Microalgae
Biofuels
Chlorella
Chlorophyta
Diatoms
Photobioreactors
Stramenopiles
Eukaryota
Chlorella vulgaris
Scenedesmus
Spirulina
Chlamydomonas reinhardtii
Biomass
Dinoflagellida
Harmful Algal Bloom
Biotechnology
Phytoplankton
Haptophyta
Electromagnetic biostimulation of living cultures for biotechnology, biofuel and bioenergy applications. (1/148)
(+info)Maximum photosynthetic yield of green microalgae in photobioreactors. (2/148)
(+info)Effects of shear stress on the microalgae Chaetoceros muelleri. (3/148)
(+info)Serious overestimation in quantitative PCR by circular (supercoiled) plasmid standard: microalgal pcna as the model gene. (4/148)
(+info)Benthic composition of a healthy subtropical reef: baseline species-level cover, with an emphasis on algae, in the Northwestern Hawaiian Islands. (5/148)
(+info)Algal photosynthesis as the primary driver for a sustainable development in energy, feed, and food production. (6/148)
(+info)Raman spectroscopy analysis of botryococcene hydrocarbons from the green microalga Botryococcus braunii. (7/148)
(+info)Marine prasinovirus genomes show low evolutionary divergence and acquisition of protein metabolism genes by horizontal gene transfer. (8/148)
(+info)Microalgae are microscopic, simple, thalloid, often unicellular organisms that belong to the kingdom Protista. They can be found in freshwater and marine environments, and they are capable of photosynthesis, which allows them to convert light energy, carbon dioxide, and water into organic compounds such as carbohydrates, proteins, and fats.
Microalgae are a diverse group of organisms that include various taxonomic groups such as cyanobacteria (also known as blue-green algae), diatoms, dinoflagellates, and euglenoids. They have important ecological roles in the global carbon cycle, oxygen production, and nutrient recycling.
In addition to their ecological significance, microalgae have gained attention for their potential applications in various industries, including food and feed, pharmaceuticals, cosmetics, biofuels, and environmental bioremediation. Some species of microalgae contain high levels of valuable compounds such as omega-3 fatty acids, antioxidants, pigments, and bioactive molecules that have potential health benefits for humans and animals.
Biofuels are defined as fuels derived from organic materials such as plants, algae, and animal waste. These fuels can be produced through various processes, including fermentation, esterification, and transesterification. The most common types of biofuels include biodiesel, ethanol, and biogas.
Biodiesel is a type of fuel that is produced from vegetable oils or animal fats through a process called transesterification. It can be used in diesel engines with little or no modification and can significantly reduce greenhouse gas emissions compared to traditional fossil fuels.
Ethanol is a type of alcohol that is produced through the fermentation of sugars found in crops such as corn, sugarcane, and switchgrass. It is typically blended with gasoline to create a fuel known as E85, which contains 85% ethanol and 15% gasoline.
Biogas is a type of fuel that is produced through the anaerobic digestion of organic materials such as food waste, sewage sludge, and agricultural waste. It is composed primarily of methane and carbon dioxide and can be used to generate electricity or heat.
Overall, biofuels offer a renewable and more sustainable alternative to traditional fossil fuels, helping to reduce greenhouse gas emissions and decrease dependence on non-renewable resources.
Chlorella is a type of single-celled, green freshwater microalgae that is rich in nutrients, including proteins, vitamins, minerals, and chlorophyll. It is often marketed as a dietary supplement or health food because of its high nutritional content. Chlorella contains all the essential amino acids, making it a complete protein source, and is also rich in antioxidants, such as vitamin C, beta-carotene, and various phytochemicals.
Chlorella has been studied for its potential health benefits, including its ability to support immune function, detoxify heavy metals from the body, improve digestion, and reduce chronic inflammation. However, more research is needed to confirm these potential benefits and determine safe and effective dosages. It's important to note that chlorella supplements are not regulated by the FDA, so it's crucial to choose reputable brands and consult with a healthcare provider before taking any new supplements.
Chlorophyta is a division of green algae, also known as green plants. This group includes a wide variety of simple, aquatic organisms that contain chlorophylls a and b, which gives them their characteristic green color. They are a diverse group, ranging from unicellular forms to complex multicellular seaweeds. Chlorophyta is a large and varied division with approximately 7,00
Diatoms are a major group of microscopic algae (single-celled organisms) that are widely distributed in both marine and freshwater environments. They are an important part of the aquatic food chain, serving as primary producers that convert sunlight and nutrients into organic matter through photosynthesis.
Diatoms have unique cell walls made of biogenic silica, which gives them a glass-like appearance. These cell walls often have intricate patterns and structures, making diatoms an important group in the study of nanotechnology and materials science. Additionally, diatomaceous earth, a sedimentary rock formed from fossilized diatom shells, has various industrial uses such as filtration, abrasives, and insecticides.
Diatoms are also significant in the Earth's carbon cycle, contributing to the sequestration of atmospheric carbon dioxide through their photosynthetic activities. They play a crucial role in the ocean's biological pump, which helps regulate the global climate by transporting carbon from the surface ocean to the deep sea.
A photobioreactor is not a medical term, but rather a term used in the fields of biology, engineering, and environmental science. It refers to a device or system designed for the cultivation of photosynthetic organisms such as algae, cyanobacteria, and other microorganisms using light as an energy source.
In simple terms, a photobioreactor is a bioreactor that uses light to drive the growth of photosynthetic organisms. These systems are often used in research, biotechnology, and wastewater treatment applications to produce valuable products such as biofuels, nutraceuticals, pharmaceuticals, and other high-value compounds.
