9 Best Organic NPK Fertilizers in 2024

In the world of gardening and farming, one term you’ll often come across is ‘NPK Fertilizer’. But what does it mean? And why is it so important? NPK stands for Nitrogen, Phosphorus, and Potassium, three vital nutrients that plants need to thrive. While there are many types of fertilizers available in the market, this blog post focuses on organic NPK fertilizers. Why organic, you ask? Organic NPK…

View On WordPress

This is Leo from Sinoland Chemical, we can provide you with chemical raw materials

 This is Leo from Sinoland Chemical, we can provide you with chemical raw materials

https://img1.blogblog.com/img/video_object.png

https://img1.blogblog.com/img/video_object.png

————————————————————————————

We can provide you with the most competitive market price

And we can negotiate to provide you with samples.

And the following products can be provided to you

sodium nitrite,     CAS:  7632-00-0     HS:2834100000

sodium nitrate;     CAS:  7631-99-4     HS:3102500000

magnesium nitrate,  CAS:   10377-60-3     HS:2834299090

ammonium nitrate,   CAS:  6484-52-2     HS:3102300000

potassium nitrate,  CAS:  7757-79-1     HS: 2834219000

Granular sodium hydroxide      CAS: 1310-73-2;8012-01-9     HS:2815110000

Solid Sodium hydroxide         CAS: 1310-73-2     HS:2815110000

Sodium hydroxide               CAS: 1310-73-2     HS:2815120000

Green seaweed bio-enzyme decomposed foam leaf 

algae extract foliar fertilizer leaf spray organic fertilizer     CAS：   84775-78-0

Agriculture fertilizer organic NPK fertilizer for 

legume plant growth promoter                    CAS：      84775-78-0

formic acid     CAS:   64-18-6     HS:2915110000

Sodium formate   CAS: 141-53-7;84050-15-7;84050-16-8;84050-17-9     HS：2915120000

Ethyl Alcohol    CAS: 64-17-5   HS:2207200010

propanol        CAS:  71-23-8     HS:2905121000

octanol         CAS:  111-87-5     HS:2905169000

Phosphoric acid    CAS：7664-38-2    HS：2809201900

Soda ash. (Dense)  CAS: 497-19-8;7542-12-3  HS： 28362000

Caustic Soda Flakes  CAS: 1310-73-2;8012-01-9   HS :28151100

Ammonium Chloride.  CAS: 12125-02-9      HS： 28271090 

Calcium Chloride      CAS: 10043-52-4;17787-72-3   HS :28272000

Melamine (powder)  CAS: 108-78-1   94977-27-2     HS:2933610000

Paraformaldehyde   CAS:  30525-89-4     HS:2912600000

Caprolactam        CAS:   105-60-2     HS:  2933710000

agricultural urea,    CAS:   57-13-6    HS:3102100090 

Urea for vehicles      CAS:   57-13-6      HS:3102100090

urea ammonium nitrate solution  

ammonium sulfate,              CAS:   7783-20-2     HS:3102210000

industrial hydrogen,           CAS:  1333-74-0     HS:2804100000

synthetic hydrochloric acid,   CAS:  7647-01-0     HS:2806100000

liquid chlorine,               CAS:  7782-50-5     HS:2801100000

cyanuric acid,                                          CAS : 108-80-5     HS:

dichloroisocyanuric acid dihydrate,                 CAS:  51580-86-0     HS:

Sodium dichloroisocyanurate,                        CAS:   2893-78-9     HS:2933692910

Trichloroisocyanuric acid multifunctional tablets   CAS:   87-90-1     HS:

trichloroisocyanuric acid,                          CAS: 87-90-1     HS:2933692200

synthetic ammonia   CAS: 7664-41-7   HS：28141000

urea    CAS:   57-13-6    HS:3102100090 

Methanol   CAS: 67-56-1;170082-17-4    HS：2905110000 

NP9   CAS：14409-72-4   HS：2909499000

VC    CAS：50-81-7  HS： 29362700

QINGDAO SINOLAND INTERNATIONAL TRADE CO.,LTD was established in 2012 and is located in Qingdao Port, the largest container shipping port in North China China.

As adjacent to Qingdao Port, it has a beautiful environment and convenient transportation. With import and export license, our company has more than 10 years experience in medical and chemical industry.

 Our chemical products are specialized in agrochemicals; inorganic chemicals; organic chemicals;disinfectant;hazardous chemicals; 

 With the advantage of hazardous chemicals business license, we are working hard to develop new products to meet different requirements, 

Our products are exported to the United States, European countries, Africa, Brazil, Australia, Southeast Asia, Japan, Korea. In order to provide satisfactory products and services,

 we have established a modern quality management system strictly in accordance with international standards. We focus on product development, quality control and inspection, after-sales service.

Adhering to the business principles of honesty, efficiency, and win-win, we have enjoyed a reliable reputation among our customers due to our professional services, high-quality products and competitive prices. 

We are glad to cooperate with you and finally bring you satisfied products. We warmly welcome customers at home and abroad to cooperate with us and create a bright future together.

Best regards!

Leo-Liu   Sinaland-Foreign Trade Specialist

Tel: (+86) 15963011049

QQ: 742270500

Viber: (+86) 15963011049

VK: (+86) 15963011049

Whatsapp: (+86) 15963011049

WeChat: Mr_Ln_Getup_95

Skype: Live: .cid.5887eedeaeca7883

Email: [email protected]

            [email protected]

Iris Publishers - World Journal of Agriculture and Soil Science (WJASS)

Biofertilizer Impacts on Cassava (Manihot Esculenta Crantz) Cultivation: Improved Soil Health and Quality, Igbariam, Nigeria

Authored by Ayodele A Otaiku

Introduction

Many diseases are caused by pathogens, whose damage symptoms appear on the leaves, stems and storage roots [1] during cassava cultivation. The common diseases of cassava are cassava mosaic disease, cassava bacterial blight, cassava anthracnose disease, cassava bud necrosis and root rot. Some of these diseases attack the leaves and stems of cassava plants while others attack the storage roots [2]. Cassava mosaic disease is caused by the African cassava mosaic virus which occurs inside the leaves and stems and causes yield reductions of up to 90 percent [3]. Economical damage by diseases, pests and weeds of cassava is relatively moderate, although white flies can be a menace in some regions, if the problem is not identified early, and remedial action not implemented in a timely manner (Figure 1). Correct identification of the pest and an understanding of its behaviour, including its most vulnerable stages would provide insights into its management affects crops yield and development. Care must be then taken if pesticide application is contemplated, since there is the likelihood of high residual levels remaining in the product after harvest if an inappropriate formulation is not used.

Biopesticides can exert fungicidal, insecticidal, or nematocidal action via the microbial inoculate in the biofertilizer, a combination of them and possibly other auxiliary functions such as bird and mammal repellents or herbicides. According to recent classifications [4,5]. Bio-control action is due to multiple synergic mechanisms, generally including: i) production of antibiotics and other secondary metabolites (e.g., phenazines by Pseudomonas spp., lipopeptides by Bacillus spp., and hydrocyanic acid by Rhizobia); and ii) secretion of lytic and defense enzymes (e.g., chitinases, glucanases, peroxidases, polyphenol oxidases, and phenylalanine ammonia lyases produced by Trichoderma, Fusarium, Rhizoctonia, Serratia, Streptomyces and Bacillus strains) [6,7]. The drawback of using living microorganisms is that their efficacy is often unpredictable under changing field conditions, and their fitness is reduced by the presence of an indigenous microbiota difficult to displace by non-native microorganisms [7,8]. Additionally, the antagonistic interactions occurring in formulations containing more than one microbial species limit their potential in integrated pest management strategies [9,10].

Climate change and soil biological health

It is commonly observed that applying only N or N + P can lead to a decline in particulate organic matter (>53 m fraction) and soil biological activity (soil respiration, microbial biomass C and N). These however improved significantly by moving towards balanced application through the addition of NPK or NPK+ organics [19]. Also, actual field studies on microbial diversity and activity are few. Contrary to a hypothesis that leaf litter produced under elevated CO2 and having a high C: N ratio would be difficult to decompose, the microorganisms were found to adapt to changing soil carbon input under elevated CO2 and there was no effect on their turnover and behaviour [20]. Expectedly, under 15 elevated CO2, increased immobilization of fertilizer N by stimulation of mineralization (SMB) of soil organic matter (SOM) nitrogen was observed [21].

Thus, greater microbial demand for N (>27%) was observed under elevated CO2 [22]. As warmer temperatures are maintained, the less efficient use of carbon by the microbes causes them to decrease in number, eventually resulting in less carbon dioxide being emitted into the atmosphere [23] via an agricultural soil vis-à-vis a desert soil (warmed in real world over time) attests this reality. Mycorrhizal and N2-fixing relationships are generally enhanced by CO2 enrichment, but effects of warming are highly variable [24]. There are reports proving that soil resistance and resilience is linked to soil biodiversity [25] and ‘higher’ soil diversity protects the soil against ecosystem malfunctions under stress or disturbance: an ‘insurance hypothesis’ linked to soil biodiversity [26].

Unfortunately, some African soils lack essential nutrients. In Uganda, Kenya and Tanzania low yield of crops was attributed mainly to poor soil fertility [27]. For instance, Zn is deficient in most West African soils, especially the lowland areas [28] while plant viable P is unavailable in the iron-rich tropical soils of Africa due to low pH and high level of iron and aluminum oxides [29]. The soil lacks Ca, Mg and K, and when acidic, has a high level of free Mn, which is toxic to crops. Buhmann, et al. [30], some South African soils are deficient in K and P, making it unsuitable for cultivation. Africa has lower fertilizer consumption when compared to other regions of the world. In 2002, sub-Saharan Africa had about 8 kg/ha of fertilizer consumption which increased to 12 kg/ ha in 2010 and 18 kg/ha in 2013 (Sommer et al., 2013). This is far below that of other regions of the world such as North America, South Asia, and East Asia and Pacific which were estimated at 127.9 kg/ha, 151.8 and 337.0 kg/ha respectively (World Bank Fertiliser Consumption, 2013).

Sub-Saharan Africa fertilizer market lacks basic infrastructure for sustainability, efficient pricing and competition (Sommer et al., 2013). Biofertilizers should not be misunderstood for organic fertilizers such as compost, animal manure and plant manure or extracts [31,32]. However, whether the beneficial microbes improve crop accessibility to nutrients [6,33] or replenish soil nutrients (Shridhar, 2012; Thamer et al., 2011), if the overall nutrient condition of crop and soil has been improved, such substances containing the beneficial microorganisms are considered as biofertilizers [32]. The objectives are:

• How biofertilizer functional architecture links system design (microbial inoculant) impacts on the cassava crops nutrient use efficiency.

• To use the outcome indicators (crop yield, soil organic matter) as a determinant of soil health and quality and soil nutrient facility management.

• How the microbial inoculant impacts on the integrated soil management?

• What are the indicators of soil quality?

Methodology

Biofertilizer functional models - soil health and quality

The environment-centric view (biofertilizer impacts) considers function as its effects (biofertilizer). The device-centric view considers function in term of internal parameters of the object (cassava crop physiology). The device-centric functions are the outcome (yield, soil health and quality) of the deployment of the environment centric functions. Eppinger and Browning, 2012 define. Underrating the biofertilizer system architecture of cassava crop cultivation within the agro-ecology, their relationships to crop development, evolution and outcome (yield, soil health and quality). Models are representations of the current understanding of a phenomenon or process of interest [34,35]. Functional models describe the relationship among variables using the simplest description of causal relations possible that still provides a useful description of the process or phenomenon [36]. A functional model would describe the components of the biofertilizer system and how they interact soils and crops cultivation. A mechanistic model would describe the properties of the biofertilizer contained in the components of the soil systems during cultivation. Information is also required on the driving forces that impact the variables controlling outcomes This driving force-outcome-response framework (or pressure-state- response framework) is widely used in environmental assessment [37].

