Comparative analysis of manures and fertilizer on okra growth, yield and its economics in Baitadi, Nepal

Embracing organic techniques can minimize environmental impacts and promote practices that enhance soil and ecological health. A field experiment to study, “Comparative Analysis of Manures and Fertilizer on Okra Growth, Yield and its Economics in Baitadi, Nepal” was conducted at Gokuleshwor Agriculture and Animal Science College in 2023. The experiment was laid out in Randomized Complete Block Design (RCBD) with 3 replications and 7 treatments. The variety used in this experiment was ‘Arka Anamika’. The treatments used in the experiment were FYM, Goat manure, Poultry manure, Vermicompost, Sesame cake, RDF, and Control (no fertilizer). The fertilizer provided the necessary nitrogen, while the insufficient phosphorus and potassium were supplemented with single super phosphate and muriate of potash, respectively. Results revealed that the application of different fertilizers significantly affected various vegetative and reproductive parameters such as germination days, plant height, stem diameter, number of leaves, number of branches, number of buds, number of open flowers, number of pods, pod’s length, girth of pods, weight of pods and yield. The results obtained were minimum germination days(4.64) for RDF. Maximum plant height(208.43cm), maximum stem diameter(9.4cm), and number of branches(24.27) were obtained by application of poultry manure at 60 DAS. A maximum number of buds, open flowers, and pods were recorded in poultry manure and RDF application at 75 DAS. The maximum length of the pod(12.52cm) in vermicompost and the maximum girth of the pod(1.59cm) in poultry manure were obtained while the maximum wt. of the pod(14.1gm) in sesame cake. The application of poultry manure obtained a maximum yield per hectare(15.51t/ha). Also in the B: C ratio, Poultry manure exhibited higher(2.65) as compared to other treatments. From this study, we can conclude that poultry manure could contribute to the higher yield and overall attributes of okra.

Gravel and River sand mining activities in Maroua (Far-North Region, Cameroon): Environmental and Socioeconomic aspects

Sand and gravel mining are amongst the main factors that induces significant impacts on environment, as a result of growing need for building materials and as a source of income for rural communities. This study was conducted to assess the socio-economic and environmental effects of these activities in Maroua, Cameroon. Its objectives include a description of artisanal mining method and identification of its socio-economic and environmental impacts. The study was conducted in a multidisciplinary approach. During the fieldwork, data were collected using questionnaires and focused group discussions were undertaken with those responsible for managing natural resources in the that area. The results reveal that sand mining activity alter river morphology at a faster rate than normal river process, where river reduction of the extraction areas is significantly larger. These activities were responsible for quick resource depletion and adversely affecting the environment and causing disturbances such as, ecological balance, soil degradation, pollution, infrastructure destruction, as well as conflict between miners and communities.  Despite the negative impacts, mining activities generate income for all parties involved in the value chain, including the government. Accordingly, based on the research results, there are concerns about sustainable extraction practices by implementing strict rules and government policies

A review on seed priming to combat climate variability in agriculture

Global agriculture faces immense challenges due to climate change, which causes unpredictable weather patterns, decreased agricultural productivity, and decreased food security. Seed priming is critical in combating climate variability because it has emerged as a promising method for improving seed germination and agricultural resilience. This review evaluates the efficiency of several seed priming techniques, including hydro-priming, halo-priming, osmo-priming, bio-priming, chemical priming, and hormone priming. These techniques improve seedling vigor, stress tolerance, and overall crop yield. Seed priming increases germination rates and resistance to biotic and abiotic stresses, such as salinity and drought, while improving agricultural output and disease resistance. Seed priming reduces the demand for chemical pesticides and fertilizers by increasing soil quality and nutrient absorption, which supports sustainable agriculture. This review highlights the potential benefits of seed priming as a practical, affordable, and practical strategy to reduce the negative effects of climatic variability on agriculture. Future studies should focus on developing the best priming techniques for diverse crop varieties and conditions, as well as examining the combined impacts of various priming strategies. Seed priming will be crucial to preserving food security and agricultural sustainability in the face of ongoing climate change