While photobioreactors may not have a direct medical application, they can contribute to medical research and healthcare through the production of biomass or specific compounds that can be used in medical treatments, diagnostics, or therapeutic interventions.
Stramenopiles is a group of primarily heterotrophic (i.e., organisms that obtain nutrition by consuming other organisms) eukaryotic microorganisms, including many algae and some parasites. The name "Stramenopiles" comes from the Latin words "stria" meaning "stripe" and "pilus" meaning "hair," which refer to the unique structure of their flagella (whip-like structures used for movement).
Members of this group have two distinct types of flagella, one with tripartite hairs (tinsel flagellum) and the other with smooth or finely haired surfaces (whiplash flagellum). Stramenopiles include a diverse range of organisms such as diatoms, brown algae, golden algae, water molds, and oomycetes.
Some stramenopiles are unicellular and exist as free-living plankton in aquatic environments, while others form complex multicellular structures and can be found in both freshwater and marine ecosystems. Some stramenopiles have evolved to become parasites or pathogens of plants, animals, and other microorganisms.
It is worth noting that the taxonomy and classification of Stramenopiles are still subjects of ongoing research and debate among scientists.
Eukaryota is a domain that consists of organisms whose cells have a true nucleus and complex organelles. This domain includes animals, plants, fungi, and protists. The term "eukaryote" comes from the Greek words "eu," meaning true or good, and "karyon," meaning nut or kernel. In eukaryotic cells, the genetic material is housed within a membrane-bound nucleus, and the DNA is organized into chromosomes. This is in contrast to prokaryotic cells, which do not have a true nucleus and have their genetic material dispersed throughout the cytoplasm.
Eukaryotic cells are generally larger and more complex than prokaryotic cells. They have many different organelles, including mitochondria, chloroplasts, endoplasmic reticulum, and Golgi apparatus, that perform specific functions to support the cell's metabolism and survival. Eukaryotic cells also have a cytoskeleton made up of microtubules, actin filaments, and intermediate filaments, which provide structure and shape to the cell and allow for movement of organelles and other cellular components.
Eukaryotes are diverse and can be found in many different environments, ranging from single-celled organisms that live in water or soil to multicellular organisms that live on land or in aquatic habitats. Some eukaryotes are unicellular, meaning they consist of a single cell, while others are multicellular, meaning they consist of many cells that work together to form tissues and organs.
In summary, Eukaryota is a domain of organisms whose cells have a true nucleus and complex organelles. This domain includes animals, plants, fungi, and protists, and the eukaryotic cells are generally larger and more complex than prokaryotic cells.
Chlorella vulgaris is a species of freshwater microalga that is commonly used in health supplements, skincare products, and agricultural applications due to its high nutritional value and rapid growth rate. It contains various nutrients such as proteins, carbohydrates, lipids, vitamins, minerals, and pigments like chlorophyll.
In the medical field, Chlorella vulgaris has been studied for its potential health benefits, including:
1. Detoxification: Chlorella vulgaris is known to have a strong ability to bind to heavy metals and other toxins, making it useful in detoxification therapies.
2. Immune system support: Some studies suggest that Chlorella vulgaris may help boost the immune system by increasing the activity of natural killer cells and enhancing the production of antibodies.
3. Anti-inflammatory effects: Chlorella vulgaris contains various bioactive compounds, such as carotenoids and phenolic acids, that exhibit anti-inflammatory properties.
4. Antioxidant activity: The high content of chlorophyll, carotenoids, and other antioxidants in Chlorella vulgaris may help protect cells from oxidative damage.
5. Cardiovascular health: Some research indicates that Chlorella vulgaris may help lower blood pressure, reduce serum cholesterol levels, and improve lipid metabolism, which could contribute to better cardiovascular health.
6. Anti-cancer properties: Preliminary studies suggest that Chlorella vulgaris may have potential anti-cancer effects by inhibiting the growth of cancer cells and inducing apoptosis (programmed cell death). However, more research is needed in this area to confirm its efficacy and safety.
It's important to note that while Chlorella vulgaris has shown promise in various health applications, further research is required to fully understand its benefits and potential risks. Always consult a healthcare professional before starting any new supplement or therapy.
I'm sorry for any confusion, but "Scenedesmus" is not a medical term. It is actually the name of a genus of green algae that are commonly found in freshwater environments. These algae are single-celled, but they can exist in colonies, and they are often used in research and industry due to their ability to produce various useful compounds. If you have any questions about biology or another non-medical topic, I'd be happy to try to help!
Spirulina is not typically considered in medical definitions, as it is a type of blue-green algae that is often used as a dietary supplement or superfood due to its high nutritional content. However, here's a brief description:
Spirulina (Arthrospira spp.) is a filamentous, spiral-shaped, photosynthetic cyanobacterium that grows in warm, alkaline fresh and brackish waters. It is often found in tropical and subtropical lakes with high pH values and high concentrations of carbonate and bicarbonate. Spirulina contains various nutrients such as proteins, carbohydrates, lipids, vitamins (including B12), minerals, carotenoids, and antioxidants like phycocyanobilin. It has been used for its potential health benefits, including boosting the immune system, reducing inflammation, supporting cardiovascular health, and providing antioxidant protection. However, it is essential to consult healthcare professionals before starting any dietary supplement regimen, as individual needs and responses may vary.
