Sep 25, 2018
By peppermintpine
seen from Brazil
seen from Estonia
seen from Germany
seen from Germany
seen from France
seen from United States
seen from United States
seen from Argentina
seen from Sweden
seen from Malaysia
seen from China
seen from Türkiye
seen from United States
seen from United Kingdom
seen from Australia
seen from Yemen
seen from Germany
seen from Malaysia
seen from Poland
seen from Thailand
By peppermintpine
Dusk is time for #foliar #ipm. I certainly learned from last harvest. What does everybody like to use? . . #oregonoutdoor #oregonweed #pnw #organic #insectmanagement #neem #essentialoils #dusk #nwnr #bt #nocatipillars #noaphids
É Carnavalllllll!
Sesame is an important oilseed crop and receives more attention due to its significance and oil contents. Yield components and quality of oilseed crops are mainly regulated by nutrient management at field level. A field experiment was carried out to assess the effect of nitrogen management on yield and yield component of sesame crop at Agronomy Research farm, The University of Agriculture Peshawar. The experiment was conducted in randomized complete block (RCB) design. Three levels of nitrogen (40, 80 and 120 kg ha1) and four levels of application method (95% soil + 5% foliar, 90% soil + 10% foliar, 85% soil +1 5% foliar) along with one control for both nitrogen levels and one water spray for application method were used in experiment. Urea was applied as sources of nitrogen. The application of nitrogen at the rate of 120 kg ha-1 resulted in maximum biological yield (4002 kg ha-1). With respect to 80 kg N ha-1 application resulted more capsule plant1 (82), seed capsule1 (61), more seed yield (839 kg ha1), oil % (46.85 %), and oil yield (394 kg ha1). Similarly nitrogen application method at 90% soil + 10% foliar produced more seed capsule1 (60), seed yield (858 kg ha-1), more oil % (47.39% kg ha-1) and maximum oil yield (407 kg ha-1) were recorded. From the experimental results, it is concluded that nitrogen application at the rate of 80 kg ha-1 at 90% soil + 10% foliar application method performed better in terms of oil content, oil and seed yield of sesame and is recommended for general cultivation of sesame.
Agricultural Micronutrients Market to be Worth $13.35 Billion by 2030
Meticulous Research®—a leading global market research company, published a research report titled, ‘Agricultural Micronutrients Market by Type (Zinc, Iron, Copper, Molybdenum), Crop Type (Cereals and Grains, Fruits and Vegetables), Form (Non-chelated, Chelated), Mode of Application (Soil, Foliar, Fertigation, Seed Treatment) - Global Forecast to 2030.’
Download Free Research PDF @ https://www.meticulousresearch.com/download-sample-report/cp_id=4997?utm_source=article&utm_medium=social&utm_campaign=product&utm_content=18-03-2024
According to this latest publication from Meticulous Research®, the agricultural micronutrients market is projected to reach $13.35 billion by 2030, at a CAGR of 8.4% from 2023 to 2030. The growth of this market is driven by the growing population and rising food insecurity, declining arable land, rising micronutrient deficiency in the soil, and positive outlook of government policies and various organizations encouraging the use of micronutrients. However, the lack of awareness among farmers restrains the growth of this market. Additionally, the sustainable sourcing of raw materials is a challenge for the growth of this market. The growing contract farming is expected to create growth opportunities for the players operating in this market. Additionally, the emergence of nanotechnology in micronutrient fertilization is a major trend in the global agricultural micronutrients market.
The global agricultural micronutrients market is segmented by type, crop type, form, mode of application, and geography.
Based on type, in 2023, the zinc segment is expected to account for the largest share of the global agricultural micronutrients market. The large market share of this segment is mainly driven by the rising awareness of the wide range of functions that zinc plays in plant growth and its deficiency in soils around the world, the rising need to tackle food security challenges, and the rising demand for zinc nutritious food products due to multiple health benefits. Moreover, the increasing government initiatives globally to enhance zinc concentrate in the soil to increase quantitative and qualitative crop yield further support the growth of this segment.