Assessment of forest cover change, key drivers of change and perception of locals in Birendranagar Municipality, Surkhet District, Nepal

Land use and land cover change has an immense impact on the global environment and ecosystem and is mostly connected with human activities such as conversion of forest into agricultural land and settlements. Forests are changing globally in quantity and quality, and in both increasing and decreasing trends. For the Birendra Nagar Municipality, this study evaluated LULC dynamics, the conversion of forest cover from 2000 to 2020, as well as community perceptions on forest cover change, its drivers. Landsat images of 2000 and 2020 were used for LULC dynamics and for forest cover change detection Using software GIS 10.8. Questionnaire survey, key informant survey, field observation and secondary data were acquired from journal articles, reports, District Forest office, books, and various other sources to find out drivers of forest cover change and perception of locals. It was found that 1146 ha of forest area, 280.53 ha of water bodies, 752.62 ha of barren land were lost between 2000 and 2020. However, 1147.74 ha of settlement area and 1032.40 ha of agricultural land was gained.Net forest cover decreased overall by 4.67%, however, some areas within the municipality experienced an increase in forest cover namely Ward 11 and ward 16 of Municipality shows Highest positive and Negative Forest cover change in terms of Area. Expansion of agriculture land and settlements with the encroachment of forest area, haphazard infrastructure development, illegal timber harvesting and low regeneration capacity of land responsible for the reduction of forest, along with Community forestry approach, plantations programs, promotion of agroforestry practices, fuel transition were responsible drivers for improvements of forest cover. Water cycle disruption, Increases Natural hazard, Temperature rises, shortage of wood for fuel, extinction of indigenous species were the most perceived negative impacts of the forest cover reduction whereas income generation Activities, support biodiversity, easy to collect fuel wool and fodder and others including purifying air quality, increasing aesthetic beauty were the most perceived positive impacts of the forest cover improvement in the study area. Most of the locals have a holistic understanding of forest cover change. Strengthening forest protection, improving soil and water conservation structures, awareness creation, enrichment planting, Promote Alternate Energy Resources and Equitable benefit-sharing mechanism are possible solutions perceived by locals

An investigation on the performance of rice threshing drums in the southwestern region of Bangladesh

This study evaluated the performance indices of the locally developed rice-threshing drum in the Khulna region of Bangladesh. Threshing efficiency, throughput capacity, output capacity, threshing capacity and grain to straw ratio were assessed and data were analyzed using ANOVA as a statistical tool. The study involved the thresher with different engine horsepower capacities (25hp, 20hp, and 16hp). The variables of paddy were two stages of moisture content (14% referred as dry condition and 23% referred as wet condition), four different cutting heights of paddy (25-30, 30-35, 35-40 and 40-45 cm). The values for threshing efficiency, threshing capacity, output capacity, throughput capacity and grain to straw ratio in dry conditions ranged from 97.83 – 98.83%, 1700-2373 kg/hr, 27.75 -36.46 kg/hr, 930 – 1436 kg/hr and 1.21-1.54 respectively and in wet condition ranged from 96.15 – 97.79%, 1168-2167 kg/hr, 41.64 -49.99 kg/hr, 622 – 1280 kg/hr and 1.14-1.45, respectively. It was observed that with the increase in moisture content, cutting height and decrease in engine horsepower, there was a significant decrease (p < 0.05) in output capacity, threshing capacity, threshing efficiency and grain to straw ratio and vice versa. Therefore, the thresher used would be more useful by maintaining a proper combination of machine-crop parameters such as a moisture content of 14-15 %, an engine horsepower of 25 hp and a cutting height of 25-30 cm. Insights from this study can guide the development and adoption of improved paddy-threshing technologies in the region