Chlamydomonas reinhardtii is a species of single-celled, freshwater green algae. It is commonly used as a model organism in scientific research due to its simple unicellular structure and the ease with which it can be genetically manipulated. C. reinhardtii has a single, large chloroplast that contains both photosynthetic pigments and a nucleomorph, a remnant of a secondary endosymbiotic event where another alga was engulfed by an ancestral eukaryote. This species is capable of both phototactic and photophobic responses, allowing it to move towards or away from light sources. Additionally, C. reinhardtii has two flagella for locomotion, making it a popular subject for ciliary and flagellar research. It undergoes closed mitosis within its single, diploid nucleus, which is surrounded by a cell wall composed of glycoproteins. The genome of C. reinhardtii has been fully sequenced, providing valuable insights into the molecular mechanisms underlying photosynthesis, flagellar assembly, and other fundamental biological processes.
Biomass is defined in the medical field as a renewable energy source derived from organic materials, primarily plant matter, that can be burned or converted into fuel. This includes materials such as wood, agricultural waste, and even methane gas produced by landfills. Biomass is often used as a source of heat, electricity, or transportation fuels, and its use can help reduce greenhouse gas emissions and dependence on fossil fuels.
In the context of human health, biomass burning can have both positive and negative impacts. On one hand, biomass can provide a source of heat and energy for cooking and heating, which can improve living standards and reduce exposure to harmful pollutants from traditional cooking methods such as open fires. On the other hand, biomass burning can also produce air pollution, including particulate matter and toxic chemicals, that can have negative effects on respiratory health and contribute to climate change.
Therefore, while biomass has the potential to be a sustainable and low-carbon source of energy, it is important to consider the potential health and environmental impacts of its use and implement appropriate measures to minimize any negative effects.
Dinoflagellida is a large group of mostly marine planktonic protists, many of which are bioluminescent. Some dinoflagellates are responsible for harmful algal blooms (HABs), also known as "red tides," which can produce toxins that affect marine life and human health.
Dinoflagellates are characterized by two flagella, or whip-like structures, that they use for movement. They have complex cell structures, including a unique structure called the nucleomorph, which is the remnant of a former endosymbiotic event where another eukaryotic cell was engulfed and became part of the dinoflagellate's cell.
Dinoflagellates are important contributors to the marine food chain, serving as both primary producers and consumers. Some species form symbiotic relationships with other marine organisms, such as corals, providing them with nutrients in exchange for protection and other benefits.
A Harmful Algal Bloom (HAB) is a rapid growth or accumulation of toxic or harmful algae in aquatic environments, which can cause harm to humans, animals, and the environment. These algae produce toxins that can contaminate water supplies, shellfish, and other seafood, leading to illness or even death if ingested. HABs can also result in oxygen depletion in the water, creating "dead zones" where fish and other marine life cannot survive. They are often caused by nutrient pollution from agricultural runoff, sewage, and other human activities that increase the amount of nitrogen and phosphorus in the water.
Biotechnology is defined in the medical field as a branch of technology that utilizes biological processes, organisms, or systems to create products that are technologically useful. This can include various methods and techniques such as genetic engineering, cell culture, fermentation, and others. The goal of biotechnology is to harness the power of biology to produce drugs, vaccines, diagnostic tests, biofuels, and other industrial products, as well as to advance our understanding of living systems for medical and scientific research.
The use of biotechnology has led to significant advances in medicine, including the development of new treatments for genetic diseases, improved methods for diagnosing illnesses, and the creation of vaccines to prevent infectious diseases. However, it also raises ethical and societal concerns related to issues such as genetic modification of organisms, cloning, and biosecurity.
I'm not a medical expert, but I can provide you with some information about algal DNA.
Algal DNA refers to the genetic material found in algae, which are simple, photosynthetic organisms that live in various aquatic environments. The DNA of algae is similar to that of other living organisms, as it carries the genetic instructions necessary for the growth, development, and reproduction of these single-celled or multicellular life forms.
Algal DNA can be found in different types of algae, including:
1. Chlorophyta (green algae)
2. Rhodophyta (red algae)
3. Phaeophyceae (brown algae)
4. Cyanobacteria (blue-green algae or cyanoprokaryotes, which are actually bacteria with photosynthetic capabilities)
These different groups of algae have unique characteristics and ecological roles in their environments. Studying the DNA of algae can help researchers understand their evolutionary relationships, genetic diversity, and potential applications in various fields such as biotechnology, bioenergy, and environmental science.
Phytoplankton are microscopic photosynthetic organisms that live in watery environments such as oceans, seas, lakes, and rivers. They are a diverse group of organisms, including bacteria, algae, and protozoa. Phytoplankton are a critical component of the marine food chain, serving as primary producers that convert sunlight, carbon dioxide, and nutrients into organic matter through photosynthesis. This organic matter forms the base of the food chain and supports the growth and survival of many larger organisms, including zooplankton, fish, and other marine animals. Phytoplankton also play an important role in global carbon cycling and help to regulate Earth's climate by absorbing carbon dioxide from the atmosphere and releasing oxygen.
Haptophyta is a group of unicellular algae also known as Prymnesiophytes. They are characterized by the presence of unique organelles called haptonema, which is used for attachment and possibly feeding. Many species have calcium carbonate scales or plates in their cell walls. Haptophyta are important primary producers in marine environments and some of them can form harmful algal blooms. They are also known to produce a wide range of bioactive compounds.
'Aquatic organisms' are living beings that inhabit bodies of water, such as oceans, seas, lakes, rivers, and ponds. This group includes a wide variety of species, ranging from tiny microorganisms like plankton to large marine mammals like whales. Aquatic organisms can be divided into several categories based on their specific adaptations to their environment, including:
1. Plankton: small organisms that drift with the water currents and include both plants (phytoplankton) and animals (zooplankton).
2. Nekton: actively swimming aquatic organisms, such as fish, squid, and marine mammals.
3. Benthos: organisms that live on or in the bottom of bodies of water, including crustaceans, mollusks, worms, and some types of algae.
