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gracesade-blog · 5 years

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Global Phycocyanin Market Size 2019: Research Methodology, Top Manufactures and Market Size Estimate 2026

Industry Overview of the Phycocyanin: The’Phycocyanin Market’research added by Acquire Market Research, is essentially an exhaustive review of present and future trends of this business sphere. The report also collates a concise outline of industry share contenders, market share, market size in terms of value and volume, distribution channel, and geographical spectrum along with revenue predictions of the industry landscape. In this report, the global Phycocyanin Market will reach 66.25 Million USD by the end of 2022 with a CAGR of 15.35% The global Phycocyanin market is valued at 32.44 Million USD in 2017 and will reach 66.25 Million USD by the end of 2022, growing at a CAGR of 15.35% during 2017-2022.

Phycocyanin is a pigment-protein complex from the light-harvesting phycobiliprotein family, along with allophycocyanin and phycoerythrin. It is an accessory pigment to chlorophyll. All phycobiliproteins are water-soluble, so they cannot exist within the membrane-like carotenoids can. Instead, phycobiliproteins aggregate to form clusters that adhere to the membrane called phycobilisomes. Phycocyanin is a characteristic light blue color, absorbing orange and red light, particularly near 620 nm (depending on which specific type it is), and emits fluorescence at about 650 nm (also depending on which type it is). Allophycocyanin absorbs and emits at longer wavelengths than phycocyanin C or phycocyanin R. Phycocyanins are found in Cyanobacteria (also called blue-green algae).

Phycocyanin can be divided into three categories: food grade, cosmetic grade, and pharmaceutical grade. Food Grade type accounted for the highest proportion in the sales market, with a figure of 68.03% in 2017, followed by Pharmaceutical Grade, account for 25.84% and cosmetic grade account for 6.13%. In 2013, the Federal Food approve phycocyanin as color additives used in food, the application into the natural food colorant is paying much attention, and many companies begin to put much more investments into the phycocyanin industry. The market share of natural food colorant rose from 65.11% in 2012 to 85.93% in 2017 AMR center data shows that North America is the biggest contributor to the Phycocyanin revenue market, accounting for 54.28% of the total global market with a revenue of 17.61 million USD in 2017, followed by Europe, 28.27% with a revenue of 9.17 million USD. DIC is the largest company in the global Phycocyanin market, accounted for 46.52% of the revenue market share in 2017, followed by King Dnarmsa Spirulina and Parry Nutraceuticals, accounted for 15.88% and 5.27% of the revenue market share in 2017. The Phycocyanin industry is not concentrated, these manufacturers range from large multinational corporations to small privately-owned companies compete in this industry. The top five producers account for above 75 % of the revenue market. Request a Sample Copy of Report: https://www.acquiremarketresearch.com/sample-request/274266/ The readers will find this report very helpful in understanding the Phycocyanin market in depth. The data and the information regarding the market are taken from reliable sources such as websites, annual reports of the companies, journals, and others and were checked and validated by the industry experts. The facts and data are represented in the report using diagrams, graphs, pie charts, and other pictorial representations. This enhances the visual representation and also helps in understanding the facts much better. Manufacturer Detail: DIC, Japan Algae, Parry Nutraceuticals, Ozone Naturals, EcoFuel Laboratories, Nan Pao International Biotech, King Dnarmsa Spirulina, Zhejiang Binmei Biotechnology, Wuli Lvqi, Norland Product Type Segmentation: Food Grade, Cosmetic Grade, Pharmaceutical Grade Industry Segmentation: Natural Food Colorant, Pharmaceutical Industry The global Phycocyanin market is fragmented and the major players have used various strategies such as new product launches, expansions, agreements, joint ventures, partnerships, acquisitions, and others to increase their footprints in this market in order to sustain in long run. The report includes market shares for global, Europe, North America, Asia Pacific, and South America. Phycocyanin Market Competitive Analysis: The Phycocyanin Industry is intensely competitive and fragmented because of the presence of several established players participating in various marketing strategies to expand their market share. The vendors available in the market compete centered on price, quality, brand, product differentiation, and product portfolio. The vendors are increasingly emphasizing product customization through customer interaction. Click Here To Get Exclusive Discount @https://www.acquiremarketresearch.com/discount-request/274266/

