impacts 8. Conflict, Tension, and the Oppression of Mountain Peoples 9. Prospects for Future Development: Assets and Obstacles 10. What are the facts? Misleading Perceptions, Misconceptions, and Distortions 11. Conclusions: Redefining the Dilemma; is there a way out?
eBook
Origins and Migrations in the Extended Eastern Himalayas
Origins and migration are core elements in the histories, identities and stories of Tibeto-Burman-speaking populations in the extended eastern Himalayas. These essays explore theories of explaining origins and migration, methods for studying them and expressions of them in local cultures.
eBook
Fault activity, tectonic segmentation, and deformation pattern of the western Himalaya on Ma timescales inferred from landscape morphology
The location and magnitude of Himalayan tectonic activity has been debated for decades, and several aspects remain unknown. For instance, the spatial distribution of crustal shortening that ultimately sustains Himalayan topography and the activity of major fault zones remain unknown at Ma timescales. In this study, we address the spatial deformation pattern in the data-scarce western Himalaya. We calculated catchment averaged, normalized river-steepness indices of non-glaciated drainage basins with tributary catchment areas between 5 and 200 km2 (n = 2138). We analyzed the spatial distribution of the relative change of river steepness both along and across strike to gain information about the regional distribution of differential uplift pattern and relate this to the activity of distinctive fault segments. For our study area, we observe a positive correlation of averaged ksn values with long-term exhumation rates derived from previously published thermochronologic datasets combined with thermal modeling as well as with millennial timescale denudation rates based on cosmogenic nuclide dating. Our results indicate three tectono-geomorphic segments with distinctive landscape morphology, structural architecture, and fault geometry along the western Himalaya: Garhwal-Sutlej, Chamba, and Kashmir Himalaya (from east to west). Moreover, our data recognize distinctive fault segments showing varying thrust activity along strike of the Main Frontal Thrust, the Main Boundary Thrust, and in the vicinity of the steep topographic transition between the Lesser and Greater Himalaya. In this region, we relate out-of-sequence deformation along major basement thrust ramps, such as the Munsiari Thrust with deformation along a mid-crustal ramp along the basal decollement. We suggest that during the Quaternary, all major fault zones in the Western Himalaya experienced out-of-sequence faulting and have accommodated some portion of crustal shortening.
Journal Article
The Gaddi beyond pastoralism
The Gaddi of North India are agro-pastoralists who rear sheep and goats following a seasonal migration around the first Himalayan range. While studies on pastoralists have focused either on the pastoralists' adaptation to their physical environment or treated the environment from a symbolic perspective, this book offers a new, holistic perspective that analyzes the ways in which people \"make\" place. Based on extensive fieldwork, this book not only describes a contemporary understanding of the Gaddi's engagement with the environment but also analyzes religious practices and performances of social relations, as well as media practices and notions of aesthetics. Thereby, the landscape in which the Gaddi live is understood as a network of places that is constantly being built and rebuilt through these local practices. The book contributes to the growing interest in approaches of practice within environmental anthropology.
eBook
Conservation Landscapes and Human Well-Being
The Himalayas are said to be the youngest mountain ranges in the world. This book studies the well-being of the Eastern Himalayan forest dwellers in terms of their capabilities and functioning. Using Amartya Sen’s and Martha Nussbaum’s capabilities approach, it examines the educational and health opportunities and substantial freedoms afforded to farmers and pastoralists living and working in the Senchal and Singalila Protected Areas of North Bengal, India. It also discusses the challenges and potential of the Forest Rights Act as a well-being delivery mechanism. The book adopts a comparative narrative of socio-ecological information generated from interviews, ecological field methods, remote sensing and participatory rural appraisals to provide insight on human development in conservation contexts.
This volume will be of interest to students and researchers of conservation biology, development studies, socio-ecological systems studies, political ecology, human development index, ecological economics, environmental sociology and South Asian studies. It will also be useful to policy makers and NGOs in the conservation and livelihoods sector.