4. Neuston: organisms that live at the air-water interface, such as certain species of insects and small fish.
Aquatic organisms play a critical role in maintaining the health and balance of aquatic ecosystems, providing food and habitat for other species, and contributing to global nutrient cycling and climate regulation.
Algal proteins are a type of protein that are derived from algae, which are simple, plant-like organisms that live in water. These proteins can be extracted and isolated from the algae through various processing methods and can then be used as a source of nutrition for both humans and animals.
Algal proteins are considered to be a complete protein source because they contain all of the essential amino acids that the body cannot produce on its own. They are also rich in other nutrients, such as vitamins, minerals, and antioxidants. Some species of algae, such as spirulina and chlorella, have particularly high protein contents, making them a popular choice for use in dietary supplements and functional foods.
In addition to their nutritional benefits, algal proteins are also being studied for their potential therapeutic uses. For example, some research suggests that they may have anti-inflammatory, antioxidant, and immune-boosting properties. However, more research is needed to confirm these potential health benefits and to determine the optimal dosages and methods of use.
Distillation is a laboratory technique or industrial process in which a mixture is heated to produce a vapor, which is then condensed and collected as a purified liquid. In the medical context, distillation may refer to the process of extracting or purifying certain substances, such as essential oils from plants or alcohol for use in medicinal preparations. It is also used in the production of pharmaceuticals and chemical compounds. The process works by taking advantage of differences in volatility between components in a mixture: those with lower boiling points vaporize first and are condensed separately, allowing for their isolation.
Microalgae - Wikipedia
Start-up Yemoja's High-precision Cultivation Delivers Customized Microalgae
Using microalgae to produce an alternative to palm oil | NTU Singapore
Scottish start-up secures investment to accelerate microalgae production
Hydrothermal liquefaction of marine microalgae biomass using co-solvents - DRI
Researchers develop cheaper, cleaner way to grow biodiesel producing microalgae | Latest News India - Hindustan Times
B&D Distributing Solazyme Microalgae Line
Microalgae-based Products Market Analysis, Size, Growth and Share
Photosynthetic microalgae as biocatalysts
Hydrothermal Liquefaction of Marine and Fresh Water Microalgae Using Co-solvents - DRI
Microalgae Expertise
Microalgae - Underestimated All-Rounders - ChemistryViews
Water | Free Full-Text | Salt Tolerance and Desalination Abilities of Nine Common Green Microalgae Isolates
Optimization of culture medium for the continuous cultivation of the microalga Haematococcus pluvialis | SpringerLink
Dutch microalgae producer Duplaco ramps up production capacity
Scientists outline more sustainable way to extract Omega-3 fatty acids from microalgae
Research reveals potential for producing liquid fuels using microalgae
Chapter - Current Production of Microalgae at Industrial Scale
| Bentham Science
IOC-UNESCO Taxonomic Reference List of Harmful Micro Algae (HABs)
Frontiers | Bioactivity Screening of Microalgae for Antioxidant, Anti-Inflammatory, Anticancer, Anti-Diabetes, and...
Microalgae could protect coral reefs from climate change
Water | Free Full-Text | Insight on Extraction and Characterisation of Biopolymers as the Green Coagulants for Microalgae...
Engineer - microalgae technology and bioprospecting (164261) | Norwegian Institute of Bioeconomy Research
InteSusAl, sustainable microalgae biofuel production | CPI
Development of serum-free and grain-derived-nutrient-free medium using microalga-derived nutrients and mammalian cell-secreted...
World Aquaculture Singapore 2022 Singapore | Program Session Microalgae, Seaweeds, Seagrasses Posters | World Aquaculture...
British Library EThOS: Recombinant protein production in the chloroplast of microalgae : a systems biology approach
Aquafeed.com |
F3 Krill Replacement Challenge: A mix of microalgae
Efficacy of EDTA and Phosphorous on Biomass Yield and Total Lipid Accumulation in Two Green Microalgae with Special Emphasis on...