Key Reasons to Purchase Phycocyanin Report: -To gain insightful analyses of the Keyword market and have a comprehensive understanding of the global market and its commercial landscape. - Keyword Report assesses the production processes, major issues, and solutions to mitigate the development risk. - To understand the most affecting driving and restraining forces in the Keyword market and its impact on the global market. - Learn about the Keyword market strategies that are being adopted by leading respective organizations. - To understand the future outlook and prospects for the Keyword market. Access full Report Description, TOC, Table of Figure, Chart, etc. @ https://www.acquiremarketresearch.com/industry-reports/phycocyanin-market/274266/ At last, It includes the methodical description of the various factors such as the Phycocyanin market growth and detailed information about the different company’s revenue, growth, technological developments, production, and the various other strategic developments. If you have any special requirements, please let us know and we will offer you the report as you want.

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promarketstatistics · 5 years

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Performance Additives Market Report

The report offers an overview of the Performance Additives with the help of application segments and geographical regions (United States, Europe, China, Japan, Southeast Asia, India, Central & South America, ROW) that govern the market currently.

Global Performance Additives Market report 2019 offers a professional and in-depth market study on the current state of the global Performance Additives industry along with Market share, competitive landscape, and revenue forecast 2024. The report firstly introduced the basics: definitions, classifications, applications, key players and industry chain overview; industry policies; product specifications; manufacturing processes; cost structures and more. Then it analyzed the world’s target region market conditions, including the product price, capacity, profit, production, utilization, demand, supply, and industry growth rate, etc. In the end, the report introduced project SWOT analysis, investment feasibility analysis, and investment return analysis. In the meantime, primary research is done in parallel to the secondary research, with respect to conveyance channel, region, and product types.

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Overview of the report: The report begins with a market overview and moves on to cover the growth prospects of the Performance Additives. Global Performance Additives industry 2019 is a comprehensive, professional report delivering market research data that is relevant for established players or new market entrants. Key strategies of the companies operating in the markets and their impact analysis have been included in the report. Furthermore, a business overview, revenue share, and SWOT analysis of the leading players in the Performance Additives are available in the report.

Markets Status: Combining the data analysis and integration capabilities with the relevant findings, the report has predicted the Performance Additives market future growth in all its geographical and product types. In addition to this, several major variables that will shape the Performance Additives industry and regression models to analyze the future direction of the markets have been employed to create the report.