Effect of sowing methods and varieties on growth and yield of wheat (Triticum aestivum L.) in Dang, Nepal

In this study conducted in Gadhawa Rural Municipality, Dang district, from November 2021 to April 2022, the impact of two sowing methods (Line sowing and broadcasting) and four varieties (Bijaya, Gautam, Aditya, and Borlaug 2020) on wheat was investigated. We aimed to identify the best sowing method and variety using a randomized complete block design with three replications. The study focused on various growth and yield parameters, including plant height, tiller number, grain per spike, effective tillers per square meter, thousand grain weight, grain yield per hectare, and biological yield per hectare. Line sowing was found to have the highest impact on biometrical as well as yield attributing characters. More height (111.51 cm), number of tillers (3.80), grain/spike (57.02), and grain yield (3.85 ton/ha) were obtained in line sowing. There was a significant difference observed among the varieties for all the traits except tiller number and biological yield. Borlaug 2020 was found to be superior for performance based on yield attributing traits which have grain/spike, effective tiller/m2, biological yield, and grain yield of 62.88, 177.15, 6.60 ton/ha, and 3.95 ton/ha respectively. From the interaction effects, variety Borlaug 2020 and line sowing method were found to be superior for cultivation. The study further demonstrates that farmers of Dang can combine Borlaug 2020 with line-sowing methods to obtain promising results

Aqua drugs and chemicals used in commercial aquaculture in Mymensingh, Bangladesh

Mymensingh is a division in north-central Bangladesh renowned for its lush landscapes and agricultural productivity, with a strong focus on aquaculture as a key part of its economy. The study was performed to investigate the aqua drugs companies and their products used in commercial aquaculture farms in Mymensingh division. Questionnaire based data were collected from representatives of various aqua drug companies, district and upazila fisheries offices, chemical vendors, farmers, and hatchery owners of the Mymensingh division. The present study found aquaculture practices in Mymensingh rely heavily on various antibiotics, probiotics, disinfectants, and feed additives to prevent the spread of diseases, maintain water quality, and increase growth of culture fishes. Drugs from various companies are widely utilized across the Mymensingh division. Fishtech BD contributing the highest percentage (12%), followed by Eon Pharmaceutical Ltd. (11%) and ACI Animal Health (10%), while AVON Animal Health made the lowest contribution (2%). Among the various drugs from different companies, Renamycin (antibiotic), Timsen and Emsen (disinfectants), Pond Care (probiotics), Zeolite Gold, Gasonex, and Mega Zeo Plus (zeolite) are commonly preferred by the farmers. The study also found that many farmers lack knowledge about chemical ingredients, proper dosages, and appropriate application methods. Therefore, adequate training and implementation of government rules and regulations are necessary to ensure responsible use

Growth yield performance of different hybrid cauliflower (Brassica oleraceae var. botrytis L.) cultivars in Dang, Nepal

Cauliflower is commonly grown in terai and mid-hills during the winter season (September to December), thus known as mid-season cole crop in the context of Nepal. As this cropping period possess favorable environmental condition to grow, and the production cost is comparatively lower and productivity is higher as compared to early and late seasons crop. Farmers are cultivating various hybrid (F1) cultivars to increase the yield and income. Every year, several hybrids are being imported in Nepal and there needs a varietal trial before being recommended at farmer’s field. Thus, this experiment was conducted at horticulture farm of Campus of Live Sciences. Tulsipur, Dang, Nepal for two consecutive years (2021 and 2022 AD) to evaluate the growth and yield attributes of five hybrid cauliflower cultivars. Cultivars viz. Snow Best, Snow Crown, Super White Top, Rami and Damy were treated as treatment and replicated four times in Randomized Complete Block Design. The experiment showed that cultivar Super White Top and Snow Crown had desirable vegetative characteristics, better yield, and higher harvest index as compared to other cultivars. Hence, Super White Top and Snow Crown could be promoted for cultivation in the agro climatic zones related to that of Tulsipur, Dang. Considering the economically important growth and yield attributes Super White Top and Snow Crown were found to be the suitable mid-season hybrid cultivars in Dang condition

