Efficacy of Insecticides against Fall Armyworm, Spodoptera frugiperda (Lepidoptera, Noctuidae) in Maize

Fall armyworm (FAW), Spodoptera frugiperda (Lepidoptera: Noctuidae) is most destructive specie of genus Spodoptera for several agricultural crops. In Pakistan\u27s Sindh province, the invasive fall armyworm Spodoptera frugiperda was first documented causing serious maize damage in 2019. There is need to develop management strategies against this pest in the country. The current study was conducted to check the toxicity of different insecticides against FAW in maize field. The results showed among tested insecticides, deltamethrin was recorded most toxic insecticide followed by chlorantraniliprole and emamectin benzoate. At 1d days after first spray, least number of larvae were recorded with deltamethrin (0.07 larvae/plant), chlorantraniliprole (0.11d larvae/plant) and emamectin benzoate (0.13 larvae/plant). After three days application of first spray, significantly a minimum number of larvae were recorded with deltamethrin (1.11bcd larvae/plant) chlorantraniliprole (1.13d larvae/plant) and emamectin benzoate (1.17d larvae/plant). The maximum and minimum population of larvae was recorded at 1st day of first spray and 14 days of spray, respectively. The least number of larvae were recorded at 14 days of second spray. At 14 days after 2nd spray, 0.07ab, 0.10e and 0.10de larvae per plant were recorded with deltamethrin, chlorantraniliprole and emamectin benzoate, respectively

A Comprehensive Review on Impact of Microorganisms on Soil and Plant

Soils have the most diversified microbial communities of any environment on the planet. Bacteria, fungi, algae, and protozoa are all found in abundance in soil. Maintaining a healthy environment for crops requires a strong link between plants and soil microorganisms that are essential for good crop development. Soil bacteria are key regulators of the nutrient cycle. Mineralization, legume nitrogen fixation, and ammonia conversion to plant-available nitrate would all be impossible without bacteria. Effective microorganisms have the ability to boost crop growth and yield. When used in conjunction with organic amendments, these bacteria performs better than to the sole application. It also contributes to soil health and provides a variety of ecological services. They also help in the cleaning of the environment, landfill disinfection, and the development and implementation of sustainable, closed-cycle organic waste treatment processes across the globe. The whole study remarks a conclusion that the application or presence of effective microbes to soil not only enhance the nutritional capacity, fertility and productivity of soils but also helps to remediate soil problems cost effectively

Usage of iron foliar spray in enhancing the growth and yield of the flax plant (Linum usitatissimum L)

The ideal growth and development of linseed plants depend on receiving the necessary nutrients during the growing season when they are grown. Flax's yield and oil content increase using a foliar spray containing micronutrients. This study aimed to determine how foliar iron (Fe) treatment affected flax yield and its constituents. The experiment was set up at the adoptive research farm Sargodha in a randomized block design and three replicates. At the capsule filling stages and bud initiation of the flax crop, foliar sprays with varying concentrations of Fe (5.5%, 4.5%, 3.5%, 2.5%, 1.5%) and without Fe (control) were administered. Sulphate of iron (Fe) was used as the source of Fe. All treatments resulted in notable enhancements in agronomic characteristics such as grain oil contents, harvest index, biological yield, number of capsule formations, technical stem length, plant height, as well as physiological parameters including fluorescence yield (Ft), quantum yield (YII), photosynthetically active radiation (PAR), electron transport rate (ETR), and chlorophyll contents. The results of this study suggested that the application of 3.5% to flax during the bud initiation and capsule filling stages increases the seed yield, yield attributes, and oil contents. In conclusion, foliar spray of Fe could enhance the yield of linseed crops

Organic Vegetable Farming; A Valuable Way to Ensure Sustainability and Profitability

The most pressing concern in the world since independence has been producing enough food to feed an expanding population. The mix of high-yielding production techniques has helped the globe to generate a food surplus while also raising worries about soil health and environmental pollution. Though, scientists and policy makers are rethinking agricultural systems that rely heavily on biological inputs. Organic farming can provide high-quality food without compromising the health of the land or the environment; nevertheless, it is unclear if large-scale organic farming would be able to feed world’s vast population. Adoption of this emerging approach “organic vegetable farming” plays a vital role in development of agricultural sustainability through avoiding indiscriminate use of synthetic chemicals. There are numerous organic sources for organic vegetable farming but various type of composts (especially vermi-compost) and biochar are most famous among all other organic sources as they improved soil healthy and vegetables productions through improving soil physico-chemical and biological attributes. In addition, demand and prices of organically produced vegetables are much higher in market and evidence showed that organically grown vegetables are enriched with nutrients and safe for consumption because of their less exposure with residues of in-organic pesticides