Leading Manufacturers Analysis in Performance Additives market: Altana AGÿ, BASF SEÿ, Carl Schlenk AG, Cathay Industries Group, Clariant AG, CRISTAL, DIC Corporation, Ferro Corporation, Huntsman Corporation, ISHIHARA SANGYO KAISHA, LTD. (The ISK Group), Lanxess AG, Meghmani Group of Industries, Merck Group, Pidilite Industries Limited, Sudarshan Chemical Industries Limited, The Chemours Company, The Shepherd Color Companyÿ, Tokan Material Technology Co., Ltd (TOMATEC), Tronox Limited, By ProductInorganic Pigments, Organic Pigments, Specialty PigmentsBy End UserPaints & Coatings, Printing Inks, Plastics, Construction Materials, OtherBy Inorganic PigmentsTitanium Dioxide, Iron Oxide, Cadmium, Carbon Black, Chromium CompoundsBy Organic PigmentsAzo, Phthalocyanine, QuinacridoneBy Specialty PigmentsClassic Organic, Metallic, High Performance Inorganic, Light Interference, Complex Inorganic, Fluorescent, Luminescent or Phosphorescent, Thermochromic, By The prime objective of this report is to help the user understand the market in terms of its definition, segmentation, market potential, influential trends, and the challenges that the market is facing. Deep researches and analysis were done during the preparation of the report. The readers will find this report very helpful in understanding the market in depth. The data and the information regarding the market are taken from reliable sources such as websites, annual reports of the companies, journals, and others and were checked and validated by the industry experts. The facts and data are represented in the report using diagrams, graphs, pie charts, and other pictorial representations. This enhances the visual representation and also helps in understanding the facts much better.Points Covered in The Report:The points that are discussed within the report are the major market players that are involved in the market such as manufacturers, raw material suppliers, equipment suppliers, end users, traders, distributors and etc.The complete profile of the companies is mentioned. And the capacity, production, price, revenue, cost, gross, gross margin, sales volume, sales revenue, consumption, growth rate, import, export, supply, future strategies, and the technological developments that they are making are also included within the report. The historical data from 2012 to 2017 and forecast data from 2018 to 2023.The growth factors of the market is discussed in detail wherein the different end users of the market are explained in detail.Data and information by manufacturer, by region,

The current environment of the global Performance Additives industry and the key trends shaping the market are presented in the report. Insightful predictions for the Performance Additives for the coming few years have also been included in the report. These predictions feature important inputs from leading industry experts and take into account every statistical detail regarding the Performance Additives.

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Statistical forecasts in the research study are available for the total Performance Additives along with its key segments. The key market segments, their growth prospects, and the new opportunities they present to market players have been mentioned in the report. The report also provides valuable proposals for new project development that can help companies optimize their operations and revenue structure.

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#Uncategorized #Materials and Chemicals

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reefertilizer-blog · 5 years

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Adequate light is the most important factor that should be considered when growing marijuana plants. Just like using nutrients made for cannabis, quality light should be well supplied to your plants to enable proper growth.

To produce more cannabis buds, light is your secret weapon.

Using the correct wavelengths of light also ensures that the cannabis buds will be as potent as possible.

Cannabis is very light-sensitive, there is a need to adjust the light intensity, color, and frequency for each of its growth stages. This emulates the natural conditions found in nature.

This is the reason indoor growers tend to buy a full-color spectrum of lights for their plants to maximize their budding and growing abilities.

In this article, we will answer the question of how does the light color spectrum impact growing cannabis. Let’s get started already, shall we?

The Light Color Spectrum

When we see a rainbow we are amazed at the beauty of all the colors. Rainbows are formed when white light is dispersed through water vapor. This refracted light breaks up into the individual colors that make up white light. Each one of these colors in the rainbow has a wavelength.

These different wavelengths of visible light are what make up the colors we see. The visual spectrum of light contains wavelengths that range from 700nm at the red end down to 400nm at the violent edge. “nm” stands for nanometers.

The reason things have color is that an object will absorb some wavelengths of light while reflecting others.

So for example, a green leaf will absorb all colors of light except for green. The green wavelength is reflected and we see that as color.

Black and white are not considered colors, they refer to shade and brightness. Black objects absorb all of the visible light spectra while white objects reflect it. This is why dark objects get hot faster on a sunny day, they absorb more light energy and give it off as heat.

I hope you’re still following me here. Light and color are two really interesting science topics. I encourage you to learn more about them if sciency stuff is your thing. This is a fairly basic explanation, but understanding how light and color work will help you make more informed choices when it comes to growing lights.

This chart shows what wavelengths of light chlorophyll A and B absorb from the light spectrum.

Chlorophyll A is the primary pigment used for photosynthesis. A will absorb violet-blue and orange-red light energy.

Chlorophyll B works as an accessory pigment that increases the amount of the light spectrum the plant can use as energy. It absorbs more blue light energy.

This chart shows an example of the different intensities of wavelength of the visible spectrum of daylight. Of course this will change on any given day and depend on the time of the season.

