Introduction: Migration is the result of interplay of many factors, which guide the individual's decision to emigrate. Health workers tend to go where the working conditions are best. This study aims to identify the determinants and aspirants of nurse migration from Nepal. Methods: A descriptive cross sectional study was conducted using interview technique. A semi structured questionnaire was administered to all nurses working at a private hospital who met the inclusion criteria. Results: Majority of the participants were 20- 30 years old (93.20%), Hindu (86.5%), Chhetri (35.1%), unmarried (66.2%), had completed intermediate level (58.1%). Among the total respondents, 93.20% intended to migrate to abroad and more than half of the respondent (62.20%) preferred Australia as destination. The general factor provoking migration was bad nature of politician (98.6%) followed by political instability (90.5%) and non-availability of job (90.5%). The major working condition and social factors provoking migration were occupational security in other country (85.10%) and peer influence (91.9%) respectively. The reasons for migration as mentioned by respondents were education (59.50%) followed by better job opportunities (40.50%), better living standard (21.60%) and family and/or peer pressure (8.10%). Conclusions: The present study concluded that majority wanted to migrate and Australia was famous choices for nurses. Bad nature of politician, occupational security in other country and peer influence were factors for migration. The major purpose for migration was education.
Background: Adolescence is the period of physical and mental vulnerabilities where health risk behaviours are common due to their experimental nature and decision-making power. A higher prevalence of risky behaviours among adolescents has been reported globally which resulted in adverse effects on health and wellbeing. The present study aims to explore the overall prevalence of health risk behaviours among adolescents.
Methods: This study was conducted in 2014 using the WHO guideline of a Global School-Based Student Health Survey (GSHS) in the Pokhara valley of Nepal using a stratified clustered sampling technique. A descriptive study was conducted among 1190 adolescent school students of the valley. A self-administered questionnaire was used for data collection. The data were analysed using SPSS for descriptive statistics.
Results: The response rate of the participants was 95.35%. The prevalence of the current use of tobacco, alcohol, and drug was 15.9%, 17.1%, and 4.1% respectively. The mean age of first use of tobacco, alcohol, and drug was found 14.07±1.82, 14.19±1.78, and 15.52±1.61 years respectively. Two third (66.4%) of the participants reported having sexual intercourse one or two times within the last 12 months. Among them, 21.4 % reported no use of condoms during sexual intercourse. The mean age of first sexual intercourse was 14.69±1.56 years. Similarly, 42.2% reported being injured in the past 12 months of study.
Conclusions: The study shows a higher prevalence of health risk behaviours among adolescents. Tobacco, drug, alcohol use, and risky sexual activities were initiated at a younger age.
Keywords: Adolescent health; health risk behaviours; Nepal; substance abuse.
Introduction: Globally, iron deficiency anaemia is considered as a risk factor for maternal morbidity and mortality. It is estimated to cause 591,000 perinatal deaths and 115,000 maternal deaths annually. The World Health Organisation recommends iron supplementation to first trimester to 45 days after delivery. The Government of Nepal is supplementing Iron and Folic Acid (IFA) to pregnant and postpartum women to reduce the burden of disease and deaths, however Nepal reports low compliance and coverage. We sought to determine compliance of IFA and associated factors among postnatal mothers in Kathmandu valley. Methods: This was a cross-sectional study involving 132 mothers attending the immunisation clinic. Face to face interview was done using structured questionnaire consisting of sociodemographic information, IFA, maternal knowledge and compliance practices. Statistical analysis was done using SPSS version 23. Results: We found 68.9% compliance of iron and folic acid among the respondents. The mean age of the respondents was 27.53 ± 4.6 years (Mean ± SD). Significant association was observed between the compliance of the IFA with education,age,employment status of women and family type (p < 0.00). No significant association was observed in between the compliance of IFA and religion (p = 0.93) and delivery related complications (p = 0.143). Similarly, delivery type showed significant association with the compliance of IFA (p < 0.00). Conclusions: This study concludes that mothers from Kathmandu had better compliance and coverage of IFA than provincial as well as the national average. Private pharmacy is an important service provider for urban women.