Biomass11
- Microalgae biomass is often measured with chlorophyll a concentrations and can provide a useful index of potential production. (wikipedia.org)
- Microalgae, as one of the most important global biomass producers, do not only largely contribute to our global oxygen production, they are also able to produce several high value compounds with a high nutritional value. (chemistryviews.org)
- When cultivated under photoautotrophic conditions, microalgae capture light and use its energy to convert carbon dioxide - one of the most abundant greenhouse gases - via photosynthesis into chemical energy in form of carbon rich biomass. (chemistryviews.org)
- By converting CO 2 into organic biomass, microalgae largely contribute to the global oxygen production. (chemistryviews.org)
- These include a five to ten times higher biomass productivity compared to terrestrial plants, along with the possibility to cultivate microalgae in controlled reactor systems on land which is not suitable for conventional agricultural purposes. (chemistryviews.org)
- The cultivation in reactor systems offers the possibility to influence the ingredients of microalgae biomass by regulating different process parameters, especially nutrient supply and light intensity [8]. (chemistryviews.org)
- Moreover, the use of microalgae would minimize "food versus fuel" concerns associated with several biomass strategies, as microalgae do not compete with food crops in the food chain. (phys.org)
- The microalgae biomass production has a limited scale, due to the problems presented in the scaling of the production process. (benthamscience.com)
- Compared to grains, microalgae have higher growth capacity and usable protein content in their biomass. (nature.com)
- Culturing microalgae in industrial wastewater provides the dual benefits of nutrient removal which prevents eutrophication as well as low-cost biomass production 6 . (nature.com)
- The biomass of the three microalgae was monitored at the same time . (bvsalud.org)
Chlorella6
- Golden Chlorella line of sustainably grown microalgae powders. (nutritionaloutlook.com)
- In the present study, the salinity tolerance, salinity, and nutrient reducing ability of nine common freshwater microalgae species from the genera Chlorella , Chlorococcum , Desmodesmus , Scenedesmus , and Monoraphidium were investigated. (mdpi.com)
- 16 Mar 2020 --- Dutch chlorella producer and microalgae wholesaler Duplaco is making significant investments to increase production by 20 times. (foodingredientsfirst.com)
- Chlorella ellipsoidea and Chlorococcum infusionum , promising microalgae for biodiesel feedstock production, were treated with ethylenediaminetetraacetate (EDTA) and phosphorous to induce stress which was then followed by flow cytometry to study the enhanced intracellular neutral lipid content. (hindawi.com)
- In this study, the researchers passed the microalga Chlorella sp. (canadianbiomassmagazine.ca)
- Chlorella is a single celled microalgae that is loaded with nutrients needed for many body functions. (organifishop.com)
Strains7
- This is caused by a few strains of photosynthetically active microalgae, also known as cyanobacteria. (tugraz.at)
- The consortium will then continue to search for new strains by attempting to isolate microalgae from various environments. (uk-cpi.com)
- It is currently the largest microalgae collection in Brazil, holding around 700 strains of freshwater microalgae, mostly isolated from diverse water bodies in Sao Paulo State, Brazil. (scielo.br)
- A scientific centre specialising in marine research, it has offered NewFosh access to its comprehensive library of native microalgae strains. (greenqueen.com.hk)
- The company has cited plans to convert selected strains of microalgae into both novel proteins and bioactive ingredients. (greenqueen.com.hk)
- After visiting the Fraunhofer Institute for Interfacial Engineering and Biotechnology in Munich, Rasa Weber and Essi Johanna Glomb were struck by the startling range of colors different microalgae strains can produce. (labiotech.eu)
- Strains of microalgae vary in traits between species and populations due to adaptation or stochastic processes. (lu.se)
Freshwater microalgae3
- The Culture Collection of Freshwater Microalgae (CCMA-UFSCar, Coleção de Culturas de Microalgas de Água-Doce), based at the Universidade Federal de São Carlos, plays an important role in underpinning Brazilian microalgal research, providing biological materials, substrates and training personnel for a large proportion of the past and current projects in this area. (scielo.br)
- The Culture Collection of Freshwater Microalgae (Coleção de Culturas de Microalgas de Água-doce - CCMA-UFSCar), based at Universidade Federal de São Carlos was the first of its genre to be established in Brazil, in 1977, by Dr. Armando Vieira ( Lourenço & Vieira 2004 LOURENÇO, S.O. & VIEIRA, A.A. 2004. (scielo.br)
- Toxicity of Herbicide Mixtures to Tropical Freshwater Microalgae Using" by S. Stone, M. S. Adams et al. (edu.au)
Proteins8
- Microalgae can accumulate considerable amounts of proteins depending on species and cultivation conditions. (wikipedia.org)
- Microalgae proteins are also investigated as thickening agents or emulsion and foam stabilizers in the food industry to replace animal based proteins. (wikipedia.org)
- Microalgae are an attractive and alternative feedstock for high quality nutrients such as proteins, omega 3 fatty acids, antioxidative pigments such as carotene and astaxanthin, vitamins etc. (dti.dk)
- Microalgae is pegged as an answer to plant protein scarcity amid booming demand for alternative proteins. (foodingredientsfirst.com)
- Recently, research into recombinant protein production revealed a more attractive expression system based on the microalgae, C. reinhardtii, for significant savings in cost and production of correctly folded recombinant proteins. (bl.uk)
- The researchers extracted microalgae and legume proteins in the lab and combined them with plant-based oils containing omega 3 fatty acids. (foodingredientsfirst.com)
- I don't think that there are many known cases of allergies to microalgae proteins or mung bean proteins. (foodingredientsfirst.com)
- Researchers at the National University of Singapore have developed vegan calamari rings using microalgae, mung bean proteins and 3D printing technology. (intrafish.com)
Cyanobacteria3
- Marine photosynthesis is dominated by microalgae, which together with cyanobacteria, are collectively called phytoplankton. (wikipedia.org)
- The term "microalgae" includes prokaryotic cyanobacteria as well as eukaryotic microalgae species (Fig. 1) capable of growing in presence of sea water (e.g. oceans), fresh water (e.g. lakes, rivers) and on several kinds of ground surfaces (e.g. soil) [3]. (chemistryviews.org)