Browse in depth @ https://www.meticulousresearch.com/product/agricultural-micronutrients-market-4997?utm_source=article&utm_medium=social&utm_campaign=product&utm_content=18-03-2024
Based on crop type, in 2023, the cereals & grains segment is expected to account for the largest share of the global agricultural micronutrients market. The large market share of this segment is attributed to the rising demand for food grains due to the growing population, increasing industrial application of cereals & grains, and huge production of staple crops such as wheat, maize, rice, and barley, which form the primary food source for a major population of the world.
Based on form, the chelated micronutrients segment is projected to record the higher CAGR during the forecast period due to its high stability over the non-chelated micronutrients, the growing need to increase micronutrient utilization efficiency, and the development and application of new generations of chelates.
Based on mode of application, in 2023, the soil treatment application segment is expected to account for the largest share of the global agricultural micronutrients market. Soil treatment is the most widely used application compared to other modes of application and is easy and cost-effective. Moreover, this segment is projected to register the highest CAGR during the forecast period. The growth of this market is driven by the rampant use of traditional agriculture methods in the current farming system, the presence of very limited resources, and the lower adoption of advanced fertilizer application methods.
Speck to our analyst @ https://www.meticulousresearch.com/speak-to-analyst/cp_id=4997?utm_source=article&utm_medium=social&utm_campaign=product&utm_content=18-03-2024
Based on geography, in 2023, Asia-Pacific accounted for the largest share of the global agricultural micronutrients market. The large market share of this segment is mainly attributed to the huge area under crop cultivation, growing population, increasing demand for high-quality food, and rising focus on agricultural micronutrients to improve crop productivity and crop yield in emerging economies like China and India. Additionally, the increasing agricultural practices and the necessity of high-quality agricultural produce are anticipated to further support the growth of this market. Moreover, this region is projected to register the highest CAGR during the forecast period due to the vast depletion of arable land, rising micronutrient deficiency in soil and a huge area of infertile soil, and the increasing government support for the fertilizer industry.
The key players operating in the global agricultural micronutrients market are AgroLiquid (U.S.), Aries Agro Limited (India), BASF SE (Germany), BMS Micro-Nutrients NV (Belgium), Coromandel International Limited (India), Haifa Group (Israel), Helena Agri-Enterprises, LLC (U.S.), Koch Industries, Inc. (U.S.), Nouryon (Netherlands), Nufarm Limited (Australia), Nutrien Ltd. (Canada), The Mosaic Company (U.S.), VALAGRO S.P.A (Part of Syngenta AG) (Italy), and Yara International ASA (Norway).
Request Free Research Report Sample @ https://www.meticulousresearch.com/request-sample-report/cp_id=4997?utm_source=article&utm_medium=social&utm_campaign=product&utm_content=18-03-2024
Sesame is an important oilseed crop and receives more attention due to its significance and oil contents. Yield components and quality of oilseed crops are mainly regulated by nutrient management at field level. A field experiment was carried out to assess the effect of nitrogen management on yield and yield component of sesame crop at Agronomy Research farm, The University of Agriculture Peshawar. The experiment was conducted in randomized complete block (RCB) design. Three levels of nitrogen (40, 80 and 120 kg ha1) and four levels of application method (95% soil + 5% foliar, 90% soil + 10% foliar, 85% soil +1 5% foliar) along with one control for both nitrogen levels and one water spray for application method were used in experiment. Urea was applied as sources of nitrogen. The application of nitrogen at the rate of 120 kg ha-1 resulted in maximum biological yield (4002 kg ha-1). With respect to 80 kg N ha-1 application resulted more capsule plant1 (82), seed capsule1 (61), more seed yield (839 kg ha1), oil % (46.85 %), and oil yield (394 kg ha1). Similarly nitrogen application method at 90% soil + 10% foliar produced more seed capsule1 (60), seed yield (858 kg ha-1), more oil % (47.39% kg ha-1) and maximum oil yield (407 kg ha-1) were recorded. From the experimental results, it is concluded that nitrogen application at the rate of 80 kg ha-1 at 90% soil + 10% foliar application method performed better in terms of oil content, oil and seed yield of sesame and is recommended for general cultivation of sesame.