When the sun is lower in the horizon for longer periods (late summer and fall), plants receive more of the red and orange wavelengths. These colors naturally trigger a plants ability to flower and produce fruit in an attempt to propagate before the cold winter months.

How Light Color Affects the Growth of Cannabis Plants?

There are lots of grow lights on the market and each has its pros and cons. If you have taken the time to pay keen attention, you will discover that many of these lights will offer different colors of light. This can sometimes be referred to as light temperature.

Natural sunlight provides the entire light spectrum. As the year moves along and seasons change the amount of wavelength energy changes. In the summer sunlight is heavy with green and blue wavelengths, while in the fall because of the shorter days and the sun being lower in the sky, it will give off more red light.

This change in wavelength intensity and duration is what tells plants and animals to prepare for seasonal changes. Cannabis plants are no exception.

Three Types of Common Grow Lights

Cool White CFL Bulb

A great light for young cuttings and seedlings. The cool white varieties provide lots of blue spectrum light that promote new growth. These lights put out about 50 watts of energy which is inadequate for large scale cannabis growing but great for starting plants in smaller home grows.

Blue Red LED

These common LED light arrays usually range in power output from 100 watts to 1000. They provide lots of light energy at a smaller energy footprint than more traditional grow lights. Many come with a switch that will turn on more red light LED to help promote flowering.

HPS (High Pressure Sodium)

These lights gives off plenty of red, orange, and yellow light energy. This makes them perfect to use during the flowering phase when these wavelengths help with flowering.

When growing indoors you’re trying your best to emulate the perfect outdoor conditions. Each phase of a plant’s growth (from vegetative to flowering stage) is being exposed to various wavelengths of light to maintain the process of photosynthesis and bud formation. Understanding the natural changes in sunlight and how plants react can help you improve your growing skills.

For better clarity, let’s look at the various colors along the light spectrum, their corresponding wavelengths and how they impact marijuana plants. They include:

Ultraviolet Spectrum

Ultraviolet or UV light has a wavelength that ranges from 10nm to 400nm; this type of light energy is known to be harmful to human skin when they are exposed to it. Our bodies react by developing a tan in an attempt to block light from further damaging skin cells.

UV light in large amounts can also damage plants.

Two types of UV rays exist; UV-A (315-400nm) and UV-B (280-315nm).

UV-A is considered harmful to marijuana plants. Regardless of its harmfulness (not just to cannabis but other plants as well), plants have evolved a natural defense mechanism against UV lights by secreting of enzymes, antioxidants, and chemicals to prevent more damage. However, at greater concentration, it’s still damaging to the plant.

UV-B on the other hand, when compared to UV-A, is far less harmful to cannabis plants. UV-B light seems to have a positive effect on cannabis plant growth. More research needs to be done to determine what the exact benefits are, but numerous growers swear that feeding plants UV-B light improves growth, flavor, and potency.

There are grow lights now which offer a full spectrum of visible light; that also includes infrared light and UV-B.

Violet Spectrum

Violet light is on the bottom end of the visual light spectrum. Its wavelength ranges from 380nm to 450nm. This range of light is considered to improve color, potency, and taste of flowers. Violet light isn’t a major growth factor compared to blue and red spectrum light.

“Blurples”

Many LED grow lamps will give off light that looks purple. These types of lamps are fondly known as blurples. You would be wrong to think this was light from only the violet wavelength. Each LED bulb is designed to shine a specific wavelength of light. To maximize efficiency the entire lamp is made up of specific wavelengths LEDs that are connected to plant growth. Blue and red are the most predominant but sometimes other wavelengths like UVB and white light are added in smaller numbers. When you combine red and blue light our eyes see the color purple. Blurple LED lights give off very little of the violet wavelength.

