Economic potential of forest resources of Nepal

Nepal's forest resources underpin the livelihoods of rural people in important ways. During the country's 'planned development' over the past 50 years, the government, donors and policy makers have viewed these resources as a key vehicle for ushering in economic growth and for meeting basic needs. They underscore the potential value of forest resources for achieving conservation and socio-economic objectives. To what extent have economic incentives been generated to effectively harness these resources to meet the said objectives is an open question. To address this question, this paper reviews briefly and broadly the economic potential of the country's forest resources in terms of forest goods and services. Estimates of economic potential of timber and non-timber forest products and environmental services have been assessed. A number of recommendations for realizing the potential for achieving development and poverty reduction objectives is provided

Collaborative forest management in Nepal: Tenure, governance and contestations

Collaborative forest management (CFM) is a ‘community-based’ forest tenure regime that works in partnership between the central government, local government and local forest user groups in Nepal’s Terai, particularly in the management of large, contiguous forests. It has been in practice since the early 2000s in the form of ‘pilot initiatives’ and is gradually receiving greater legal attention. Through our own experiences, available literature and policy reviews, we document the evolutionary history of Terai forest and CFM’s current issues. We found that the management aspects of the Terai forests have been weak throughout its history. We also found a number of issues and challenges in the implementation of CFM. Some of the prominent issues include ambiguity in tenure rights and security, lack of appropriate and uncontested policy provisions for cost and bene t sharing among collaborators, limited decision-making space for forest-managing communities and local governments, and limited capacity of collaborators for the productive management of forests. We suggest tenure reform in terms of legal, institutional, technical and financial arrangements, so as to make CFM effective forest management in the Terai

SIMULATION AND RESPONSE SURFACE METHODOLOGY TO OPTIMIZE WINTER WHEAT RESPONSE TO GLOBAL CLIMATE CHANGE

Future climate changes can have a major impact on crop production. But, whatever the climatic changes, crop production can be adapted to climate change by implementing alternative management practices and developing new genotypes that will take full advantage of the future climatic conditions. Since the classical agronomic research approach is not possible in identifying these new agronomic technologies for the future climatic conditions, we used response surface methodology (RSM) in connection with the CERES-Wheat crop model and the HADCM2 climate simulation model to identify optimal configuration of plant traits and management practices that maximize yield of winter wheat under high CO2 environments. The simulations were conducted for three Nebraska locations (Havelock, Dickens and Alliance), which were considered representative of winter wheat growing areas in the central Great Plains. At all locations, the identified optimal winter wheat cultivar under high CO2 conditions had a larger number of tillers, larger kernel size, shorter days to flower, grew faster and had more kernels per square meter than the check variety under normal CO2 conditions, while the optimal planting dates were later and planting densities were lower than under normal conditions. We concluded that RSM used in conjunction with crop and climate simulation models was a useful approach to understanding the complex relationship between wheat genotypes, climate and management practices

Cardiovascular Risk Behavior Amongst Adolescents of Lekhnath Muncipality of Kaski district, Nepal

Background: Life style related behavioral risk factors are mainly implicated for increase burden of cardiovascular diseases. Research related to these risk behaviors especially among adolescents is essential considering their role as future citizens of the country. Objectives: The study aimed to evaluate the burden of cardiovascular risk behavior amongst the adolescents of Kaski district, Lekhnath Nepal. Methods: A cross sectional study was carried out among the adolescents of Lekhnath Muncipality Kaski District. Total 350 participants from five different schools from Lekhnath Muncipality took part in the study and the sampling technique was simple random method by using a random number table. Self administered questionnaires were used to collect information on identification of risk behaviors. Results: Descriptive statistics and Chi square test were computed. Out of 350 adolescents 175 males and remaining 175 females were interviewed. Alcohol and tobacco consumption were more amongst males whereas fast food and soft drinks were more amongst the females. Nearly 40% of the adolescents were not involved in physical activity. Tobacco and alcohol consumption was 26% and 16% respectively, which was higher amongst the late adolescents group studying in the 11th and 12th standard. In this study fruits and vegetables consumption was very less only 42% whereas soft drinks and fast food consumption was more 83% which shows that the adolescents are not aware about their food habits. Some participants did not consume fruits due to low purchasing power to buy fruits. Adolescence is a period of experimentation and so some participants told that they have just started taking alcohol and also started consuming tobacco for fun and were not aware that it was cardiovascular risk behavior. Conclusions: The adolescents had a high burden of cardiovascular risk behavior and if immediate intervention is not done to reduce these high risk behaviors many may be vulnerable to cardio vascular diseases in the future.  J-GMC-N | Volume 11 | Issue 01 | January-June 2018, Page: 10-1

Pheochromocytoma: A Rare Cause of Secondary Hypertension

  Introduction: Pheochromocytoma is a rare tumor, originating from the chromaffin tissue. Its frequency is approximately 1/100,000. The clinical manifestation is due to catecholamine excess, which includes high blood pressure, palpitation, headache, sweating, nausea, vomiting, trembling, weakness, irritation, abdominal and chest pain, dyspnea, red warm face, constipation, polyuria, and polydipsia.   Case Report: We present a case of 53 years old male, hospitalized for hypertensive crisis following the manipulation of left sided frozen shoulder. He had labile blood pressure ranging from 220/120 systolic- 90/60 diastolic, profuse sweating and tachycardia. Findings of Contrast enhanced CT of abdomen was consistent with right adrenal pheochromocytoma and 24 hours urinary VMA was 17 mg /24 hr (Normal <13.6 mg /24hr). After the clinical, paraclinical investigations and radiological tests, it was proved to be a pheochromocytoma. The surgical intervention was planned. But due to unavailability of required antihypertensive drugs in Nepal (alpha-blockers like phentolamine and phenoxybenzamine), surgeons were reluctant to operate, although blood pressure was well controlled with use of sodium nitroprusside during hypertensive crisis and prazosin, a selective alpha blocker as maintainance therapy. The use of prazosin to control hypertension secondary to pheochromocytoma is limited to case report and case series.   Conclusion: Although rare, pheochromocytoma is a treatable surgical cause of secondary hypertension