Biofertilizer is dependent variable is the variable being tested and measured in the cassava (independent variable or manipulated variable) field experiment. The independent variable (cassava crop) effect on the dependent variable is observed and recorded. Indicators can be used to communicate information on driving forces, outcomes, or responses. Driving force indicators communicate information on the causes of a problem, which may provide incentives for appropriate responses or be used to monitor the efficacy of responses. Outcome indicators communicate information on the effects of a problem on a goal. Outcome indicators are often slow to respond but are directly related to the issue and are useful for assessment and planning. Response indicators communicate information on the extent to which remedial actions are implemented. Response indicators respond quickly, but their effects are not evident until much later. Indicators may communicate information on level, change or structure [38]. An indicator of structure provides information on industry or policy structures related to driving force (e.g., average farm size) or response (e.g., proportion of farms with an environmental farm plan). Water quality: watersheds with the greatest risk of non-point pollution are identified based on leaching and runoff vulnerability indices calculated for pesticides and nutrients (Figure 3).

For example, vulnerability indices for nutrients are obtained from estimates of excess nutrient levels (manure or commercial fertilizer sources) combined with estimates of leaching (based on precipitation and hydrologic factors) or estimates of run-off, Figure 2 reported by Kellogg et al. [39]. In the United States to develop soil ratings based on measured soil properties for the comparison of land management systems [40] and the approach, soil quality is considered an inherent property of the soil that can be determined from measurable soil attributes [41]. When a soil quality parameter declines below an acceptable limit, an appropriate response is required to increase soil quality. Acceptable limits depend on land use, soil characteristics, landform and climatic conditions. Many potential parameters of soil quality, measurable at various scales of assessment, have been proposed (Table 1). Wander & Bollero [42] concluded that particulate organic matter, mean wet weight diameter of aggregates, bulk density and penetration resistance may be good indicators of soil quality because they are sensitive to management and environmentally relevant.

Acton & Gregorich [43] defined soil quality as “the soil’s fitness to support crop growth without resulting in soil degradation or otherwise harming the environment”. Larson & Pierce [41] stated that “soil quality describes how effectively soils: 1) accept, hold, and release nutrients and other chemical constituents; 2) accept, hold, and release water to plants, streams and groundwater; 3) promote and sustain root growth; 4) maintain suitable biotic habitat; and 5) respond to management and resist degradation”. Karlen et al. [44] defined soil quality as “the capacity of a specific kind of soil to function, within natural or managed ecosystem boundaries, to sustain plant and animal productivity, maintain or enhance water and air quality, and support human health and habitation”.

Soil quality and health

Soil quality can be defined as the fitness of a specific kind of soil, to function within its capacity and within natural or managed ecosystem boundaries, to sustain plant and animal productivity, maintain or enhance water and air quality, and support human health and habitation [45]. Soil quality is related to soil functions and soil health concepts views soil as a finite and dynamic living resource [46]. Plant health is clearly a component of soil health but necessarily not of soil quality [47]. Baker & Cook [48] described the soils in which disease severity or incidence remains low, in spite of the presence of a pathogen, a susceptible host plant and climatic conditions favorable for disease development, as suppressive soils. Soil biota like arbuscular mycorrhizal fungi play a significant role in improving plant nutrition but also act as bioprotectants against pathogens and toxic substances [49]. Thus, there is a considerable degree of overlap in the meaning of soil quality and soil health (Doran, 2002), though soil health perceptions tend to focus more on biotic components of soil [50]. Soil degradation or deterioration in soil health or quality implies loss of the vital functions of soil: (i) providing physical support, water and essential nutrients required for growth of terrestrial plants; (ii) regulation of the flow of water in the environment and (iii) elimination of the harmful effects of contaminants by means of physical, chemical and biological processes, i.e., environmental buffer or filter [38,51]. The quality and health of soil determine agricultural sustainability and environmental quality, which jointly determine plant, animal and human health [21,52].

Results and Discussion

Biofertilizer - mechanism of action

The absence of a population of degrading microorganisms can be overcome by the inoculation of the plant rhizosphere with pollutant degrading strains and biosurfactants during crop cultivation via biofertilizer. This approach successful in reducing the levels of benzene, ethylene, toluene xylenes, hydrocarbons, polychlorinated biphenyls and pesticides in polluted environments [50,53] especially in Africa poor soil profile. The rhizosphere is defined as the volume of the soil over which roots have influence, and which is shared with soil bacteria. Plants release exudates in the rhizosphere likely to serve as carbon source for microbes [54]. Consequently, rhizosphere microbes can promote plant health by stimulating root growth via production of plant growth regulators, enhance mineral and water uptake. Some bacteria, especially fluorescent pseudomonads, produce siderophores that have very high affinities for iron as compared to fungal siderophores [55] and can sequester this limited resource from other microflora thereby preventing their growth [56].

Earlier reports have demonstrated the importance of P. fluorescens siderophores in disease suppression [57,58], Figure 4. However, many endophytic bacteria are facultative plant colonizers and have to compete well in the rhizosphere before entering the plant [59] and might be therefore equipped with a rich arsenal of metabolites involved in defense as well as in interaction with the plant. Many bacteria with the capacity of colonizing plants utilize the nutrient niche of root surfaces in the rhizosphere and most of them might even actively switch from root surface to endophytic lifestyles [59,60]. These bacteria comprise several well characterized species of Bacillus and Pseudomonas and a number of metabolites, particularly lipopeptides synthesized by non-ribosomal peptide synthesases, have been described to be important for rhizosphere bacteria for antibiosis and for inducing plant defense mechanisms (Figure 5). Biofertilizer characteristics (Table 2) and biosurfactants (Table 3) applied in the filed cassava cultivation requires no chemical pesticide. This was as a result of might be cassava plant-associated lifestyle requires adaptation to several niches, in which different metabolites act as signals for interaction (communication) with the plant and host specific plants nutrient and crop protection.

To read more about this article: https://irispublishers.com/wjass/fulltext/biofertilizer-impacts-on-cassava-manihot-esculenta-crantz-cultivation-improved-soil health.ID.000578.php

Indexing List of Iris Publishers: https://medium.com/@irispublishers/what-is-the-indexing-list-of-iris-publishers-4ace353e4eee

Iris publishers google scholar citations: https://scholar.google.co.in/scholar?hl=en&as_sdt=0%2C5&q=irispublishers&btnG=

Excavator Attachments Market Professional Survey Report 2022

The global “Excavator Attachments Market” report 2022 highlights all of the dynamic elements affecting key growth factors, as well as the most recent trends and developments in the global industry. It gives a complete understanding of key manufacturers’ business development plans, current industry condition, growth areas, and future scope. The Excavator Attachments market research seeks to give regional development, market driving factors, and sales revenue. With numerous research approaches such as SWOT and PESTLE analysis, it provides extensive research and analysis of key elements and emphasizes current market circumstances. In addition, the study contains valuable information on global players’ future plans and possibilities.

In accordance with the Excavator Attachments market is set to grow at a CAGR of 5.59% over a forecast period (2022-2028).

Get a Sample Copy of the report @

Key Market Players:

Caterpillar, Rockland, Craig Manufacturing, Sandvik, Amulet, TRK, Geith, Doosan, Atlas-copco, Kenco, SEC, Manitou, ACS Industries, Volvo, Paladin, MSB, Komatsu, Furukawa, Soosan, NPK, Toku, Everdigm, Indeco, AMI Attachments, Kinshofer, Waratah, Ditch Witc and others.

This section consists of a holistic view of the competitive landscape that includes various strategic developments such as key mergers & acquisitions, future capacities, partnerships, financial overviews, collaborations, new product developments, new product launches, and other developments

Most important types of Excavator Attachments Market covered in this report are:

Bucket

Hammer

Grapple

Thumb

Rake

Harvester head

Auger

Others

Most widely used downstream fields of Excavator Attachments market covered in this report are:

Demolition

Recycling

Forestry

Excavation

Others

Geographically, the detailed analysis of consumption, revenue, market share, and growth rate of the following regions:

Global Excavator Attachments Market is further classified on the basis of region as follows:

– North America (USA, Canada, Mexico)

– Europe (Great Britain, France, Germany, Spain, Italy, Central and Eastern Europe, CIS)

– Asia Pacific (China, Japan, South Korea, ASEAN, India, rest of Asia Pacific)

– Latin America (Brazil, rest of LA)

– Middle East and Africa (Turkey, CCG, rest of the Middle East)

COVID-19 sickness began to spread all over the world at the beginning of 2021, infecting countless individuals in general, and important governments all over the world-imposed foot restrictions and work stoppage orders. Aside from the clinical supplies and life support items organizations, most endeavours have been significantly impacted, and Excavator Attachments adventures have been severely impacted.

Enquire before purchasing this report

Table of Contents Excavator Attachments Market:

Global Excavator Attachments Market Research Report 2022 – 2028

1 Excavator Attachments Introduction and Market Overview

2 Industry Chain Analysis

3 Global Excavator Attachments Market, by Type

4 Excavator Attachments Market, by Application

5 Global Excavator Attachments Consumption, Revenue (USD) by region

6 Global Excavator Attachments Production by Top Regions

7 Global Excavator Attachments by regions

8 Competitive Landscape

9 Global Excavator Attachments Market Analysis and Forecast by Type and Application

10 Excavator Attachments Market Supply and Demand Forecast by Region

11 New Project Feasibility Analysis

12 Expert Interview Record

13 Research Finding and Conclusion

14 Appendix

Continued……

The research answers the following key questions:

What will be the Excavator Attachments market size and the growth rate in the coming year?

What are the main key factors driving the global Excavator Attachments market?

What are the key market trends impacting the growth of the global Excavator Attachments market?

Which are Trending factors influencing the market shares of the top regions across the globe?

Who are the key market players and what are their strategies in the global Excavator Attachments market?

What are the market opportunities and threats faced by the vendors in the global Excavator Attachments market?

What industrial trends, drivers and challenges are manipulating its growth?

Who Will Get Advantage of This Report?

The prime aim of the Global Excavator Attachments Market is to provide industry investors, private equity companies, company leaders and stakeholders with complete information to help them make well-versed strategic decisions associated to the chances in the market throughout the world.

Thanks for reading this article; you can also get individual chapter wise section or region wise report version like North America, Middle East, Africa, Europe or LATAM, Asia.

Customization:

The Excavator Attachments Market report may be modified to meet your specific business needs. Because we understand what our clients want, we provide 25% customization for any of our Industry Data Analytics reports at no additional cost to all of our clients.

About Us –

IndustryDataAnalytics is your single point market research source for all industries including pharmaceutical, chemicals and materials, energy resources, automobile, IT, technology and media, food and beverages, and consumer goods, among others.

Contact Us:

Head of Sales: Hon Mr. Irfan Tamboli

+1 (704) 266-3234 | [email protected]

Vigore Gold: 125GM First ever organic fertilizer with Nano Technology to increase growth & productivity in all crops Improves tolerance to biotic and abiotic stress Provides nourishment to new flowers and prevents blossom drop or fruit drop Strengthens cell wall to increase its color, quality and shelf life.

Global Humic acid Market Size, Market Share Leaders, Opportunity Evaluation, Development Status, Top Manufacturers, and Forecast 2021-2027

Global Humic acid Market  size is expected to reach US$ 1.15 Bn. by year 2027 at a CAGR of 12.6% during the forecast period.