- Algal blooms occur when there are overgrowths of algae, including green, brown, or red microalgae, or cyanobacteria that are commonly referred to as blue-green algae. (cdc.gov)
Single-celled1
- Microalgae are sunlight-driven, single-celled factories, and by nature highly resilient and versatile," emphasizes Amikam Bar-Gil , CTO and co-founder of Yemoja. (prnewswire.com)
Found in microalgae2
- Despite the fact that omega-3s are primarily found in microalgae, producers have been focusing on fish and krill oils because of their lower cost. (aquafeed.com)
- Read on to learn about this specific carotenoid found in microalgae. (algatech.com)
Cultivation of microalgae2
- Compared to higher plants, the cultivation of microalgae has a considerable number of advantages [7]. (chemistryviews.org)
- However, there are significant limitations associated with autotrophic cultivation of microalgae on large scale, such as light supply and seasonal fluctuations, that affects overall costs. (unina.it)
Extraction from microalgae1
- Researchers are investigating ways to improve lipid extraction from microalgae to make biofuels. (canadianbiomassmagazine.ca)
Ingredients5
- With a protein content of approximately 65 percent, Duplaco microalgae are the sustainable food ingredients alternative to, for example, less sustainable soy and meat products. (foodingredientsfirst.com)
- Also in this space, Nestlé joined forces with Dutch food and biochemicals company Corbion for the development of microalgae-based ingredients for plant-based products last November. (foodingredientsfirst.com)
- The ingredients are sourced from microalgae Haematococcus pluvialis , Schizochytrium and Nannochloropsis . (aquafeed.com)
- Being a rich source of fiber, enzymes, protein, and carbohydrates, microalgae have become a major source of food ingredients, mainly across Asia countries such as South Korea, and China. (sbwire.com)
- Visit our blog to learn more about microalgae ingredients like astaxanthin, fucoxanthin, beta-glucans, and more. (algatech.com)
Algae5
- Microalgae or microphytes are microscopic algae invisible to the naked eye. (wikipedia.org)
- This unprecedented capacity was collectively harnessed to produce a variety of pure algae at any scale, and in a short time - something the microalgae market has not witnessed until now. (prnewswire.com)
- Yemoja was founded three years ago by a team of marine biology and biotech experts with a shared vision of leveraging novel engineering methods to provide the commercial algae space with a prodigious range of high-value microalgae species that can be tailored to a full spectrum of applications, including cosmeceuticals and nutraceuticals. (prnewswire.com)
- Salmon, above 1 kg, will from next month be farmed by the use of feed formulated with microalgae, a sustainable, Omega-3-rich whole algae ingredient developed by TerraVia in partnership with Bunge. (fis-net.com)
- For sewage treatment these microalgae may be used because these algae absorb heavy metals, Nitrogen, Phosphorus and othernutrients. (cdc.gov)
Different microalgae1
- Microscopic photographies (magnification 1:1000) of different microalgae species. (chemistryviews.org)
Species7
- The chemical composition of microalgae is not an intrinsic constant factor but varies over a wide range of factors, both depending on species and on cultivation conditions. (wikipedia.org)
- Microalgae such as microphytes constitute the basic foodstuff for numerous aquaculture species, especially filtering bivalves. (wikipedia.org)
- A range of microalgae species are produced in hatcheries and are used in a variety of ways for commercial purposes, including for human nutrition, as biofuel, in the aquaculture of other organisms, in the manufacture of pharmaceuticals and cosmetics, and as biofertiliser. (wikipedia.org)
- There is a vast ocean of microalgae species not yet discovered, and only a dozen or so are commercially available," notes Eyal Shalmon , CEO of Yemoja. (prnewswire.com)
- Depending on the species, microalgae are able to grow heterotrophically, mixotrophically, or under photoautotrophic conditions [4-6]. (chemistryviews.org)
- Since several microalgae species can be cultivated in brackish or coastal seawater, the consumption of fresh water is additionally reduced. (chemistryviews.org)
- Six diatom species displayed specific anti-inflammatory, anticancer (blocking human melanoma cell proliferation), and anti-biofilm (against the bacteria Staphylococcus epidermidis ) activities whereas, none of the other microalgae were bioactive against the conditions tested for. (frontiersin.org)
Nutrient8
- Microalgae play a major role in nutrient cycling and fixing inorganic carbon into organic molecules and expressing oxygen in marine biosphere. (wikipedia.org)
- Microalgae are cultivated in large vats and nourished using low value nutrient-rich co-products from the whisky distillation process. (nutraingredients.com)
- However, the cost of growing microalgae that needs nutrient supplements as well as the shortage of freshwater available for commercial cultivation was a hindrance to the economic sustainability of microalgae-based energy production. (hindustantimes.com)
- Here, we propose a new approach wherein the nutrients in the culture medium are provided by a microalgae extract, and the FBS is replaced by growth factors in the CM. Figure 1 illustrates the preparation process of our serum-free and grain-derived-nutrient-free medium. (nature.com)
- This challenge is an exciting platform and opportunity to showcase the potential of microalgae for health promotion and environmental protection and replace the 'use and throw' model which has led to unbalanced nutrient cycles," Jariwala concluded. (aquafeed.com)
- Most recent studies have found that the lipid accumulation in microalgae could be increased through altering parameters such as temperature, light, CO 2 , salinity, and nutrient concentration [ 4 - 10 ]. (hindawi.com)
- Under different nutrient starvation, microalgae can accumulate large quantities of neutral lipid in the form of triacylglycerol (TAG) within the cell cytoplasm [ 11 ]. (hindawi.com)
- Consequently, without careful experimental design, interactions between nutrient limitation and metal stress may interfere with detection of small, but evolutionary and ecologically important, differences in tolerance between microalgae. (lu.se)
Cultivate2
- More recently, there is great interest in exploring the biotechnological potential of microorganisms such as microalgae since they are easier to cultivate, have short generation times and represent a renewable and still poorly explored resource for drug discovery. (frontiersin.org)