eBook
Monitoring climate change vulnerability in the Himalayas
Longitudinal assessment of climate vulnerability is essential for understanding the complex factors affecting how people experience and respond to climate change. We report on the first longitudinal assessment of climate vulnerability in the Himalayan region, exploring the evolving landscape, perceptions, and experiences of communities of climate change impacts, vulnerability, and adaptation in Kashmir over an 8-year period from 2017 to 2024. We provide the Himalayan Re-study Framework (HRF) to monitor, characterise, and conceptualise climate change in the Himalayas. Utilising mixed methods, we showcase how climate change is affecting social, economic, political, and environmental dimensions, examining how the impacts of climate change and vulnerability evolve over time, shaping and reshaping how climate risks are experienced and responded to by communities. Our analysis reveals a nuanced understanding of vulnerability, highlighting the impact on communities’ livelihoods and water security, differential impacts on marginalised communities, and the gendered nature of climate change. We examine how certain sections of the population face marginalisation, discrimination, and racism, and how climate change exacerbates these challenges. Kashmir’s vulnerability to climate change extends beyond environmental factors, intertwining with culture, livelihoods, social dynamics, and politics. Climate change continues to compete for attention with immediate political and socio-economic challenges, highlighting the need for integrated approaches to address both environmental and societal issues in Kashmir.
Journal Article
Reconstruction of the late Miocene biogeographical history of tits and chickadees (Aves: Passeriformes: Paridae): A comparison between discrete area analyses and probabilistic diffusion approach
Aim: To infer the biogeographical history of the avian clade Paridae (tits and chickadees) using methods based on discrete, a priori defined, geographical areas and a method that uses actual species distributions and a relaxed random walk in a Bayesian context. We compared their relative performances and how different area codings influenced the outcome in the discrete analyses. Location: Holarctic, Indomalaya, Afrotropics. Methods: The phylogeny was reconstructed using Bayesian inference and time-calibrated using published substitution rates and a fossil calibration point. The discrete analyses were performed in BioGeoBEARS. For the probabilistic diffusion analysis, the extant distribution of each species was shaped as polygons in Google Earth and analysed together with the posterior distribution of time-calibrated trees in BEAST. The diffusion process was modelled as a relaxed random walk. Results: The earliest divergences occurred between 10 and 15 Ma and the probabilistic diffusion analysis, and one of the discrete analyses indicated that the parids originated in the mountains of East Asia (Sino-Himalayas). Due to a different categorization of the geographical areas, a partly overlapping but conceptually different region was indicated in the second discrete analysis. Between 8 and 5 Ma parids started to spread from the Sino-Himalayas and became established in North America and Africa before 5 Ma. However, the inferred dispersal patterns differed between the analyses. Main conclusion: Overall, the analyses were congruent and together with the divergence time analysis provided a solid biogeographical history for the parids. However, some discrepancies were evident and the diffusion analysis often indicated a more stationary pattern in the Sino-Himalayas in contrast to the more widespread ancestors indicated by the discrete analyses. The discrete analyses were influenced both by the biogeographical model and delimitation of the a priori areas.
Journal Article
IoT-Based Geotechnical Monitoring of Unstable Slopes for Landslide Early Warning in the Darjeeling Himalayas
In hilly areas across the world, landslides have been an increasing menace, causing loss of lives and properties. The damages instigated by landslides in the recent past call for attention from authorities for disaster risk reduction measures. Development of an effective landslide early warning system (LEWS) is an important risk reduction approach by which the authorities and public in general can be presaged about future landslide events. The Indian Himalayas are among the most landslide-prone areas in the world, and attempts have been made to determine the rainfall thresholds for possible occurrence of landslides in the region. The established thresholds proved to be effective in predicting most of the landslide events and the major drawback observed is the increased number of false alarms. For an LEWS to be successfully operational, it is obligatory to reduce the number of false alarms using physical monitoring. Therefore, to improve the efficiency of the LEWS and to make the thresholds serviceable, the slopes are monitored using a sensor network. In this study, micro-electro-mechanical systems (MEMS)-based tilt sensors and volumetric water content sensors were used to monitor the active slopes in Chibo, in the Darjeeling Himalayas. The Internet of Things (IoT)-based network uses wireless modules for communication between individual sensors to the data logger and from the data logger to an internet database. The slopes are on the banks of mountain rivulets (jhoras) known as the sinking zones of Kalimpong. The locality is highly affected by surface displacements in the monsoon season due to incessant rains and improper drainage. Real-time field monitoring for the study area is being conducted for the first time to evaluate the applicability of tilt sensors in the region. The sensors are embedded within the soil to measure the tilting angles and moisture content at shallow depths. The slopes were monitored continuously during three monsoon seasons (2017–2019), and the data from the sensors were compared with the field observations and rainfall data for the evaluation. The relationship between change in tilt rate, volumetric water content, and rainfall are explored in the study, and the records prove the significance of considering long-term rainfall conditions rather than immediate rainfall events in developing rainfall thresholds for the region.
Journal Article