Global Humic acid Market Overview:

Global Humic acid Market overview, market dynamics, market characteristics, market geographic insights, market country-specific details, major market trends, recent market trends, and much more are covered in this MMR report. The MMR report includes details on the most recent products introduced by companies, as well as recent advancements. The analysis also contains data on which regions are expected to have the most market share during the projected period.

Market Scope:

During the projection period of 2021-2027, the Global Humic acid market is expected to grow at the quickest CAGR. Import and export consumption, supply and demand, costs, prices, shares, sales volumes, revenues, and gross margins are all included in the Maximize Market Research (MMR) study. This MMR data study looks into each manufacturer's manufacturing base, capacity, production, factory price, market price, and market share.

Request for free sample: https://www.maximizemarketresearch.com/request-sample/54979

Segmentation:

It promotes beneficial microbial activity and improves seed germination. Avoiding surface run-off, increasing soil water holding capacity, managing soil pH, and boosting root respiration are some of the additional value-adding features of the product in the agriculture industry. The superiority of the product over chemical fertilisers, as well as the benefits, will significantly boost demand in the near future.

Key Players:

• Andersons, Inc. • Everwood Farm • Nature's Lawn & Garden • Faust Bio-Agricultural Services • Humintech GmbH • Changsha Xian Shan Yuan Agriculture and Technology • Agriculture Solutions Inc. • NPK Industries • Nutri-Tech Solutions Pty Ltd. • Tagrow Co. Ltd. • WinField Solutions • Organic Approach LLC • National Pesticides & Chemicals • Sikko Industries Ltd. • Wilbur-Ellis Company LLC • Black Earth • Daymsa • Biolchim • Agbest Technology • Grow More • Manidharma Biotech • Jiloca Industrial

Get more Report Details : https://www.maximizemarketresearch.com/market-report/global-humic-acid-market/54979/

Regional Analysis:

North America, Asia Pacific, Europe, Latin America, and the Middle East and Africa are the five regions included in the MMR study. This study examines the market's major geographies, as well as noteworthy segments and sub-segments. Based on market size, share, and volume, the MMR study examines the present situation of regional development. In addition to statistics, region, and revenue, this study delves into the market chain's structure and trends.

COVID-19 Impact Analysis on Global Humic acid Market:

Between 2020 and 2021, COVID-19-related regulations, as well as industrial and labour demands, transformed the world substantially. COVID-19 has a significant negative impact on our social and living conditions, needing immediate industrial assistance and innovation. COVID-19 has generated a slew of challenges for India's migrant labourers. Millions of migrant workers lost their employment, faced food shortages, and were frightened about their future prospects as a result of the country's embargo.

The purpose of this MMR report is to provide a deeper understanding of the current economic, COVID-19, and business implications. In addition, MMR monitors the outbreak of COVID-19 across all industries, industries and disciplines. Maximize Market Research Reports (MMR) provides similar data that can be used to determine how COVID-19 impacted industry losses and growth.

Key Questions answered in the Global Humic acid Market Report are:

Which product segment grabbed the largest share in the Global Humic acid market?

How is the competitive scenario of the Global Humic acid market?

Which are the key factors aiding the Global Humic acid market growth?

Which region holds the maximum share in the Global Humic acid market?

What will be the CAGR of the Global Humic acid market during the forecast period?

Which application segment emerged as the leading segment in the Global Humic acid market?

Which are the prominent players in the Global Humic acid market?

What key trends are likely to emerge in the Global Humic acid market in the forecast period?

What is the expected Global Humic acid market size by 2027?

Which company held the largest share in the Global Humic acid market?

About Us:

Maximize Market Research provides B2B and B2C research on 12000 high growth emerging opportunities & technologies as well as threats to the companies across the Healthcare, Pharmaceuticals, Electronics & Communications, Internet of Things, Food and Beverages, Aerospace and Defence and other manufacturing sectors.

Contact Us:

MAXIMIZE MARKET RESEARCH PVT. LTD.

3rd Floor, Navale IT Park Phase 2,

Pune Bangalore Highway,

Narhe, Pune, Maharashtra 411041, India.

Email: [email protected]

Phone No.: +91 20 6630 3320

Website: www.maximizemarketresearch.com

Humic Acid Market Gross Margin, Attractiveness, Competitive Landscape, Trends, Share | Forecasts Till 2030

  Humic Acid Market Overview - The global humic acid market is high on demand and is slated to achieve a market score of USD 973.06 million by 2030 at a 12.42% CAGR by the forecast period. The necessity for soils rich in essential vitamins, nutrients, and trace minerals that is immensely beneficial for the soil is estimated to promote the development of the humic acid market share in the forecast period. The intensification in agricultural activities to feed an increasing population base is estimated to promote the humic acid market share in the impending period. Humus, simply put, is a natural compost that is formed from animal and plant matter decay. Rich in nutrients, the humus acid is a vital constituent of humus that is alkaline in nature. Owing to its alluring features and key benefits, humic acid has wide applications in ecological bioremediation, agriculture, pharmaceuticals, dietary supplements, animal feed, and others.

Obtain Brochure For Latest Technology Advancements @ https://www.marketresearchfuture.com/sample_request/5708 Humic Acid Market - Eminent Firms: Tagrow Co. Ltd., Faust Bio-Agricultural Services, Nature's Lawn & Garden, Humintech GmbH, Agriculture Solutions Inc., Changsha Xian Shan Yuan Agriculture and Technology, NPK Industries, Organic Approach LLC, National Pesticides & Chemicals, Sikko Industries Ltd., Winfield Solutions, Nutri-Tech Solutions Pty Ltd., Wilbur-Ellis Company LLC, Andersons, Inc., and others. Market Dynamics

The world's population continues to grow, resulting in a significant increase in food demand. The agriculture culture is increasing the use of organic matter such as humic acid to improve crop yield, soil quality, and other factors beneficial to long-term farming. In the long run, chemical pesticides and fertilizers have negative effects on crop yield and soil health, and they often result in soil positioning. As a result, farmers are increasingly using humic acid to enrich the soil and foster a healthy ecological balance, resulting in higher crop yields. The inconsistent quality of humic products in agricultural applications can stymie the global humic acid market's growth. Furthermore, excessive humic acid usage can have negative consequences for soil and plant development. However, growing applications in wastewater treatment and the use of humic acid as organic anodes for lithium and sodium ion batteries are expected to propel the market forward. The pandemic caused major changes in global marketing, one of which is the humic acid market. Thanks to global lockdown, the global economy was in a loss for a while. However, this pandemic brought with it a plethora of opportunities in this market. The COVID-19 has been discovered to have made the global population very health conscious, as people suddenly tended to consume and drink very fresh foods. It increases humic acid market demand, and the main drivers have strengthened their global supply chain as a result. Furthermore, according to the study, COVID-19 has wreaked havoc on the humic acid market by obtaining more customer demands. More main drivers are being employed in the humid acid sector in order to help reaching all of the countries' geographical regions. Owing to the involvement of multiple players in the sector, the competition between companies in the market is expected to be moderate. Competition is awaited in terms of pricing and the availability of innovative and successful production methods.

On the flip side, it is found that Humic Acids are relatively expensive and have a high raw material cost, which could be a factor behind a hamper to the market growth for some years. The lack of awareness and difficulties in fabrication methods, such as soldering and welding of Humic Acids, are also anticipated to restrain the market growth in the foreseen years. Access Complete Report @ https://www.marketresearchfuture.com/reports/humic-acid-market-5708 Segment Study of Humic Acid Market :- The global humic acid market has been studied and analyzed by MRFR analysts on the basis of application. This would give a better glimpse into the market with all its factors, graphs, and charts that can help in making a better assessment of the market possibilities and inspire strategies to ensure an increased profit margin. 

By application, the study on the humic acid market reveals segments like ecological remediation, animal feed, dietary supplements, pharmaceuticals, agriculture, and others. The agriculture segment had a market share of around 41% in 2017. The segment will also outrun others in establishing its market superiority. Its CAGR would be the highest during the forecast period. Its use in culturing the soil and inspire better eco-friendly ways of agriculture is making it a valued product in the agricultural sector. Recent tilt towards eco-friendly ways are expected to trigger better growth for the market. The market is also expecting some positive results from the animal feed segment, which is the second largest in terms of revenues. This segment is also going to benefit from the growing demand for better meat quality. Buy Now @ https://www.marketresearchfuture.com/checkout?currency=one_user-USD&report_id=5708 Humic Acid Market Market  - Geographical Analysis :- The regional examination of the humic acid market includes regions such as the Asia Pacific, the Middle East, North America, Europe, Latin America, and Africa. Among these regions, the North American region's humic acid market has taken the main share of 40%. The occurrence of national markets like the U.S and Canada who have a consumer-centric economy has been an important influence driving the humic acid market growth. With growing health mindfulness and awareness concerning destructive farming practices, customers are employing a high call for organic fresh food, thus motivating the need for humic acid. Furthermore, the extraordinary disposable incomes in the area are backing up the progress of organic farming, which is eventually positive for the humic acid market. The European humic acid market, which has a similar eating pattern as the North American regional market it holds the second principal stake of the humic acid market. The region also has an excessive export of milk and dairy products as many nations in the European area are well-known for their dairy goods such as butter and cheese. The region has a robust incidence of emerging economies that have a full-bodied agricultural constituent. Additionally, the rapid development, industrialization, and continuing growth of the region's residents have given rise to the usage of humic acid to grow crop yields.

Industry News:

The growing environment-friendly steps are making it easier for a product like humic acid to permeate across various industries. However, this trend is expecting some sort of restraint due to the ongoing COVID-19 impact. This is primarily due to the halting of the production process in several cities and disruption in the supply chain. Various companies are facing a lack of supply owing to which the revenue generation is taking blows. However, this change in the market is not going to remain for long as countries have started lifting bans to restore normalcy. Owing to such steps, the market expects a slow start in recovering. Read more reports at: https://www.marketresearchfuture.com/categories/chemicals-market-report Read more details at: https://www.marketresearchfuture.com/infographics Read more details at: https://www.marketresearchfuture.com/videos About Market Research Future:- At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research & Consulting Services. MRFR team have supreme objective to provide the optimum quality market research and intelligence services to our clients. Our market research studies by products, services, technologies, applications, end users, and market players for global, regional, and country level market segments, enable our clients to see more, know more, and do more, which help to answer all their most important questions. Contact Us: Wantstats Research and Media Private Limited 99 Hudson Street,5Th Floor New York, New York 10013 United States of America Maharashtra, India

1. Why Do Plants Need Fertilizer? 2. How Do I Know If I Need Fertilizer? 3. What Are Types Of Fertilizers? 4. Why Choose Organic Fertilizer Over Synthetic? 5. What Are The Three Fertilizer Numbers? 6. What Is NPK? 7. What Do Nitrogen (N), Phosphorus (P), Potassium (K) Do For Plants? 8. What Fertilizers Do For Plants? 9. Are Higher NPK Amounts Better? 10. Can Fertilizer Hurt Plants? 11. Can Fertilizer Kill Plants? 12. Can I Make My Own Liquid Fertilizer? 13. How Do I Know If My Plants Need Fertilizer? 14. How Do You Fertilize Garden Plants? 15. How Long Does Fertilizer Last In Soil? 16. How Long Does It Take For Granular Fertilizer To Work? 17. How Much Liquid Fertilizer Does a Plant Need? 18. How Often Should I Apply Slow-release Fertilizer? 19. How Often Should I Fertilize My Tomato Plants? 20. How Often Should You Fertilize Flowers? 21. Should I Feed My Plants Every Time I Water? 22. Should I Water My Plants Before Fertilizing Them? 23. What Are Some Examples Of Natural Fertilizers? 24. What Fertilizer Helps Flowers Bloom? 25. What Is a Good Fertilizer For Orchids? 26. What Time Of Day Should I Fertilize My Plants Or Flowers? 27. Which Fertilizer Makes Plants Grow Faster? All answered in this article.