- In addition, we reported that it is possible to cultivate microalgae using animal cell waste medium 7 . (nature.com)
Sustainable6
- Our innovative approach serves to create pure, sustainable microalgae-derived products of the highest quality, and that can be naturally adapted into any desired matrix. (prnewswire.com)
- Last month, a Danish project received a DKK 750,000 (US$108,600) grant to investigate the opportunities of using microalgae as a sustainable protein source. (foodingredientsfirst.com)
- Moreover, another key step in the InteSusAl method is the strain selection, due to the imperative requirement for strong microalgae that grow considerably fast in intermittent temperature environments since, in order to be successful and sustainable. (uk-cpi.com)
- In this work, the team tested two sustainable, high-protein plant sources: microalgae and mung beans. (foodingredientsfirst.com)
- A close cooperation between Lerøy and BioMar is going to ensure that salmon farmed by Lerøy will benefit from a sustainable high level of Omega 3-DHA in the feed partly deriving from the microalgae ingredient, AlgaPrime DHA. (fis-net.com)
- Research topics include developing new, sustainable packaging materials and biocomposites from substances such as starch, lignocellosic materials, and microalgae. (lu.se)
Wastewater4
- In a significant breakthrough that could boost the production of biodiesel, researchers at the CSIR-National Institute of Oceanography (Goa), Goa have found a cleaner, cheaper to grow biodiesel producing microalgae -- one that uses wastewater from fishmeal plants rather than artificial nutrients. (hindustantimes.com)
- Prof N Ramaiah, former head of the biological oceanography division, CSIR-NIO, Goa, and their group initiated and successfully showed the utilization of microalgae for industrial wastewater treatment. (hindustantimes.com)
- As a result, investigating and evaluating Phycoremediation techniques of dye wastewater (bioremediation using Microalgae) have gained a great deal of attention because of their versatility and capacity than bacteria and fungi. (iwaponline.com)
- The aim of the research is to study Phycoremediation of Textile Wastewater Using indigenous Microalgae. (iwaponline.com)
Feedstock3
- Besides providing these valuable metabolites, microalgae is regarded as a potential feedstock for biofuels and has also emerged as a promising microorganism in bioremediation. (wikipedia.org)
- In the search for alternative and renewable sources of fuel and energy, microalgae have been established as a renewable feedstock for clean fuel (biodiesel). (hindustantimes.com)
- Microalgae, thereby, has gained global consideration as renewable feedstock for biodiesel production," Gupta said. (hindustantimes.com)
Nutrients6
- It is possible to accumulate the desired products in microalgae to a large extent by changing environmental factors, like temperature, illumination, pH, CO2 supply, salt and nutrients. (wikipedia.org)
- Here, we developed a novel medium containing nutrients extracted from microalga and cell-secreted growth factors. (nature.com)
- Thus, microalga is an optimal cell source to efficiently provide nutrients to animal muscle cells. (nature.com)
- Microalgae are an essential part of the food chain and it has emerged as new promising source of nutrients that comprise high-value compounds such as anti-oxidants, pigments, and fatty acids. (sbwire.com)
- It has been clearly stated that microalgae are a source of a wide variety of nutrients such as omega-3 fatty acids, and are a particularly large source of protein. (sbwire.com)
- Further, the report also finds that the market size and quantities of nutrients produced from microalgae, although being considerably smaller than various other commodity crops, outlook of demand for microalgae-based nutrients is expected to be impressive in the foreseeable future. (sbwire.com)
Biofuel2
- Lipids inside microalgae are a promising source of biofuel. (canadianbiomassmagazine.ca)
- Recently, NASA has been testing the growth of microalgae in space for its potential use during long-duration space missions as a source of nutrition, oxygen, waste removal and potentially biofuel. (algatech.com)
Omega-3 fat2
- These omega-3 fatty acids can be obtained in the human diet directly from the microalgae that produce them. (wikipedia.org)
- Next to natural antioxidant colorants, microalgae can contain high amounts of protein and omega-3-fatty acids which may help to prevent heart diseases. (chemistryviews.org)
Haematococcus1
- The freshwater microalga Haematococcus pluvialis is one of the best microbial sources of the carotenoid astaxanthin, but this microalga shows low growth rates and low final cell densities when cultured with traditional media. (springer.com)
Biotechnological2
- Biotechnological production of chemicals using enzymes coupled with the photosynthesis of microalgae is the topic of the new EU project PhotoBioCat. (tugraz.at)
- Educational contents of the PhotoBioCat network will range from alteration of the energy metabolism of microalgae using modern tools of synthetic biology to driving biotechnological reactions through photosynthesis, the development of novel light-driven enzymatic processes and the development of photobioreactors. (tugraz.at)
Arthrospira1
- NDLI: Fouling characterization and control for harvesting microalgae Arthrospira (Spirulina) maxima using a submerged, disc-type ultrafiltration membrane. (iitkgp.ac.in)
Microscopic1
- Microalgae are microscopic, single-cell organisms that exist in fresh water and marine environments and also at the bottom of the food chain. (phys.org)
Marine4
- Marine microalgae are considered a potentially new and valuable source of biologically active molecules for applications in the food industry as well as in the pharmaceutical, nutraceutical, and cosmetic sectors. (frontiersin.org)
- Effect of marine microalgae Synechococcus sp. (bvsalud.org)
- The effect of marine microalgae on the corrosion behavior of carbon steel (CS) still needs further investigation due to their dual roles . (bvsalud.org)
- In this study, the corrosion behavior of Q235 CS specimens in f/2 medium with absence and presence of three classes of marine microalgae Synechococcus sp. (bvsalud.org)
Lipids1
- Microalgae cells must first be broken apart in order to extract the lipids. (canadianbiomassmagazine.ca)
Researchers5
- Researchers at the CSIR-National Institute of Oceanography, Goa have found a cleaner, cheaper to grow biodiesel producing microalgae. (hindustantimes.com)
- Australian researchers found that training microalgae could help keep corals alive. (zmescience.com)