Forest and water are important entities for sustaining life on earth. In a terrestrial ecosystem, linkages between the entities creates a mosaic benefiting the wildlife by creating the suitable habitat. In turn, communities get benefits stemming up from ecosystem services such as fodder, fuelwood, and water. We present a case study from a forest restoration project to assess the linkages between forest, water and wildlife across Lamahi bottleneck area in Terai Arc Landscape. We used combination of surveys such as forest area and canopy cover change (2001-2016) analysis followed by household questionnaire, water hole, camera trapping including process documentation. Forest area has increased by ~20 km2 in last 16 yrs. followed by number of water spouts along the identified tributaries. Water spouts are conserved in the form of conservation pond by the communities living downstream and utilized in the vegetable farming. Communities have benefited financially (~ US$ 1,252) contributing to their income level from the sale of fresh season vegetables in nearby market. Camera trap survey including the assessment of historical records showed presence of wildlife including elephant, hyena and other small carnivores in and around bottleneck forest. Both, motivation and enthusiastic support from local communities followed by the conducive government policies led to improve condition of natural resources over the period. This has also created a mosaic habitat for wildlife forming functional connectivity along the linear Terai Arc Landscape.
The composition of local mammalian carnivore communities has far-reaching effects on terrestrial ecosystems worldwide. To better understand how carnivore communities are structured, we analysed camera trap data for 108087 trap days across 12 countries spanning five continents. We estimate local probabilities of co-occurrence among 768 species pairs from the order Carnivora and evaluate how shared ecological traits correlate with probabilities of co-occurrence. Within individual study areas, species pairs co-occurred more frequently than expected at random. Co-occurrence probabilities were greatest for species pairs that shared ecological traits including similar body size, temporal activity pattern and diet. However, co-occurrence decreased as compared to other species pairs when the pair included a large-bodied carnivore. Our results suggest that a combination of shared traits and top-down regulation by large carnivores shape local carnivore communities globally. ; Ministry of Environment, Water, Forest and Tourism and Wildlife Conservation Society in Madagascar; Department of National Parks and United States Agency for International Development/Wula Nafaa Project in SenegalUnited States Agency for International Development (USAID); Cederberg Conservancy and Cape-Nature in South Africa; US Forest ServiceUnited States Department of Agriculture (USDA)United States Forest Service; Belize Forest Department; Belize Audubon Society; Programme for Belize; Las Cuevas Research Station; Bull Run Farm; Gallon Jug Estate; Yalbac Ranch and Cattle Company; NSF LTREB Grant [1556248]; Ministry of Ecology and Natural Resources of Misiones; National Park Administration of Argentina; Ledesma S.A.; Arauco SA; Department of National conduct surveys in Chitwan National Park; WWF Networks; US Fish & Wildlife ServiceUS Fish & Wildlife Service; Hurvis Family; WWF Team; Directorate for Nature Management; Norwegian Research CouncilResearch Council of Norway; Department of National conduct surveys in Indonesia ; We thank the Ministry of the Environment, Wildlife and Tourism, the Department of Wildlife and National Parks, and the Botswana Predator Conservation Trust for permission to conduct the study in Botswana; the Ministry of Environment, Water, Forest and Tourism and Wildlife Conservation Society in Madagascar; the Department of National Parks and United States Agency for International Development/Wula Nafaa Project in Senegal; and The Cederberg Conservancy and Cape-Nature in South Africa for permission and/or supporting the research in Africa. We thank Parks Canada staff and volunteers for collecting data in Canada, the US Forest Service for financing and collecting data in the USA along with volunteers from the Student Conservation Association, and the Belize Forest Department, Belize Audubon Society, Programme for Belize, Las Cuevas Research Station, Bull Run Farm, Gallon Jug Estate, and Yalbac Ranch and Cattle Company for permission and support in conducting research in Belize. Funding for camera trap surveys in Canada was provided in part by NSF LTREB Grant 1556248. We thank the Ministry of Ecology and Natural Resources of Misiones, the National Park Administration of Argentina, Ledesma S.A. and Arauco SA for permissions and support to conduct camera trap surveys. We thank the Iran Department of Environment for permission to work within the reserves in Iran, Department of National conduct surveys in Chitwan National Park, and in Indonesia, WWF Networks, US Fish & Wildlife Service and the Hurvis Family for financially supporting the research, the Indonesian Ministry of Forestry for permission to conduct the study, and the WWF Team for their support. We also thank the Directorate for Nature Management and The Norwegian Research Council for financing camera trap surveys in Norway. ; Public domain authored by a U.S. government employee