Iris Publishers - World Journal of Agriculture and Soil Science (WJASS)

Increase in The Use of Organic Fertilizers as Complements to Inorganic Fertilizers in Maintenance of Soil Fertility and Environmental Sustainability

Authored by Joseph Xorse Kugbe

Introduction

Soil is taken for granted by most farmers, who often think of it as an inert support for plants. In reality, it is a dynamic, living resource whose condition is vital for food production and for the function of the ecosystem as a whole. The fertility of soil can be considered in different ways, depending on land use. In intensively managed agricultural and horticultural systems, and even in forestry, soil fertility can be defined in terms of the value of products produced relevant to inputs used (including economic aspects of nutrient budgeting). Alternatively, the emphasis may be on quality or productivity.

Soil fertility maintenance is a major concern in tropical Africa [1], particularly with the rapid population increase, which has occurred in the past few decades. In traditional farming systems, farmers use bush fallow, plant residues, household refuse, animal manures and other organic nutrient sources to maintain soil fertility, organic matter and general soil productivity. Although this reliance on biological nutrient sources for soil fertility regeneration is adequate for cropping systems with low cropping intensities, it becomes unsustainable with more intensive cropping unless fertilizers are applied [2].

Thus, the concept of soil fertility and the choice of fertility management is specific to a given context. However, in all contexts, soil fertility depends on physical, chemical and biological characteristics [3]. When soil fertility is considered in terms of the highest practical level of productivity, the focus is mostly on physical and chemical aspects of the soil. It is important to note that some aspects of the biological component of soil fertility can be overridden by addition of fertilizers, but this is not a simple phenomenon, because increase in plant growth that is associated with addition of fertilizers can increase other aspects of the biological activity in soil [4].

In a sustainable agricultural or horticultural system, soil fertility can be considered in terms of the amount of input relative to the amount of output over a long period, using a budgeting approach [2]. This definition is different from the one that defines fertility in relation to a maximum level of productivity in the short-term or at a given point in time [5]. A definition that focuses on shortterm productivity is based on the capacity of soil to immediately provide plant nutrients [6]. When sustainability of the soil resource is emphasized in the context of soil fertility, biological components Citation: Joseph Xorse Kugbe, Wuni Mawiya, Alhassan Mohammed Hafiz, Charles Maganoba. Increase in The Use of Organic Fertilizers as Complements to Inorganic Fertilizers in Maintenance of Soil Fertility and Environmental Sustainability. World J Agri & Soil Sci. 4(1): 2019. WJASS.MS.ID.000577. DOI: 10.33552/WJASS.2019.04.000577. Page 2 of 4 may become more relevant because of its long-term impact on productivity that has been variously reported [7]. A change in focus from the highest practical level of productivity to a lower, profitable and persistent level of production; temporally depend on soil biological processes. In that sense, the physical, chemical and biological components of soil are essential for sustained soil productivity.

Environmental Sustainability Essential for Today’s Soil Productivity

Sustainable agriculture refers to a farming system that seeks to achieve maximum productivity of crops and livestock that will satisfy human needs for food and fibre whiles maintaining the integrity of the ecology. A productive soil needs to be looked after. There is the need to make the most efficient use of all non-renewable resources in the soil to sustain economic viability and enhance the quality of life [8]. Sustainable agriculture adopts a holistic approach with an ultimate goal of achieving continuity in health of the soil and the people to which the system affects [9]. In that sense, all systems, processes and interactions that eventually impact the soil health must be identified for a given geographic location before long lasting impacts due to soil usage are implemented. Often, and most especially across resource-poor zones like sub Saharan Africa, knowledge of such location-specific soil interactions and processes are limited in practice. The knowledge limitation hinders the efficient and sustainable usage of soil resources for the benefit of the environment, and for the production of food for the everincreasing human population [10].

Declining Soil Fertility in the Guinea Savanna Zone of Africa Should be a Call for Concern

Over the years, enhancing and maintaining the fertility of soils across the Guinea savanna zone of Africa have become very critical issues that need to be addressed to meet the food security of these developing countries [1]. Soil fertility has been impaired by continuous cropping; with low inputs of mineral nutrients. This has been identified as a major threat, not only to food production but also to ecosystem viability [11]. Generally, improving the nutritional status of plants through the application of mineral fertilizers, and the persistence maintenance of soil health and fertility has resulted into the production of double the quantity of food produced in both developed and developing countries since the beginning of the ‘Green Revolution’ [12]. Across the Guinea Savanna zone, increases in cereal production in the past 40 years are associated with corresponding increases in fertilizer consumption [13].

According to Tillman [11] the doubling of food production during the past 40 years has been associated with about 6.9-fold increases in N fertilization, 3.5-fold increase in P fertilization and only 1.1-fold increase in cultivated land area. Similar observations have been reported in Asia [14]. As human population continues to increase however, this increase in fertilizer consumption is not enough to sustain food security and would have to be increased to over 250 kg ha-1 of NPK [12,14].

Nearly all increases in projected food requirements in the next decades will be the result of enhancements in yield per unit area and intensive use of agricultural land [2]. To increase yield capacity of crop plants and to ensure global food demand in 2020, fertilizer use should increase from 144 million tons in 1990 to 208 million tons in 2020 [13,15]. Possibly, this projected increase in fertilizer consumption by 2020 will not be adequate to meet both food production requirements and nutrient depletions that are due to nutrient removal by harvesting crops from soils. This portion of the un-estimated nutrient depletion should be of grave concern to soil scientists, as the value of its estimate can help predict the temporal health of a given soil. Byrnes and Bumb [16] estimate that by 2020, global fertilizer consumption should increase up to 300 million tons to match required demands for food production and nutrient removal from soils. In view of this estimates, there is the need for countries in the Guinea savanna zone of Africa to develop and adopt fertilizer accessible policies and take new measures to provide more support to the resource-poor farmers regarding the supply of fertilizers.

Major Challenges Facing Soil Fertility and Environmental Sustainability

Inadequate use of fertilizers raises concerns due to its adverse effects on the environment. The eutrophication of surface waters, pollution of drinking waters and fertilizer-associated greenhouse gaseous emissions that causes global warming are some environmental concerns [17-19]. There is a very close relationship between application rates of N fertilizers and the emission of nitrous oxide (N2O) [20]. Nitrous oxide is one of the most important greenhouse gases that impacts the global climate [17]. About 0.5-1.5 of fertilizer N applied is lost from soil as gaseous emissions [18,19]. Several management strategies have been developed to control and minimize N losses. These include use of N fertilizers with enzyme inhibitors like urease and nitrification inhibitors, controlled-release N fertilizers, accurate timing and placement of fertilizers, and soil and plant analysis to define rates of N application [21-23].

In these senses, nutrient use efficiency and improved soil management has become an important challenge, particularly for N and P fertilizers [23]. When the application of N fertilizers is not properly managed and is realized at excessive levels, losses of N from agricultural lands can occur through the leaching of NO3, volatilization of NH3 or emission of N oxides [17,20]. The leaching and runoff of NO3 into ground water and surface waters is a major environmental problem in developed countries, particularly in Europe [24]. It is gaining increasing attention in fast growing economies like China and should be avoided at all cost in Africa. Pollution of ground water with NO3 impairs the quality of drinking water and causes various harmful effects on human health [25]. Contamination of lakes and rivers with NO3 stimulates algal growth and depletion of respiration-required oxygen, resulting in an increasing risk of fish deaths on a large scale [25,26]. Adequate knowledge and use of both organic and inorganic sources of fertilizers, in terms of time of application, rate of application, method of application, and storage aid to reduce the impact of fertilizer application and losses on the environment.

Combined use of Organic and Inorganic Fertilizers Essential for Sustained Soil Productivity

Several studies have shown that the application of fertilizers, both from organic and inorganic sources significantly improves the growth and yield of most crops [27,28]. Thus, an integral use of both organic and inorganic fertilizer to ensure adequate supply of plant nutrients and sustain maximum crop yield and profitability has been advocated [4]. However, inorganic fertilizer is expensive and may be largely unaffordable, hence not readily available to resource-poor farmers across sub-Saharan Africa. Some findings show that the intensive continuous application of inorganic fertilizers, solely, cannot sustain the high yield of vegetable production [28]. On the other hand, organic manure such as poultry droppings is comparatively available as a cheap source of nutrients for sustainable crop production [15]. Besides the supply of essential macro and micro nutrient elements to plants, organic fertilizers improve soil physico-chemical conditions, enhance soil productivity, increase the soil organic carbon content, soil flora and fauna, soil crumb structure and the nutrient status of the soil towards attaining sustainably high yields [27].

Organic inputs contain nutrients that are released at a rate determined in part by their chemical characteristics or organic resource quality. For this reason, organic inputs applied at realistic levels seldom release sufficient nutrients for acceptable crop yield.

It has been suggested that methods involved in the current agricultural production should rather be geared towards strategies that are compatible with the principles of sustainable intensification under the agricultural production systems [14] and which are promising to the fulfilment of the needs of the present and posterity. These are the ones that involve the mobilization and use of all nutrient resources that are available to the farmer.

Combine use of organic and mineral inputs has been advocated for smallholder farming in the tropics because neither input is usually available in sufficient quantities to maximize yields and also because both are needed in the long-term to sustain soil fertility and crop production. An important question arises within the context of integrated soil fertility management: Can organic resources be used to rehabilitate less-responsive soils and make these responsive to fertilizer? In Zimbabwe, applying farmyard manure to sandy soils at relatively high rates for 3 years resulted in a clear response to fertilizer where there was no such response before rehabilitation [29].

Conclusion

An integral use of both organic and inorganic fertilizer to ensure adequate supply of plant nutrients and sustain maximum crop yield and profitability is advocated. However, inorganic fertilizer is expensive and may be largely unaffordable and not available to the resource-poor farmers found mostly across sub sahara Africa. On the other hand, organic manure, such as poultry droppings is readily available as a cheap source of nutrients for sustainable crop production. Organic fertilizer supplies the essential macro- and micro-nutrient elements to plants, as well as improves soil physicochemical conditions for better crop growth and yield.

To read more about this article: https://irispublishers.com/wjass/fulltext/increase-in-the-use-of-organic-fertilizers-as-complements-to-inorganic-fertilizers.ID.000577.php

Indexing List of Iris Publishers: https://medium.com/@irispublishers/what-is-the-indexing-list-of-iris-publishers-4ace353e4eee

Iris publishers google scholar citations: https://scholar.google.co.in/scholar?hl=en&as_sdt=0%2C5&q=irispublishers&btnG=

Global Single Superphosphate (SSP) Market- Industry Analysis and Forecast (2020-2027)

The global single superphosphate (SSP) market was calculated US$ 2.8 Bn in 2019 in terms of value and is expected to reach 4.36 Bn by 2027, at a CAGR of 4.2% during a forecast period.