Blue Spectrum

The blue spectrum of light is very important for cannabis plant growth. This wavelength lies between 450nm and 495nm. This color of light is best used at the sprout and vegetative stage of growth as it promotes rapid growth and development of the plant.

Outdoors during spring blue light energy is abundant. This is a natural trigger for new growth. It also keeps marijuana plants stable by helping them grow a strong stem and aids in the process of photosynthesis. Plants that are blue light deficient often turn out pale or yellow and are often weak flopping over under their weight.

Blue light can easily and quickly be supplemented by using cool white fluorescent bulbs, but most LED and alternative grow lights will provide blue light as well.

This graph shows the available light spectrum on a Mars Hydro LED (Mars Reflector 192). As you can see it gives off a lot of blue and orange-red light. Fantastic for both veg and flower.

This graph shows the available light spectrum on the newer Mars Hydro LEDs that provide a more complete light spectrum (TSW 2000). As you can see it gives off much more green and yellow light.

Green Spectrum

This spectrum of light plays a role (albeit minor) in the growth of marijuana plants at various stages. Its wavelength ranges from 495nm to 570nm.

Cannabis plants absorb very little green light energy, but there are reports that small amounts can affect growth.

For most growers, green light isn’t necessary for a successful grow. But, If you feel like growing cannabis with lights that have a more complete spectrum of color then a little bit of green energy is a big yes.

One thing that’s great about green light and cannabis is that it doesn’t trigger flowering. Cannabis is very sensitive to light and dark cycles. A small amount of light during the night period could trick your plants in thinking it’s time to flower. Cannabis doesn’t “see” green light making it the perfect color of light to use if you want to work on your plants during the night period.

Yellow Spectrum

Yellow light energy has a wavelength that ranges from 570nm to 590nm. It is of little importance during photosynthesis but yellow/red light is essential for the flowering stage of the plant’s growth as it promotes budding.

Besides its usefulness in budding and flowering, it’s of very little use to the plant during the vegetative growth stage. Yellow light energy on its own is a minor contributor to photosynthesis.

Red Spectrum

The final color on the visible light spectrum is red. It has a wavelength that ranges from 620nm to 750nm. This light is necessary during the flowering stage of marijuana plants. Adding red light induces budding and flowering. Many cannabis growers will switch to a stronger red light source once their plant gets to the flowering stage. Red light mixed with blue gets the best response from cannabis plants.

What’s The Difference Between Cool and Warm Light?

You may hear people refer to light as either “cool” or “warm”. This describes the colors of the spectrum going from violet to red. Cool colors are on the lower end of the light spectrum (violet, blue, green), while warm colors are on the higher end (yellow, orange, red).

What’s the best color light to use for cannabis seedlings

A seedling will respond best to blue light. Sprouts will stretch and grow tall if there’s not enough blue light available. Not much light power is needed at this stage since the plants are so small. Many growers will use 50 watt cool white CFL bulbs specifically for their seedlings and cuttings.

What’s the best color light to use for growing cannabis

During the vegetative stage of cannabis growth, plants react well to lots of blue light. It’s important to also provide some red light too. The combination of blue and red light is the recipe for growth.

What’s the best color light to use for flowering cannabis

Switching your plants over to light that is heavier in the orange/red part of the light spectrum will help induce flowering as well as improve it. Don’t drop the blue light altogether, it’s still required but in slightly smaller amounts than red and orange light.

The Bottom Line About Light and Cannabis

Nothing beats natural sunlight. Cannabis plants can grow huge outdoors in the right sunny conditions. Growlights only give off a fraction of the light energy the sun provides. Using limited spectrum lights are adequate for indoor growing. Blue light and red light will successfully grow a cannabis plant without any problems. Using grow lights that provide a fuller spectrum of visual light will have an affect on the plant and usually results in a bigger yield. Your decision on using different types of light will depend on your unique situation. If you’re thinking of upgrading your lights, try going for something that better emulates the sun like full spectrum lights made for growing plants.