Seed germination and seedling development of spring wheat (Triticum aestivum L.) landraces under elevated salinity conditions

Due to osmotic stress, ion toxicity, and nutrient imbalances, salinity is a common environmental problem that affects about 20.87% of agricultural land. It severely limits crop production, including wheat, by making it harder for seeds to germinate and for seedlings to grow. To study the effect of salinity stress on wheat landraces, we aimed to examine the seedling characteristics of wheat landraces under salinity stress. The study followed a two-factor Completely Randomized Design (CRD) with four replications. Four different concentrations of NaCl (0 mM, 25 mM, 50 mM, 75 mM) and five landraces (Bhartale, Jhuse, Rato Gahun, Mudule, and Aadhikhole) were used for investigation during the germination and early seedling stages of wheat landraces. The highest germination percentage (GP) (97.25%) and seed vigour index (SVI) (92886) were observed in Jhuse, whereas the lowest GP (60.50%) and SVI (11494) were observed in Rato Gahun. Rato gahun had the highest mean germination time (5.99 days), and Mudule had the lowest mean germination time (4.82 days). The maximum fresh weight (0.12 g) and dry weight (DW) (0.042 g) were recorded by Aadhikhole and Jhuse, and the minimum fresh weight (DW) (0.10 g) and DW (0.032 g) were observed in Mudule. The maximum shoot and root lengths were observed in Bhartale (3.05 cm) and Jhuse (3.54 cm), whereas the minimum shoot length (SL) (2.07 cm) and root length (RL) (2.41 cm) were observed in Rato Gahun. Above all, salinity stress negatively impacts wheat seedling characteristics, and Mudule shows some promising stress tolerance compared to others

Effectiveness of pre-emergence herbicides on weed population and yield of boro rice (cv. BRRI dhan58) under different dose

Weed management is crucial for optimal crop performance in rice cultivation. In this respect, an experiment was conducted at the Agronomy Field Laboratory (AFL), Bangladesh Agricultural University (BAU), Mymensingh, from December 2019 to May 2020 and aimed to evaluate the effectiveness of various herbicide treatments on weed management and crop performance in rice cultivation, focusing on the variety BRRI dhan58. The study included a control group and various herbicide treatments: half the recommended dose (RD), RD, and a double dose of pendimethalin, bensulfuron methyl + acetachlor, bensulfuron methyl + bispyribac sodium, pretilachlor, and butachlor. Eleven weed species from six families infested the plots. The results showed that double doses of pre-emergence herbicides resulted in lower weed populations (WP) (m-²), reduced weed dry weight (DW) (gm-2), and higher weed control efficiency (WCE %). The highest weed control efficiencies at 30 DAT were 94.58% for Bensulfuron methyl + Acetachlor and 94.38% for Pretilachlor. The double dose of Bensulfuron methyl + Acetachlor achieved the lowest WP and DW and the highest WCE. Crop performance improved significantly with the double dose of Bensulfuron methyl + Acetachlor, resulting in the highest PH, a more significant number of effective tillers (NET) hill-1, 1000-grain weight (TGW), grain yield (GY), straw yield (SY), biological yield (SY), and harvest index (HI). The second-highest GY was observed with the double dose of Bensulfuron methyl + Bispyribac sodium. The study concluded that the double dose of Bensulfuron methyl + Acetachlor was the most effective weed management strategy, leading to the highest grain yield in boro rice. These findings highlight that using a double dose of Bensulfuron methyl + Acetachlor not only offers superior weed control but also maximizes grain yield, making it the most effective weed management strategy for boro rice cultivation and a practical recommendation for farmers seeking to optimize productivity through targeted herbicide application