Global Single Superphosphate (SSP) Market Requirement of healthy crop production with high yield using micronutrient-based fertilizers is estimated to cover 50% of single superphosphate (SSP) market growth. Market Introduction: Single superphosphate poised of two main compound which is gypsum and monocalcium and forms mineral-based fertilizer for further application. It is the foremost enricher accountable for development of the plant nutrients industry. SSP has good water solubility and hence it is a rich source of secondary nutrients like calcium and sulphur. The report study has analyzed the revenue impact of COVID-19 pandemic on the sales revenue of market leaders, market followers, and disrupters in the report, and the same is reflected in our analysis. Market Drivers and Restraints: Global Interest for material is rising because it is offering numerous facility to the farmers in terms of wide production of plant by providing nutrients during the entire growing-season and is helping fertilizers market in various terms to collect the attention from investors and will help global single superphosphate (SSP) market to grow. Furthermore, advances in chemical engineering and science are offering essential to ensure high crop yield and quality. Single Superphosphate (SSP) are highly getting adopted by nutrients sectors, as it helps to achieve effective nutrients management tools for food as well as non-food crops, will drive the market growth in the long run. Additionally, rapid growth in the research and development across the globe will boost the market demand in the coming years. It helps to intensify the organic content of soil and further contributes nutrients for microorganisms present in the soil, have benefit in reinstating chemical and physical properties of the soil and these contribute to the growth of the market. Speedy growth in crop disease due to unfavourable environment or process of harvesting and availability of fertile land across the globe is fuelling the global single superphosphate market growth. There is a constant requirement to boost the agricultural output across the globe and this will progressively shift attention towards good quality fertilizers to improve the land and soil properties to increase the productivity thus, expected to anticipate beneficial impact on the global single superphosphate (SSP) market. However, presence of substitute in the market such as triple based fertilizer, NPK fertilizer, sulphur-based fertilizers and so on is expected to restrain the market growth frame. Single Superphosphate (SSP) Market Segment analysis: By application segment, agriculture sector market size established more than XX% of the total market share in 2019.Though demand for SSP documented as one of the richest source of nutrient for the growing plants and growth in the agriculture, industrial sector is on another level in terms of market growth in the developing economies. The producers are enduring research efforts to develop better and cheaper harvesting and impregnating materials to reduce the overall cost and boost the interest towards acceptance of this technology. This segment will witness compounded annual growth rate of around X.X% from 2019 to 2027. Growing agriculture division in terms of research and development for the production of crop is projected to show major demand in near future. Single Superphosphate (SSP) Market Regional Analysis: Regionally, Asia Pacific is expected to dominate the single superphosphate (SSP) market and is expected to grow at a CAGR of X.35 % during the forecast period owing to the presence of phenomenal key players and demand of food product in the region. Developing regions like India, China, and Japan are considered as the major contributors for the Single Superphosphate (SSP) market growth in the Asia Pacific region because government policies of this region and large subsidies in certain countries up to 100% for marginal farmers, provided on fertilizers are the major factors generating the growth of this market in the Asia Pacific region. In 2019 market size was recorded US$ XX Bn, however in India, market size was valued XX Bn and expected to increase by US$ XX Bn in the coming years. Also, North America dominates the overall market with a share of more than 38%. As, North America mainly contribute to the whole SSP demand resulting to its broad application in tobacco, cotton, vegetables, and fruits production. They play major role in the subtropical and the U.S. Hence, the U.S. has been acknowledged as the leading consumer of single superphosphate (SSP) in North America, owing to the high cultivation of crops. The objective of the report is to present a comprehensive analysis of the Global Single Superphosphate (SSP) Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with a dedicated study of key players that includes market leaders, followers, and new entrants. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors of the market have been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analysed, which will give a clear futuristic view of the industry to the decision-makers. The report also helps in understanding Global Single Superphosphate (SSP) Market dynamics, structure by analysing the market segments and project the Global Single Superphosphate (SSP) Market size. Clear representation of competitive analysis of key players by Application, price, financial position, Product portfolio, growth strategies, and regional presence in the Global Single Superphosphate (SSP) Market make the report investor’s guide. Scope of Single Superphosphate (SSP) Market Global Single Superphosphate (SSP) Market, By Form • Powder • Granules Global Single Superphosphate (SSP) Market, By Application • Horticultural • Agriculture • Pasture • Others Global Single Superphosphate (SSP) Market, By Region • Asia Pacific • North America • Europe • Latin America • Middle East & Africa Key Players Operating the Single Superphosphate (SSP) Market, • Madhya Bharat Agro Products Limited • Potash Corporation of Saskatchewan • CF Industries Holdings Inc • Coromandel International Ltd • Yara International ASA • Kemyan Yanbu for Industry • Jubilant Industries Ltd • The Mosaic Company • PCC Group • Aarti Industries Ltd • Krishna Phos Chem • Bohra Industries Ltd • Phosagro • Eurochem • Richgro • Agrium Inc • Mosaic • OCP • ICL • GNFC About Us: Maximize Market Research provides B2B and B2C market research on 20,000 high growth emerging technologies & opportunities in  Chemical, Healthcare, Pharmaceuticals, Electronics & Communications, Internet of Things, Food and Beverages, Aerospace and Defense and other manufacturing sectors. Contact info: Name: Vikas Godage Organization: Maximize Market Research Pvt.Ltd.Pune Email: [email protected] Contact: +919607065656 / +919607195908 Website:www.maximizemarketresearch.com

Excavator Attachments Market by Technology Advancement 2020 to 2027

The Global Excavator Attachments Market has enlisted a noteworthy CAGR during the most recent decade. It is relied upon to arrive at higher yearly development in the imminent years. Strength, hearty monetary framework, crude material opulence, taking off worldwide Excavator Attachments request are boosting market advancement. So also, mechanical headways, advancements, expanding industrialization, and urbanization in the creating and created areas are probably going to maintain the Excavator Attachments market income during forecast 2020-2027

Click here to get the short-term and long-term impact of COVID-19 on this Market: (Including Full TOC, List of Tables & Figures, Chart)@ https://www.researchkraft.com/request-sample/1104771

Market Research Explore distributed a broad investigation of the worldwide Excavator Attachments market thinking about different significant components of the market. The exploration study includes precise and credible evaluations of the past just as the future pace of the market. The report contains indispensable assessments dependent on creation, deals volume, income, and yearly development rates. The report likewise expounds on current market contention, industry condition, fragments, and driving rivals in the worldwide Excavator Attachments market. It helps key players, partners, industry specialists, analysts, and friends authorities in increasing profound understanding of the market.

The worldwide Excavator Attachments advertise has been separated into a few essential sections, for example, item types, applications, areas, and end-clients. Moreover, it investigates locales including North America, Europe, South America, the Middle East, Asia, and the remainder of the world while performing provincial examination. The division investigation helps key players correctly focusing on the real market size and choosing suitable sections for their Excavator Attachments organizations.

The most significant players coated in global Excavator Attachments market report:

Caterpillar, Rockland, Craig Manufacturing, Sandvik, Amulet, TRK, Geith, Doosan, Atlas-copco, Kenco, SEC, Manitou Group, ACS Industries, Volvo, Paladin, MSB, Komatsu, Furukawa, Soosan, NPK, Toku, Everdigm, Indeco, AMI Attachments, Kinshofer, Waratah, Ditch Witch, Fecon Incorporated, Felco, Liboshi, Eddie, Giant I-Equipment, Yuchai, Wolong, ANT, Hongwing, Shandong Mingde, Jisan

Types is divided into:

Bucket

Hammer

Grapple

Thumb

Rake

Harvester head

Auger

Others

Applications is divided into:

Demolition

Recycling

Forestry

Excavation

Others

Global Excavator Attachments Market Regional Segmentation:

North America (U.S., Canada, Mexico) Europe (Germany, U.K., France, Italy, Russia, Spain, etc.) Asia-Pacific (China, India, Japan, Southeast Asia, etc.) South America (Brazil, Argentina, etc.) Middle East & Africa (South Africa, Saudi Arabia, etc.)

Speak to our industry expert and avail discount on Market Report (COVID-19 Impact Analysis Updated Sample): Click Here https://www.researchkraft.com/check-discount/1104771

Additionally, the report reveals insight into the market competition circumstance and execution of driving Excavator Attachments makers. The report has contemplated ongoing advancements performed by driving makers in the worldwide Excavator Attachments indusrty which incorporates item exploration, developments, and improvement. Their vital moves were likewise inspected in the report, including mergers, adventures, associations, item dispatches, and brand advancements that helped organizations extend their administration zones.

Explore Full Report with Detailed TOC, Charts, Tables and Figures @ https://www.researchkraft.com/send-an- enquiry/1104771

Contact Us:

Research Kraft

Phone: 888-213-4282

Email: [email protected]

Best Fertilizer for St. Augustine Grass for 2020 [Our Reviews and Comparisons]

when it comes to gardens and lawns. Nature does run its course but some soils might not be very rich in nutrients and a sparse lawn is unattractive. For the enthusiastic users who are concerned about their grass not covering the yard fast enough here is a list of fertilizers that you can use.

Ideally, you should look for fertilizers with high amounts of nitrogen and iron that act as supplements for your lawn. Apart from that when used with the right directions you can avoid burning down your lawn. Fertilizers that contain nitrogen, phosphorus, and potassium in other words (NPK) ratio of 4-1-2 are the preferred choice for most areas.

Best Fertilizer for St. Augustine Grass Our Reviews and Comparisons

1. Scotts Turf Builder Starter Food for New Grasse

Product Highlights

This product covers at least 1000 sq ft. of a lawn. The Scotts Turf Builder Starter Food for New Grass is the perfect solution for your lawn. It has immensely beneficial qualities that are formed by a combination of nutrients that ensures your St. Augustine grass remains fresh and luscious.

If you are looking for what will take care of your lawn long term then this is the perfect fit. The nutrients provide the right atmosphere and environment for the new grass to grow faster due to its feature of promoting faster root and blade development. Since it also helps speed up the growth this will make sure that your lawn is always fresh and good looking.

Features

This product comes with a 24-25-4 fertilizer ratio which means that it provides the required nutrient balance for your developing lawn. It also improves seeding results and works great for sod and grass plugs. You will see a noticeable difference when the grass grows as it is 70% thicker and grows at least 35% quicker when compared to unfed grass.

It is the perfect fertilizer for St. Augustine grass. So whether you are planting new grass, starting a new lawn, or reseeding an existing one, this fertilizer is the one you should be aiming to use.

Of course, you must make sure to care for the new grass and water it once a day or as much as needed to ensure that the soil is moist. Occasionally continue feeding your lawn so it sprouts a thick, green appearance. If you ever decide to mow then finally wait to mow the area until the new grass is at least three inches tall.

What We Like About Scotts Turf Builder Starter Food for New Grass

A good healthy dose of this fertilizer can actually promote thick growth making the lawn ready after winter. The difference is noticeable with a month.

What We Don’t Like About Scotts Turf Builder Starter Food for New Grass

Some customers have claimed that the changes are temporary and that the lawn was left in yellow patches.

PROS

Very effective

Affordable

Non- poisonous

Nutritional

CONS

Ineffective under certain conditions

2. Southern Ag Chelated Liquid Iron

Product Highlights

This product works really well on St. Augustine grass if your grass is showing signs of iron deficiency. If your lawn is patchy and yellow then a spray of this will turn it into a deep, rich green.

When this concentrated liquid is be mixed with water and applied liberally with a sprayer, it shows great results. Be cautious as it will stain masonry, paint, and concrete.

Features

Weighing in at 16 oz this product does not contain any nitrogen, phosphorus, or potassium. It contains 5% of iron and is specifically for use in flowers, shrubs, trees, vegetables, and lawns. Therefore it specifically is produced for yellowing grass which indicates that there is an iron deficiency. It takes care of problems and prevents them from happening again in the future. It should be used as a drenching spray.