Thanks For Reading

The importance of cannabis to humans cannot be underestimated. It not only slows down cancer cells from spreading, prevents Alzheimer’s disease, treats glaucoma, relieves arthritis but solves a whole lot of other medical issues. Even the act of growing cannabis can bring a great sense of well being.

It takes a lot of different factors to grow good weed and light is a biggie. I hope this article helped you understand how light and cannabis work together. Feel free to ask any questions below.

Light is just one key factor for successful cannabis growing. Learn even more secrets to success with our free 40+ page guide full of images. Get your today!

This guide will answer many questions about growing cannabis, like the following…

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The post How Does The Color Spectrum Affect Growing Cannabis Plants? appeared first on Reefertilizer.

#cannabis #grow weed #cannabis nutrients #grow good weed

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deepresearcherfundamentals · 7 months

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The fluorescent pigment market size is projected to reach USD 498 million by 2028, at a CAGR of 5.7 % from USD 377 million in 2023. The growth in emerging markets, coupled with increased use in security and anti-counterfeiting measures, will contribute to the rapid growth in the demand for fluorescent pigment.

Download PDF Brochure: https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=239119498

Based on Intensity type, the fluorescent pigment market has been segmented into high intensity, medium intensity and Low Intensity. High-intensity fluorescent pigments, characterized by their vibrant and eye-catching hues, find extensive use in sectors such as signage, advertising, and safety markings. These pigments are favored for their ability to stand out prominently even in challenging lighting conditions. Medium-intensity fluorescent pigments cater to applications where a balance between visibility and subtlety is desired, often employed in textiles, packaging, and graphic arts. On the other hand, low-intensity fluorescent pigments, with their softer glow, are well-suited for applications requiring a more muted and sophisticated appearance, such as cosmetics and specialty printing. As industries continue to prioritize aesthetics, safety, and functionality, the fluorescent pigment market, with its intensity-based segmentation, offers a versatile array of solutions to meet varied business needs.

Based on end-use industry, the fluorescent pigment market has been segmented into security & currency, packaging, automotive & transportation, building & construction, textile, and cosmetics. In the realm of security and currency, fluorescent pigments play a pivotal role in fortifying anti-counterfeiting measures, adding a layer of authenticity to banknotes and critical documents. Within the packaging sector, these pigments are prized for their capacity to captivate attention, elevating the visual appeal of labels, tags, and packaging materials. The automotive and transportation industry capitalizes on fluorescent pigments for coatings that enhance visibility, ensuring both safety and aesthetic appeal. In the context of building and construction, fluorescent pigments find utility in safety markings, architectural coatings, and decorative features. Textiles undergo a vibrant transformation with the infusion of fluorescent pigments, meeting the demand for fashionable and trendsetting products. The cosmetics industry embraces these pigments to craft vivid and striking color formulations. Thus, the fluorescent pigment market emerges as an indispensable player, adept at addressing the diverse aesthetic and functional needs of a multitude of industries on a global scale.

Asia Pacific is the fastest-growing market for fluorescent pigment. This growth is mainly attributed to the rapidly increasing industrialization & urbanization, which drives the demand in booming economies in China, and India. As a result, the demand for fluorescent pigment experiences a corresponding upswing, as it serves a critical role in the production process of various end-use applications. The region's large population coupled with a growing middle class and increasing disposable income boosts the demand. Low labor costs and easy raw material availability attract manufacturers to cater to the local emerging markets better.

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The key global players in the fluorescent pigment market include Radiant Color NV (Belgium), Luminochem (Hungary), Wanlong Chemical Co., Ltd. (China), Sinloihi Co., Ltd. (Japan), Wuxi Minghui International Trading Co., Ltd. (China), DayGlo Color Corp. (US), Aron Universal Limited (India), Vicome Corp. (China), Hangzhou Aibai Chemical Co., Ltd. (China), Brilliant Group Inc. (US) and others.

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