Effects of Resonant Cavity on Macroscopic Quantum Tunneling of Fluxon in Long Josephson Junctions

We investigate the effects of high-Q_c resonant cavity on macroscopic quantum tunneling (MQT) of fluxon both from a metastable state to continuum and from one degenerate ground-state of a double-well potential to the other. By using a set of two coupled perturbed sine-Gordon equations, we describe the tunneling processes in linear long Josephson junctions (LJJs) and find that MQT in the resonant cavity increases due to potential renomalization, induced by the interaction between the fluxon and cavity.Enhancement of the MQT rate in the weak-coupling regime is estimated by using the experimantally accessible range of the model parameters. The tunneling rate from the metastable state is found to increase weakly with increasing junction-cavity interaction strength. However, the energy splitting between the two degenerate ground-states of the double-well potential increases significantly with increasing both the interaction strength and frequency of the resonant cavity mode. Finally, we discuss how the resonant cavity may be used to tune the property of Josephson vortex quantum bits.Comment: Accepted for publication in Phy. Rev.

Characterization Of Dielectric Barrier Discharge (DBD) Produced In Air At Atmospheric Pressure And Its Application In Surface Modification Of High-Density Polyethylene (HDPE)

The low surface energy of HDPE limits its industrial uses as it is not suitable for printing and adhesion. The main aim of this work is to improve the wetting properties of high-density polyethylene (HDPE) using air dielectric barrier discharge (DBD) operating at the line frequency (50 Hz). The estimation of electron temperature and electron density has been done by electrical and optical methods. The surface roughness of the control and plasma treated polymer film is analysed by contact angle (CA) measurement, surface energy measurement and scanning electron microscope (SEM) analysis. The contact angle was found to be suppressed from 93.180±2.00 to 63.750±0.880 after 10s of plasma treatment which implied that the surface property had changed to a hydrophilic state caused by an increase in the surface roughness

Enhancement of Ethanol Production in Electrochemical Cell by Saccharomyces cerevisiae (CDBT2) and Wickerhamomyces anomalus (CDBT7)

Bioethanol (a renewable resource), blended with gasoline, is used as liquid transportation fuel worldwide and produced from either starch or lignocellulose. Local production and use of bioethanol supports local economies, decreases country's carbon footprint and promotes self-sufficiency. The latter is especially important for bio-resource-rich land-locked countries like Nepal that are seeking alternative transportation fuels and technologies to produce them. In that regard, in the present study, we have used two highly efficient ethanol producing yeast strains, viz., Saccharomyces cerevisiae (CDBT2) and Wickerhamomyces anomalous (CDBT7), in an electrochemical cell to enhance ethanol production. Ethanol production by CDBT2 (anodic chamber) and CDBT7 (cathodic chamber) control cultures, using 5% glucose as substrate, were 12.6 ± 0.42 and 10.1 ± 0.17 mg·mL−1 respectively. These cultures in the electrochemical cell, when externally supplied with 4V, the ethanol production was enhanced by 19.8 ± 0.50% and 23.7 ± 0.51%, respectively, as compared to the control cultures. On the other hand, co-culturing of those two yeast strains in both electrode compartments resulted only 3.96 ± 0.83% enhancement in ethanol production. Immobilization of CDBT7 in the graphite cathode resulted in lower enhancement of ethanol production (5.30 ± 0.82%), less than free cell culture of CDBT7. CDBT2 and CDBT7 when cultured in platinum nano particle coated platinum anode and neutral red-coated graphite cathode, respectively, ethanol production was substantially enhanced (52.8 ± 0.44%). The above experiments when repeated using lignocellulosic biomass hydrolysate (reducing sugar content was 3.3%) as substrate, resulted in even better enhancement in ethanol production (61.5 ± 0.12%) as compared to glucose. The results concluded that CDBT2 and CDBT7 yeast strains produced ethanol efficiently from both glucose and lignocellulosic biomass hydrolysate. Ethanol production was enhanced in the presence of low levels of externally applied voltage. Ethanol production was further enhanced with the better electron transport provision i.e., when neutral red was deposited on cathode and fine platinum nanoparticles were coated on the platinum anode

Draft Nuclear Genome Sequence of the Liquid Hydrocarbon-Accumulating Green Microalga Botryococcus braunii Race B (Showa).

Botryococcus braunii has long been known as a prodigious producer of liquid hydrocarbon oils that can be converted into combustion engine fuels. This draft genome for the B race of B. braunii will allow researchers to unravel important hydrocarbon biosynthetic pathways and identify possible regulatory networks controlling this unusual metabolism

Feature Model Differences

International audienceFeature models are a widespread means to represent commonality and variability in software product lines. As is the case for other kinds of models, computing and managing feature model differences is useful in various real-world situations. In this paper, we propose a set of novel differencing techniques that combine syntactic and semantic mechanisms, and automatically produce meaningful differences. Practitioners can exploit our results in various ways: to understand, manipulate, visualize and reason about differences. They can also combine them with existing feature model composition and decomposition operators. The proposed automations rely on satisfiability algorithms. They come with a dedicated language and a comprehensive environment. We illustrate and evaluate the practical usage of our techniques through a case study dealing with a configurable component framework