What We Like About Southern Ag Chelated Liquid Iron

It is perfect for St.Augustine grass as it takes care of iron deficiency.

What We Don’t Like About Southern Ag Chelated Liquid Iron

If you are not careful with this product then it can stain the concrete and if you apply without gloves the smell will not come off your hands.

PROS

Very effective

Easy to Use

Works well

Shows great results

CONS

Odor

Stains

3. Dow AgroSciences 173917 Eagle 20EW Fungicide

Product Highlights

This product comes with a special fungal killing property. It delivers superior control of various lawns, turf, and ornamental diseases such as dollar spot and brown patch.

It works systemically to protect against new disease growth. Used both for curative and preventative control a single application of Eagle 20EW can protect plants for up to 28 days. The best thing is that you do not even require a large amount to do the job. A small amount can do the trick it’s that strong.

It is a versatile product that works systemically, through the entire plant to fully protect it and remove any infection.

It works well on established turfgrass like the St.Augustine grass. This includes residential and commercial lawns, ornamental turfgrass, grounds or lawns around business and office complexes, and golf course fairways, greenhouse. It even works on non-commercial tree fruits and vines, specifically apples, stone fruits, and grapes.

Features

It prevents and controls more than 15 fungal diseases that could affect your grass leaving it patchy and yellow. It controls leaf spot, zoysia large patch, brown patch, anthracnose, dollar spot, spring dead spot, necrotic ring spot, red thread, powdery mildew, rusts, septoria leaf spot.

It prevents the recurrence of any issues and can be applied preventatively during the growing season. If you do use it with a backpack sprayer, then you can opt for a concentration of 1.25 teaspoons mixed with 4 gallons of water. This will be enough to last a long time.

What We Like About Dow AgroSciences 173917 Eagle 20EW Fungicide

If you follow a 10 to 14-day application schedule then you can protect your plants all season long.

What We Don’t Like About Dow AgroSciences 173917 Eagle 20EW Fungicide

Since it is a suspended concentrate it may require repeated agitation while spraying.

PROS

Effective

Provides nutrients

Lush lawns

CONS

Multiple Applications required

4. The Andersons 19-0-6 Turf Fertilizer with Barricade Pre-Emergent Herbicide

Product Highlights

This is one must have a product that you should have in your garden shed at all times. St. Augustine grass requires lots of nutrients to flourish and this product provides it. Rich in nitrogen this product is ideal for the homeowner or even agriculturalist.

If you are looking for that blend that does an exceptional job for that spring green, then this is it. Not only that, but it will also prevent annual grass weeds which include crabgrass, goosegrass, annual foxtail, Poa annua; and broadleaf weeds including common chickweed, knotweed, henbit, prostrate spurge, common purslane, etc.

Features

Almost 50% of the nitrogen is derived from NutriSphere-N. This is a proprietary nitrogen management tool that enables growth and turf color showing results in 8 weeks. The active ingredient prodiamine acts as a pre-emergent herbicide providing excellent control of grassy and broadleaf weeds in established turfgrasses and lawns.

The ratio of NPK is 19-0-6 and it also contains 0.21% Barricade herbicide. If you go for the 50 lb bag then you can cover 11,100 sq ft, especially for the low coverage. Following this, you can use a measurement of 8,300 sq ft for medium coverage and 5,400 sq ft for high coverage. The sized particles consistently reduce segregation potential. This also works for crabgrass control, especially when applied after April.

What We Like About The Andersons 19-0-6 Turf Fertilizer with Barricade Pre-Emergent Herbicide

This product consists of a range of nutrients that is quite effective for grass to flourish.

What We Don’t Like About The Andersons 19-0-6 Turf Fertilizer with Barricade Pre-Emergent Herbicide

The coverage of this area is not as good as mentioned. This product seems to work for crabgrass but only after multiple applications.

PROS

Effective

Provides nutrients

Lush lawns

CONS

Multiple Applications required

5. Jonathan Green Winter Survival Fall Fertilizer

Product Highlights

The Jonathan Green 12400 10-0-20 Winter Survival Fall Fertilizer is perfect for outdoorsy people who take a keen interest in lawn maintenance and gardening. If you are particularly focused on marinating and rejuvenating your lawn later in the year, then this product provides the necessary nutrients to ensure full growth.

Its well-balanced formula promotes good growth and keeps your St. Augustine grass fresher looking than ever.

Features

It should ideally be applied in the fall or winter season when the lawn is comparatively dry. This container size is 15 lb and has a coverage area of 5000 sq. ft. Although it is perfectly suited for St. Augustine grass is ideal for all grass types.

It is not organic so you have to be careful while handling it. It comes in the form of granules and is not suitable for vegetables. However, it is soluble in water, meaning that you can hose down the lawn with a spreader or sprayer. The NPK ratio is 10-0-20.

This well-balanced formula, ideal for winter lawn protection contains 3% iron which is essential for the removal of yellowing and promotes the much needed deep-green color. In addition to promoting root growth, it stores nutrients for the spring season, which also makes it quite apt to use with a fall seeding. Besides, the nitrogen helps repair summer lawn damage while protecting the lawn from winter stress. The high potassium concentrate helps to promote deep rooting and growth. It can feed the turf for up to 2 months and shows the most effective results on newly seeded lawns. It also encourages winter disease prevention while promoting early spring green-up.

What We Like About Jonathan Green Winter Survival Fall Fertilizer

This product works well when you apply it before the fall so that when spring arrives the grass is fresh and green.

What We Don’t Like About Jonathan Green Winter Survival Fall Fertilizer

This product can be quite dangerous to handle and should be kept away from children and pets.

PROS

Very effective

Convenient

Promotes green growth

Prevents recurrence

CONS

Ineffective in summer

armful to children and pets

Final Verdict

The best product that you can use on your grass is the Southern Ag Chelated Liquid Iron. Your grass not only needs nourishment it also needs iron that will promote its health. It is extremely effective in promoting grass health right down to the roots. This leaves your lawn looking green as ever after the dry impact of the fall and harsh effects of winter.

Frequently Asked Questions (FAQs)

How should one use fertilizers for St.Augustine grass?

You should begin by mixing the granules before the application. Some products are chosen usually come in the form of fine granules which in turn have are meant to be mixed with water and sprayed. The instructions on the package of the fertilizer are clear as to how the granules should be mixed. Another added advantage is that you can control how concentrated the mixture can be. You always have the option of diluting it if you require something less potent. You can also add extra water so that give yourself more time while applying it to your whole yard. Some of the products we have selected come in the form of fine granules that are intended to be blended and sprayed with water. The fertilizer kit should have specific instructions about how to combine the granules. The great thing about this kind of fertilizer is you monitor how concentrated it is. If you want anything less strong then you can dilute it.

Can the Fertilizer be mixed with liquids before application?

Using a sprayer is an easy way to use this fertilizer on the grass of St. Augustine. Some fertilizers come prepared and mixed in a wide bottle with an incorporated sprayer hose attachment which is one of the most convenient application methods. If you are combining either granular or liquid fertilizer, you need to get some form of a sprayer. Hose sprayers are the simplest since, like the pre-mixed fertilizers, they are easy to use and mount right to your garden hose. Another alternative will be to invest in a sprayer. These come in several ways, usually either a tank you’re carrying around or one you can wear as a backpack. These sprayers are typically used with a pump and a wand and allow you to travel around your yard. The simplest method of using a sprayer is first to do the edges of the grass. Then move back and forth until all of your lawn is covered. It is not easy to apply liquid fertilizer. While hose sprayers may be very convenient, it’s hard to make sure you get an even application all over your lawn.

What is the most effective way to use products with granules?

Many granules are intended to be added directly to the lawn and not to be mixed and sprayed with water. You must be careful about applying the bottle or package side directions. If you use a transmitted spreader then it is going to be even more effective in dispersing the granules. Of course, it is no easy task, especially by hand. If you do not have a broadcast spreader, then it is suggested that you get one that is sold in most home improvement stores. The first thing you have to do is make sure that the spreader is adjusted properly for the size of your lawn and the amount of fertilizer that you add. This calibrates the mechanism to uniformly release the granules as you head out across the yard. To stop run-off later, fill the spreader with the granules on a rough surface, making careful to clean any spills. You can start at the edge of the lawn, and progress slowly. The easiest way to ensure that you do not lose any places is to try repeating with the wheel line left in the grass from the previous run over the lawn. Water the grass properly, after fertilization. This releases the granules in a manner that transfers the nutrients into the soil and allows the fertilizer to spread down to the surface. It also means that the granules are not swept away with

Should the soil be tested for phosphorus levels?

According to researchers phosphorus levels in soil hardly change especially over short periods. So, you can gather soil samples and submit them to a test lab to assess levels of phosphorus. It will be more beneficial if you can test the soil within one year of turf establishment. Soil samples can be taken as long as the soil is not frozen at any point of the year. The optimal scenario will be to gather soil and send the sample(s) to a research laboratory as close as possible to the time of formation. Just make sure to give the laboratory time to process the samples and return your report with advice on phosphorus. Besides, construct the report in a few days to understand and buy the right quantity and type of fertilizer.

What is the most ideal time for fertilizers to be applied to the St.Augustine Grass?

When applying a starter fertilizer, there are certain things to be kept in mind. It is ideal when you apply before seeding or before laying sod. In some cases, you can apply it after you plant your grass seed. Do not add it directly to freshly planted sod because it may occur while burning. In fact, after planting, you can wait six to eight weeks before adding another dose of balanced fertilizer to your grass so it does not burn. The Penn State Extension advises doing a soil test when it comes to determining how much starting fertilizer for the lawn you’ll need. The test will mention exactly what nutrients in the soil need to beef up to support your turf is grown and how much is required. Nitrogen, phosphorus, and potassium are the three most essential nutrients that your turfgrass requires for healthy growth and health. The application of the starter fertilizer into the soil before planting has advantages. If phosphorous and potassium are added only to the soil surface they are unable to travel quickly enough down into the earth. Moreover, nitrogen can be quickly leached from the soil before the plant even gets a chance to consume the nutrients. Therefore, it is possible to till 4 to 6 inches of soil with any additional modifications that you make. However, if you wish, after continuing to spread your grass seed, you can distribute the starter fertilizer over the site immediately.

How should the fertilizer be applied?

If you have earned your soil test, you have chosen a good starter fertilizer for your soil and know the requisite quantities. It is relatively easy to apply to the lawn field. Simply pour the appropriate volume into a regular fertilizer spreader and distribute the starter fertilizer equally over the place of planting. If you are planting grass seed or sod after application, work the substance 4 to 6 inches into the soil until applied. If after adding grass seed you are spraying the substance, scatter the substance over the soil and pour it into the soil. Do not go crazy in its use and assume it is easier to do something. Like for certain aspects in life, too much of a good thing can be terrible, and too much starter fertilizer can be adversely affected by burning to your growing grass. A soil test takes the suspense out of what your soil is missing and lets you know what starter fertilizer your lawn wants and how much it wants. We hope our list of products and FAQs help you purchase the Best St. Augustine Grass Fertilizer according to your requirements.

The post Best Fertilizer for St. Augustine Grass for 2020 [Our Reviews and Comparisons] appeared first on Weed Killer Guide.