Aim: Biodiversity loss is a major driver of ecosystem change, yet the ecological data required to detect and mitigate losses are often lacking. Recently, camera trap surveys have been suggested as a method for sampling local wildlife communities, because these observations can be collated into a global monitoring network. To demonstrate the potential of camera traps for global monitoring, we assembled data from multiple local camera trap surveys to evaluate the interchange between fine- and broad-scale processes impacting mammalian carnivore communities. Location: Argentina, Belize, Botswana, Canada, Indonesia, Iran, Madagascar, Nepal, Norway, Senegal, South Africa, and the U.S.A. Methods: We gathered camera trap data, totalling >100,000 trap nights, from across five continents. To analyse local and species-specific responses to anthropogenic and environmental variables, we fitted multispecies occurrence models to each study area. To analyse global-level responses, we then fitted a multispecies, multi-area occurrence model. Results: We recorded 4,805 detections of 96 mammalian carnivore species photographed across 1,714 camera stations located in 12 countries. At the global level, our models revealed that carnivore richness and occupancy within study areas was positively associated with prey availability. Occupancy within study areas also tended to increase with greater protection and greater distances to roads. The strength of these relationships, however, differed among countries. Main conclusions: We developed a research framework for leveraging global camera trap data to evaluate patterns of mammalian carnivore occurrence and richness across multiple spatial scales. Our research highlights the importance of intact prey populations and protected areas in conserving carnivore communities. Our research also highlights the potential of camera traps for monitoring wildlife communities and provides a case study for how this can be achieved on a global scale. We encourage greater integration and standardization among camera trap studies worldwide, which would help inform effective conservation planning for wildlife populations both locally and globally. ; Ministry of the Environment, Wildlife and Tourism; Department of Wildlife and National Parks; Botswana Predator Conservation Trust in Botswana; Ministry of Environment, Water, Forest and Tourism; Wildlife Conservation Society in Madagascar; Department of National Parks; United States Agency for International Development/Wula Nafaa Project in SenegalUnited States Agency for International Development (USAID); Cederberg Conservancy and CapeNature in South Africa; National Science FoundationNational Science Foundation (NSF) [1556248]; Pacific Southwest Region of the U.S. Forest Service; Sierra and Sequoia National Forests; Ministry of Ecology and Natural Resources of Misiones; National Parks Administration of Argentina; Fundacion Proyungas; Ledesma S.A.; ARAUCO Argentina S.A.; World Wildlife Fund Networks, U.S. Fish & Wildlife Service and the Hurvis Family; World Wildlife Fund Team; Directorate for Nature Management; Norwegian Research CouncilResearch Council of Norway ; We thank the Ministry of the Environment, Wildlife and Tourism, the Department of Wildlife and National Parks and the Botswana Predator Conservation Trust in Botswana; the Ministry of Environment, Water, Forest and Tourism and Wildlife Conservation Society in Madagascar; the Department of National Parks and United States Agency for International Development/Wula Nafaa Project in Senegal; and The Cederberg Conservancy and CapeNature in South Africa for permission and/or supporting the research in Africa. In North America, we thank Parks Canada staff for collecting data in Canada and the National Science Foundation for funding part of this project (Long Term Research In Environmental Biology Grant 1556248); the Pacific Southwest Region of the U.S. Forest Service and the Sierra and Sequoia National Forests for supporting research in the U.S. A.; and in Belize, we thank the Forest Department, Programme for Belize, Las Cuevas Research Station, Bull Run Farm, Belize Audubon Society, Wildtracks, Gallon Jug Estate and Yalbac Ranch. In South America, we thank the Ministry of Ecology and Natural Resources of Misiones, the National Parks Administration of Argentina, Fundacion Proyungas, Ledesma S.A. and ARAUCO Argentina S.A. for permissions and support to conduct camera trap surveys. In Asia, we thank the Iran Department of Environment for permission to work within the reserves in Iran, the World Wildlife Fund, the National Trust for Nature Conservation, Chitwan National Park and Department of National Parks and Wildlife Conservation for permission and support to survey in Nepal; and in Indonesia, World Wildlife Fund Networks, U.S. Fish & Wildlife Service and the Hurvis Family for financially supporting the research, the Indonesian Ministry of Forestry for permission to conduct the study, and the World Wildlife Fund Team for all their support. Lastly, in Europe we thank the Directorate for Nature Management and The Norwegian Research Council for financing the camera trap data collected in Norway. Thank you to H. S. Robinson for help during the planning stages of the manuscript. ; Public domain authored by a U.S. government employee