Design of Automated Rainout Shelter to Conduct Experiment on Drought Tolerant Maize Genotype

Uneven and low precipitation areas of Nepal are continuously suffering from drought and received low productivity because of unavailability of suitable drought tolerant maize genotype. An attempt has been made first time in Nepal by constructing an automated rainout shelter with soil moisture based automated drip irrigation system at National Maize Research Program in 2018-2019 to conduct an experiment on drought tolerant maize genotype. The rainout shelters automatically covers the cropping area as soon as the rain sensor received a single drop of precipitation and also if the light intensity decreased to value set in the control panel. Likewise, the soil water level in different treatments were maintained on the basis of the treatment controlled with automatic drip irrigation system set to irrigate at threshold value set in the microcontroller. The complete system had found very useful in determining accurate amount of water required to cultivate drought tolerant maize genotype. We have tested drought tolerant variety RampurSo3Fo8 under 10 level of irrigation and it was determined that 495.2 mm of water is maximum level of water to produce highest yield of 3.32 t/ha whereas 445.6 mm to 247.6 mm of water could can be manage to produce competitive yield without any reduction. An experiment under such kind of infrastructure provide useful information on irrigation management practices required for drought variety in the natural environment. The research output also guides farmers and agriculturist in making Nepalese agricultural more sustainable, mechanized and productive

Antibody responses to the BBV152 vaccine in individuals previously infected with SARS-CoV-2: A pilot study

Background & objectives: Vaccination against SARS-CoV-2 is a recommendation from the World Health Organization as the foremost preference in the current situation to control the COVID-19 pandemic. BBV152 is one of the approved vaccines against SARS-CoV-2 in India. In this study, we determined SARS-CoV-2–specific antibody levels at day 0 (baseline, before vaccination), day 28 ± 2 post-first dose (month 1) and day 56 ± 2 post-first dose (month 2) of BBV152 whole-virion–inactivated SARS-CoV-2 recipients, and compared the antibody responses of individuals with confirmed pre-vaccination SARS-CoV-2 infection to those individuals without prior evidence of infection. Methods: Blood samples were collected from 114 healthcare professionals and frontline workers who received BBV152 vaccine from February to May & June 2021. Prior infection with SARS-CoV-2 was determined at baseline. Serum samples were used to estimate SARS-CoV-2 nucleoprotein-specific IgG [IgG (N)], spike protein-specific IgG [IgG (S)] and neutralizing antibodies (NAb). Results: Participants with previous SARS-CoV-2 infection after a single vaccine dose elicited IgG (N) and IgG (S) antibody levels along with NAb binding inhibition responses levels were similar to infection-naïve vaccinated participants who had taken two doses of vaccine. Interpretation & conclusions: Our preliminary data suggested that a single dose of BBV152-induced humoral immunity in previously infected individuals was equivalent to two doses of the vaccine in infection-naïve individuals. However, these findings need to be confirmed with large sized cohort studies

Homemade Salvage Setup for a Catastrophic Heater/Cooler Failure on Cardiopulmonary Bypass

Perfusion-related problems are still reported at incidence, varying from .72 to 2.86%, and add to the morbidity and mortality of cardiac surgery. Awareness of such problems and establishing protocols to avoid and manage them is a key factor in further improving patient outcomes. In this report, we describe a homemade setup which was used as a desperate salvage measure to rewarm a 1-year-old baby on cardiopulmonary bypass for intracardiac repair, who was inadvertently cooled to 24°C because of a malfunctioning heater/cooler machine

Plastic ingestion by greater one-horned rhinos in Nepal: An emerging conservation threat

Plastic pollution is potentially a major threat to the health of terrestrial organisms, including megafauna, but its effects are relatively understudied compared to marine ecosystems. Here we document the presence of plastic macro-particles in the dung of the greater one-horned rhino (Rhinoceros unicornis) in the Terai landscape of Nepal. Field data were collected deep within Chitwan National Park and its fringe zone during the monsoon and post-monsoon season of 2020, 2021 and 2022. Over three years, we recorded plastic in ∼10% of 258 rhino dungs piles. This is an underestimate since we did not record micro-particles or search entire dungs. More dungs located deep within the national park (core zone) contained plastic compared to the fringe zone and we recorded no difference in plastic incidence between riverine forest and floodplain grasslands. Rhinos do not appear to target garbage dumps as food sources but are exposed to plastic when foraging. The plastic is carried down river during monsoonal floods and deposited in rhino habitat as the flood waters recede. The relatively higher rate of plastic detection in rhino dungs from the core zone is probably due to details of rhino ranging, and is a potential threat to other wildlife in the river floodplains. We recommend more detailed studies on the patterns and effects of plastic ingestion by rhinos and other wildlife. A comprehensive waste management system within the landscape is required to reduce such threats

Groundwater potential zonation in the Siwalik of the Kankai River Basin, Eastern Nepal

For the globally degrading groundwater resources in terms of quantity and quality, proper assessment and management become crucial for their sustainable use. This study aims to delineate the groundwater potential zones using an integrated approach of geographic information system (GIS) and the Analytical Hierarchy Process (AHP) in the Siwalik of the Kankai River Basin, Eastern Nepal. Different thematic layers like hydrogeomorphology, land use/land cover, lithology, slope, topographic wetness index, drainage density, normalized difference vegetation index, lineament density, and aspect were prepared and processed with suitable weights on Saaty's scale. The delineated groundwater potential zones in the study area were categorized as low, moderate, and high. The results showed that approximately 49.38% (130.85 km2) of the total study area has a low potential for groundwater. The moderate zone includes approximately 35.5% (94.07 km2) and the high potential zone includes only 15.05% (39.88 km2) of the area. The potential map was validated with a 70.6% prediction rate using the spatial distribution of the springs in the area. The analysis shows that hydrogeomorphology, LULC, and lithology have a significant control on the occurrences of groundwater. The study signifies the scarcity of groundwater resources, which needs a better management plan and strategies for sustainable use. HIGHLIGHTS The study deals with the delineation of groundwater potential zones using geospatial analysis along the Siwalik of the Kankai River Basin.; The occurrence of groundwater along the Siwalik is mainly controlled by hydrogeomorphology, LULC, geology, and slope.; About 50% of the area lies on the low potential zone for groundwater occurrence.