Humic Acid Market by 2030 with Outlook and Trends with Analysis of Leading Market Players

Humic Acid Market Overview - The global humic acid market is high on demand and is slated to achieve a market score of USD 973.06 million by 2030 at a 12.42% CAGR by the forecast period. The necessity for soils rich in essential vitamins, nutrients, and trace minerals that is immensely beneficial for the soil is estimated to promote the development of the humic acid market share in the forecast period. The intensification in agricultural activities to feed an increasing population base is estimated to promote the humic acid market share in the impending period. Humus, simply put, is a natural compost that is formed from animal and plant matter decay. Rich in nutrients, the humus acid is a vital constituent of humus that is alkaline in nature. Owing to its alluring features and key benefits, humic acid has wide applications in ecological bioremediation, agriculture, pharmaceuticals, dietary supplements, animal feed, and others.

Obtain Brochure For Latest Technology Advancements @ https://www.marketresearchfuture.com/sample_request/5708 Humic Acid Market - Eminent Firms: Tagrow Co. Ltd., Faust Bio-Agricultural Services, Nature's Lawn & Garden, Humintech GmbH, Agriculture Solutions Inc., Changsha Xian Shan Yuan Agriculture and Technology, NPK Industries, Organic Approach LLC, National Pesticides & Chemicals, Sikko Industries Ltd., Winfield Solutions, Nutri-Tech Solutions Pty Ltd., Wilbur-Ellis Company LLC, Andersons, Inc., and others. Market Dynamics

The world's population continues to grow, resulting in a significant increase in food demand. The agriculture culture is increasing the use of organic matter such as humic acid to improve crop yield, soil quality, and other factors beneficial to long-term farming. In the long run, chemical pesticides and fertilizers have negative effects on crop yield and soil health, and they often result in soil positioning. As a result, farmers are increasingly using humic acid to enrich the soil and foster a healthy ecological balance, resulting in higher crop yields. The inconsistent quality of humic products in agricultural applications can stymie the global humic acid market's growth. Furthermore, excessive humic acid usage can have negative consequences for soil and plant development. However, growing applications in wastewater treatment and the use of humic acid as organic anodes for lithium and sodium ion batteries are expected to propel the market forward.

The pandemic caused major changes in global marketing, one of which is the humic acid market. Thanks to global lockdown, the global economy was in a loss for a while. However, this pandemic brought with it a plethora of opportunities in this market. The COVID-19 has been discovered to have made the global population very health conscious, as people suddenly tended to consume and drink very fresh foods. It increases humic acid market demand, and the main drivers have strengthened their global supply chain as a result. Furthermore, according to the study, COVID-19 has wreaked havoc on the humic acid market by obtaining more customer demands. More main drivers are being employed in the humid acid sector in order to help reaching all of the countries' geographical regions. Owing to the involvement of multiple players in the sector, the competition between companies in the market is expected to be moderate. Competition is awaited in terms of pricing and the availability of innovative and successful production methods.

On the flip side, it is found that Humic Acids are relatively expensive and have a high raw material cost, which could be a factor behind a hamper to the market growth for some years. The lack of awareness and difficulties in fabrication methods, such as soldering and welding of Humic Acids, are also anticipated to restrain the market growth in the foreseen years. Access Complete Report @ https://www.marketresearchfuture.com/reports/humic-acid-market-5708 Segment Study of Humic Acid Market :- The global humic acid market has been studied and analyzed by MRFR analysts on the basis of application. This would give a better glimpse into the market with all its factors, graphs, and charts that can help in making a better assessment of the market possibilities and inspire strategies to ensure an increased profit margin. 

By application, the study on the humic acid market reveals segments like ecological remediation, animal feed, dietary supplements, pharmaceuticals, agriculture, and others. The agriculture segment had a market share of around 41% in 2017. The segment will also outrun others in establishing its market superiority. Its CAGR would be the highest during the forecast period. Its use in culturing the soil and inspire better eco-friendly ways of agriculture is making it a valued product in the agricultural sector. Recent tilt towards eco-friendly ways are expected to trigger better growth for the market. The market is also expecting some positive results from the animal feed segment, which is the second largest in terms of revenues. This segment is also going to benefit from the growing demand for better meat quality.

Buy Now @ https://www.marketresearchfuture.com/checkout?currency=one_user-USD&report_id=5708 Humic Acid Market Market  - Geographical Analysis :- The regional examination of the humic acid market includes regions such as the Asia Pacific, the Middle East, North America, Europe, Latin America, and Africa. Among these regions, the North American region's humic acid market has taken the main share of 40%. The occurrence of national markets like the U.S and Canada who have a consumer-centric economy has been an important influence driving the humic acid market growth. With growing health mindfulness and awareness concerning destructive farming practices, customers are employing a high call for organic fresh food, thus motivating the need for humic acid. Furthermore, the extraordinary disposable incomes in the area are backing up the progress of organic farming, which is eventually positive for the humic acid market. The European humic acid market, which has a similar eating pattern as the North American regional market it holds the second principal stake of the humic acid market. The region also has an excessive export of milk and dairy products as many nations in the European area are well-known for their dairy goods such as butter and cheese. The region has a robust incidence of emerging economies that have a full-bodied agricultural constituent. Additionally, the rapid development, industrialization, and continuing growth of the region's residents have given rise to the usage of humic acid to grow crop yields.

Industry News:

The growing environment-friendly steps are making it easier for a product like humic acid to permeate across various industries. However, this trend is expecting some sort of restraint due to the ongoing COVID-19 impact. This is primarily due to the halting of the production process in several cities and disruption in the supply chain. Various companies are facing a lack of supply owing to which the revenue generation is taking blows. However, this change in the market is not going to remain for long as countries have started lifting bans to restore normalcy. Owing to such steps, the market expects a slow start in recovering. Read more reports at: https://www.marketresearchfuture.com/categories/chemicals-market-report Read more details at: https://www.marketresearchfuture.com/infographics Read more details at: https://www.marketresearchfuture.com/videos About Market Research Future:- At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research & Consulting Services. MRFR team have supreme objective to provide the optimum quality market research and intelligence services to our clients. Our market research studies by products, services, technologies, applications, end users, and market players for global, regional, and country level market segments, enable our clients to see more, know more, and do more, which help to answer all their most important questions. Contact Us: Wantstats Research and Media Private Limited 99 Hudson Street,5Th Floor New York, New York 10013 United States of America Maharashtra, India

Soluble Fertilizer Market – Detailed Analysis of Current Industry Figures with Forecasts Growth during 2020-2026

Global Marketers has added the latest research study on Global Soluble Fertilizer Market. The report presents a dashboard outline of leading companies covering their successful marketing strategies, market contribution, and recent developments in both historic and present contexts. The report reveals the latest market insights, current situation analysis with upcoming trends, and breakdown of the products and services.

The Soluble Fertilizer Market report on the Global Soluble Fertilizer Market covers details about market segmentation based on technology, product type, end-user industry, and regional analysis. The report provides a brief overview of the market for Soluble Fertilizer and current and future market trends. The report considers 2017-2018 as historical years, 2019 as the base year, and provides an estimate for the forecast period of 2020-2026. The Soluble Fertilizer Market report provides a comprehensive analysis in an organized manner in the form of tables, graphs, charts, figures, and diagrams.

Get Sample Copy of Soluble Fertilizer Market Report:

https://www.globalmarketers.biz/report/chemicals-and-materials/global-soluble-fertilizer-market-2019-by-manufacturers,-regions,-type-and-application,-forecast-to-2024/131820#request_sample

Some of the key players operating in the Soluble Fertilizer Market include:

Haifa Chemicals Yara Arab Potash Company Omex Everris Bunge SQM UralChem ICL Fertilizers Sinclair Grow More EuroChem Group Mosaicco Nutrite Aries Agro LemagroNV Dongbu Farm Hannong Stanley Hebei Monbang CNAMPGC Holding Hanfeng Batian Kingenta Sichuan Guoguang Agrochemical Beijing Jinggeng Tianxia Agricultural Science and Technology Strongwill group

Regional Outlook (Revenue in USD Billion; 2020–2026)

North America

Europe

Asia Pacific

Middle East & Africa

Latin America

The Soluble Fertilizer Market has witnessed a dynamic change in the market scenario and demands owing to changes in the economic landscape of the world. The report provides market growth and shares analysis with regards to the COVID-19 pandemic. It also covers the analysis of the present and future impact of the crisis on the overall development of the industry.

Request a discount on the report @

https://www.globalmarketers.biz/discount_inquiry/discount/131820

Soluble Fertilizer Market Segmentation:

Market Segment by Type:

NPK Water-soluble Humic Acid Water-soluble Amino Acid Water-soluble Other

Market Segment by Applications:

Horticulture Crop Other

The Soluble Fertilizer Market report covers a detailed analysis of the significant market players and their market share and global position. This report s include a SWOT analysis, Porter’s Five Forces Analysis. The report provides comprehensive coverage of the developments and strategic advancements such as mergers and acquisitions, joint ventures, collaborations, product launches, etc. undertaken by the key companies.

Make an Inquiry of this Report @

https://www.globalmarketers.biz/report/chemicals-and-materials/global-soluble-fertilizer-market-2019-by-manufacturers,-regions,-type-and-application,-forecast-to-2024/131820#inquiry_before_buying

Key Highlights of the Soluble Fertilizer Reports:

Comprehensive overview of Soluble Fertilizer Market

Changing market dynamics of the Soluble Fertilizer  industry

In-depth market segmentation by Type, Application, etc.

Current Soluble Fertilizer industry trends

The viable landscape of Soluble Fertilizer Industry Market

Strategies of key players and product offerings

Key pointers of the Table of Contents:

Chapter 1 Soluble Fertilizer Industry Overview

Chapter 2 Production Soluble Fertilizer  Market Analysis

Chapter 3 Sales Market Analysis

Chapter 4 Consumption Market Analysis

Chapter 5 Production, Sales and Consumption Soluble Fertilizer Market Comparison Analysis

Chapter 6 Major Manufacturers Production

Chapter 7 Major Material Analysis

Chapter 8 Major Soluble Fertilizer Type Analysis

Chapter 9 Industry Chain Analysis

Chapter 10 Global and Regional Market Forecast

Chapter 11 Major Manufacturers Analysis

Chapter 12 Conclusions

Chapter 13 Appendix

Click the Below link and Get a Full Table of Content @:

https://www.globalmarketers.biz/report/chemicals-and-materials/global-soluble-fertilizer-market-2019-by-manufacturers,-regions,-type-and-application,-forecast-to-2024/131820#table_of_contents

Effect of Foliar Application of Zinc and Boron on Growth and Yield Components of Wheat-Juniper Publishers

A field experiment entitled “Effect of foliar application of Zinc and Boron on growth and yield components of wheat” was conducted at Bacha Khan Agricultural Research Farm (BARF), Bacha Khan University, Charsadda during the winter season 2015-16. The aim of the experiment was to investigate the effect of foliar application of Zinc and Boron on growth and yield components of wheat. Treatments included zinc (as zinc sulfate 25g/L-1), boron (as boric acid 20g/L-1) and zinc plots boron (as zinc sulfate and boric acid 25 g/L-1 and 20g/L-1, respectively). Water spray and no spray were used as control. The experiment was planned according to randomized complete block design (RCBD) consisting of three replications. Seed was applied at the rate of 100kg ha-1. The recommended dose of NPK was applied at the rate of 60, 75 and 0kg ha-1 respectively. It was revealed from that the results of the experiments that foliar application of zinc + boron in wheat showed significant variation for all of the parameters recorded during the course of study except days to emergence. In case of interaction, maximum plant height (103cm), grains spike-1 (45), 1000 grains weight (37g), grain yield (5966.67kg ha-1), biological yield (19059kg ha-1) and harvest index (31.30%) were recorded with foliar application of zinc + boron. Maximum plant height (102cm), grains spiek-1 (44.6), 1000 grains weight (36g), grain yield (5743kg ha-1), biological yield (14707.7kg ha-1) and harvest index (39.06 %) were recorded with foliar application of zinc.

Keywords: Wheat; Zinc; Boron; Foliar

    Introduction

Wheat (Triticum aestivum L.) is a member of family gramineae. In Pakistan, wheat is used as a staple food. Wheat plays a major role in the world food trade. Wheat provides around 20% of protein and calories consumed around the world. In Khyber Pakhtunkhwa it was grown on about 0.746 million hectares with annual production of 1.76 million tones. The average yield was 2359 kg ha-1 [1]. Wheat is the major source of plant-based human nutrition and a part of daily dietary need in one form or the other. A conservative estimate illustrates two and half times low yield in Pakistan than other wheat producing countries of the world including China, India, USA, Russia and France [2].

Micronutrients play a vital role in plant nutrition and plant production. Agricultural soils generally show deficiency in micronutrients such as zinc, boron, iron and copper. The deficiency may occur due to the low contents of micronutrients [3]. Wheat is known to respond to the application of several macro and micronutrients during its growing stages and results in enhanced output in terms of yield. Although micronutrients comprising zinc, copper, iron, manganese, boron, molybdenum and chlorine are required by plants in much smaller amounts, they are as essential as the major nutrients such as nitrogen, phosphorus, potassium etc. Arif [4] found that foliar application of micronutrients at tillering, jointing and booting stages help in improving yield of wheat. Foliar application is credited with the advantage of quick and efficient utilization of nutrients, eliminating losses through leaching, and fixation and helps in regulating the uptake of nutrients by plants [5]. The benefit of nutrients application on leaves is that it gets very quickly and directly to the leaf cells where they are utilized [6].

Boron is one of the seven essential micronutrients required for the normal growth of most of the cereal, fruit and vegetable crops. It also influences cell development and elongation [7]. Boron affects carbohydrates metabolism and plays a role in amino acid formation and synthesis of proteins [8]. Deficiency of boron can also cause reduction in crop yield and inferior crop quality. Boron is an essential plant food element, having a specific role in growth and development of plants.

Abbas [9] found that different Zn levels significantly affected spike length, number of spikelet spike-1, 1000-grains weight and straw yield. Habib [10] reported that Zn spray increased grain yield of wheat and its relevant traits. El-Ghamry [11] stated that foliar micronutrients (Boron and Zinc) gave the maximum mean values of all investigated yield parameters. Ali [12] stated that significant increase was recorded in number of spikes m-2 grains spike-1, 1000-grain weight, biological yield and grain yield for foliar application of Zinc and Boron as compared to both the control treatments. Zinc concentration of plants is also affected by organic matter, water situation, and texture of the soils [13]. The primary tasks of foliage are photosynthesis and the regulation of transpiration. Because of their structure, leaves can uptake nutrients under certain conditions and to a certain extent only [14]. The role of essential microelements Zinc was proved in forming of more than 200 enzymes [6]. Keeping in view the increasing demand of wheat worldwide, the present study was therefore carried out to investigate the effects of different foliar applications of Zn and B on growth and yield components of the wheat variety Pirsabak-2013.

    Materials and Methods

A field experiment entitled “Effect of foliar application of Zinc and Boron on growth and yield components of wheat” was conducted at Bacha Khan Agricultural Research Farm (BARF), Bacha Khan University, Charsadda during the winter season 2015- 16. The aim of the experiment was to investigate the effect of foliar application of Zinc and Boron on growth and yield components of wheat. The experiment was planned according to randomized complete block design (RCBD) consisting of three replications, each replication having 5 plots. The variety Pirsabak-2013 was used as test variety. The net plot size was 5x1.8m2 with 5 rows. Plot to plot distance was 0.5m while replication to replication distance was kept 1m. Row to row distance was 30cm. Seed was applied at the rate of 100kg ha-1. The recommended dose of NPK was applied at the rate of 60, 75 and 0kg ha-1 respectively. Urea and DAP were used as sources of N and P respectively. Full dose of DAP was applied at the time of sowing. Half of Urea was applied at the time of sowing and the remaining half was applied after the first irrigation. Foliar spray of Zn, B and Zn + B was applied on February 18, 2016 i.e. at booting stage. All other agronomic practices were kept uniform for all the plots of the experiment.

Results and Discussion

Days to physiological maturity

Table 1 shows data for days to physiological maturity of wheat as affected by foliar application of Zinc and Boron. By analyzing the data statistically, it was revealed that days to maturity of wheat were significantly affected by foliar application of Zinc and Boron. Control plots took maximum days to maturity (165). Foliar application of zinc, boron and their combination resulted in minimum number of days. To maturity i.e. 159, 161 and 159 respectively. It is revealed that both zinc and boron application have maturity of the wheat crop. These results are in line with Khalili et al. [16].

Plant height (cm)

Data for effect of foliar application of Zinc and Boron on wheat is shown in Table 1

After statistical analysis of the data, it was revealed that plant height of wheat was significantly affected by foliar application of Zinc and Boron. Combined application of Zinc and Boron produced maximum plant height (103.33cm) while the control plots produced minimum plant height. Increase in plant height might be the involvement of micronutrients in different physiological processes like enzyme activation, electron transport, chlorophyll formation and stomatal regulation etc. which ultimately resulted in greater dry matter [16,17].

Grains spike-1

Grains spike-1 of wheat as affected by foliar application of zinc and boron is presented in Table 1. Analysis of the data showed that treatments significantly affected Grains spike-1 of the crop. Maximum grains spike-1 (45) were recorded in plots sprayed with combination of zinc and boron, while minimum Grains spike-1 (42.6) were recorded in plots without any spray. Increase in number of grains spike-1 might be due to foliar application due the involvement of B in pollen tube formation resulting in more seed settlement. Deficiency of B at reproductive stage may result in male sterility of wheat [18] leading to shorter anthers and nonfertility of many florets and ultimately poor grain set per ear [19- 21].

1000-grains weight (g)

Statistical analysis of the data showed significant effect of foliar application of Zn and B on 1000-grains weight of wheat (Table 2). Maximum 1000-grains weight (37g) was noted in plots which received foliar application of Zn + B while minimum 1000 grains weight (32g) was recorded in control plots. Increase in this attribute by foliar spray might be due to the involvement of the sprayed zinc and boron in enzyme activation, membrane integrity,chlorophyll formation, stomatal balance and starch utilization at early stages which enhanced accumulation of assimilate in the grains resulting in heavier grains of wheat at later stages. In conformity, Soylu et al. [22], Guenis et al. [20] and Hussian et al. [17] reported significant increase in 1000-grains weight of wheat with foliar application of micronutrients.

Grain yield (kg ha-1)

Table 2 shows data for grain yield of wheat as affected by foliar application of Zn and B. Statistical analysis of the data revealed that the combine application of Zn and B produced maximum grain yield (5966.67kg ha-1) while minimum grain yield (4921.3kg ha-1) was recorded when no spray was used. Zinc and boron play a vital role in increasing grain yield of wheat because zinc and boron take place in many physiological process of plant such as chlorophyll formation, stomatal regulation, starch utilization which enhance grain yield of wheat [17]. Zinc also converts ammonia to nitrate in crops which contribute to yield [23].

Biological yield (kg ha-1)

Data regarding biological yield are presented in Table 2. The table shows that foliar application of Zn and B significantly affected biological yield. Maximum biological yield (19059.7kg ha-1) was obtained when Zn and B foliar application was used while minimum biological yield (12929.3kg ha-1) was recorded in plots with no spray. Application of micronutrients enhances physiological processes in plant, resulting in enhanced Growth and dry matter production [16,17]. As earlier reported in Table 2, application of zinc and boron resulted in higher plant heights which resulted in higher biological yield of the crop.

Harvest index (%)

Harvest index of wheat as affected by foliar application of zinc and boron is presented in Table 2. Analysis of data revealed that significant differences occurred on the harvest index (HI) due to difference treatments. Maximum harvest index was recorded in plots sprayed with zinc. However, this was not significantly difference from harvest index (29.72) was observed in plots with boron. This too was similar to harvest index (31.30) from plots sprayed with combination of zinc and boron. Foliar application of zinc and boron significantly affected harvest index of wheat. Maximum harvest index was recorded with zinc spray while minimum harvest index was observed with boron application. This might be due to better starch utilization resulting in more seed set and developing grains which increases the grain size. The result is in line with Gouis [24].

Conclusion

a. It was concluded from the results of the experiment that maximum grains spike-1 and 1000-grains weight were recorded for foliar application of Zn + B.

b. Similarly, biological yield and grain yield were also maximum with the application of Zn + B spray.

Global CBD Plant Nutrients Market- Industry Analysis and Forecast (2019-2027)

Global CBD Plant Nutrients Market was valued US$ XX Mn in 2019 and is expected to grow US$ XX Mn by 2027, at a CAGR of XX% during the forecast period. The report study has analyzed the revenue impact of COVID-19 pandemic on the sales revenue of market leaders, market followers, and market disrupters in the , and the same is reflected in our analysis. Market Overview: CBD plant nutrients are macro- and micro-nutrients essential for the healthy growth of a plant and gain high yield. These nutrients improve the overall growth of the CBD plant. The growth of the global CBD plant nutrients industry is high because of the legalization of CBD in most of the countries. Therefore, the demand for CBD nutrients has increased considerably in the last few years. The nutritional requirement of CBD is considered like that of corn with a high requirement of nitrogen and potassium in several stages of their life cycle. This has boosted the demand for these nutrients from the cultivators of cannabis. Market Dynamics: Global CBD plant nutrients industry share is high in demand in the pharmaceutical industry as they have proved to be helpful in the treatment of several chronic diseases. They are also gradually used in the cosmetic industry. The validation of hemp cultivation in most of the countries across the world is expected to contribute to the growth of the global market. Also, the continuous research on cannabinoids and improving the status of cannabis in Asian countries are expected to generate lucrative growth opportunities for the cultivators of CBD. On the other hand, the stringent regulations concerning the production of CBD through synthetic methods are expected to restrain the growth of the global market in the future. Market Segmentation: By type, the macronutrient segment held the largest market share in 2018. Macronutrients are important at each stage of the CBD plant’s growth. Different phases, though, require different combinations of the NPK ratio. The high requirement for nitrogen and potassium for growth and high yield of hemp is the key driving factor for macronutrients. But, the micronutrients segment is estimated to show a higher CAGR during the forecast period. The rising awareness concerning the benefits of micronutrients on the yield is expected to contribute to the growth of the segment. According to the category, the conventional segment accounted for the largest market share in 2018, because of conventional farming practices. Though, the organic segment is projected to exhibit a higher CAGR, on account of the increasing inclination for organic food and ingredients. Region-wise, the Asia-Pacific CBD plant nutrients market is expected to be the largest during the forecast period. The region accounted for 40.44% of the global market share in 2018. China, Australia, and New Zealand are among the key contributors to the growth of the market. The North American market also holds a noticeable share of the global CBD plant nutrients industry and is likely to exhibit a noteworthy CAGR during the forecast period. Canada is estimated to hold the majority market share during the forecast period. The objective of the report is to present a comprehensive analysis of the Global CBD Plant Nutrients Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with a dedicated study of key players that includes market leaders, followers and new entrants. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors of the market have been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analyzed, which will give a clear futuristic view of the industry to the decision-makers. The report also helps in understanding Global CBD Plant Nutrients Market dynamics, structure by analyzing the market segments and project the Global CBD Plant Nutrients Market size. Clear representation of competitive analysis of key players by type, price, financial position, Product portfolio, growth strategies, and regional presence in the Global CBD Plant Nutrients Market make the report investor’s guide.