- But researchers in Australia are exploring other alternatives as well, such as training the microalgae that keep corals alive. (zmescience.com)
- 15 Aug 2023 --- US-based researchers are presenting a novel approach for creating vegan calamari using 3D printed ink made from microalgae protein and mung bean protein. (foodingredientsfirst.com)
- Dec. 18, 2018 - Researchers in Malaysia are investigating ways to improve biodiesel production by using electrical fields to break open microalgae cells, with varied results, according to a new study in the Pertanika Journal of Science & Technology. (canadianbiomassmagazine.ca)
Spirulina1
- As per the research, Spirulina will continue to be the leading revenue funding product in the global microalgae market. (sbwire.com)
Biodiesel2
- The cheaper the cost of growing the microalgae, the cheaper the cost of producing biodiesel. (hindustantimes.com)
- Microalgae Skeletonema costatum and Scenedesmus obliquus were found as good candidates for biodiesel production due to their high lipid productivity and fatty acid content [ 2 , 3 ]. (hindawi.com)
20192
- The report also provides insightful information about how the microalgae-based products market will progress during the forecast period of 2019 to 2027. (bccresearch.com)
- What will be the Y-o-Y growth of the microalgae-based products market between 2019 and 2027? (bccresearch.com)
Bacteria2
- Microalgae, together with bacteria, form the base of the food web and provide energy for all the trophic levels above them. (wikipedia.org)
- Omics for bioprospecting and drug discovery from bacteria and microalgae. (lu.se)
Accumulate1
- Some microalgae accumulate chromophores like chlorophyll, carotenoids, or phycobiliproteins that may be extracted and used as coloring agents. (wikipedia.org)
Chlorophyll1
- An exception to the microalgae family is the colorless Prototheca which are devoid of any chlorophyll. (wikipedia.org)
Carbon2
- Producing renewable transportation fuel from microalgae attracts much attention because of its potential for fast growth rates, high oil content, ability to grow in unconventional scenarios, and its inherent carbon neutrality. (phys.org)
- Moreover, the high CO 2 -fixing ability of microalgae can aid in achieving carbon neutrality. (nature.com)
Production7
- The company utilizes a unique, high-precision fast-track photobioreactor technology, setting a new gold standard for microalgae production. (prnewswire.com)
- Scottish biotech, MiAlgae has raised £2.3m in its latest investment drive to support completion of a commercial demonstrator facility for Omega-3 rich microalgae production. (nutraingredients.com)
- Production and range upscaling means we will be able to supply even more (international) food manufacturers with microalgae, either as a functional ingredient in meat substitutes or as a supplement," he concludes. (foodingredientsfirst.com)
- Recent research conducted at DOE's National Energy Technology Laboratory on transportation fuels production using microalgae provides a more fundamental understanding of catalyst selection and conversion processes using computational modeling. (phys.org)
- The microalgae industry generates interest in the investors who recognize good performance and suitability in the production of various microalgal products. (benthamscience.com)
- Current Production of Microalgae at Industrial Scale, Recent Advances in Renewable Energy Microalgae as a Source of Bioenergy: Products, Processes and Economics (2017) 1: 278. (benthamscience.com)
- One of the most promising candidates for production of alternative energy is microalgae because of their higher growth rate and oil content than those of the conventional energy crops such as jatropha, soybean, palm, canola, and corn [ 1 - 3 ]. (hindawi.com)
Considerable1
- Microalgae has gained considerable global attention as alternative renewable fuel source. (hindustantimes.com)
Edible2
- As the oils produced from the microalgae are edible and have superior properties as those found in palm oil, the newly discovered method would serve as a healthier and greener alternative to palm oil. (ntu.edu.sg)
- Recently, microalgae have been attracting attention as a substitute for fossil fuels and as an edible protein. (nature.com)
Generates1
- The solution developed by MiAlgae is a novel zero-waste process that harnesses microalgae as a source of Omega-3 and generates zero waste. (nutraingredients.com)
Viability1
- However, the low cell density is a major bottleneck in commercial viability of many microalgae derived products, especially low cost commodities. (wikipedia.org)
Optimal1
- Like terrestrial plants, microalgae use nitrogen and phosphorus as fertilizer for optimal growth. (chemistryviews.org)
Varieties2
- Our mission is to boost the entire microalgae value chain with new varieties and yields, and bring them to the mainstream of high-end nutraceutical food and cosmeceutical spheres with additional formulations in the pipeline. (prnewswire.com)
- Another deli-inspired release is due imminently: a 100 percent plant-based mortadella, developed from various microalgae and seaweed varieties. (greenqueen.com.hk)
Demand2
- Demand for microalgae is significantly pushed up by its high protein content, which includes all essential amino acids, as well as polyunsaturated fatty acids (original source of omega 3), vitamins, polysaccharides, carotenoids and other substances beneficial to human health . (foodingredientsfirst.com)
- We are proud to build the largest facility of its kind in the world, which will be producing microalgae on a commercial scale to support rising demand in various markets," said Hannan Shushan, Yotvata's CEO, in a press release. (nutritionaloutlook.com)
Source1
- Due to their ability to grow on non-arable land microalgae may provide an alternative protein source for human consumption or animal feed. (wikipedia.org)
Potential5
- The study presents detailed information about the important growth factors, restraints, and key trends that are creating the landscape for the future growth of the microalgae-based products market, to identify the opportunistic avenues of business potential for stakeholders. (bccresearch.com)
- The report provides detailed information about the microalgae-based products market on the basis of comprehensive research on various factors that are playing a key role in accelerating the growth potential of the market. (bccresearch.com)
- The microalgae culture has a potential for obtaining bioproducts that can be used in various commercial segments. (benthamscience.com)
- Due to their high nutritional and functional value, microalgae have a high potential for application in the feed industry, being incorporated as a feed supplement and enhancing animal performance. (aquafeed.com)
- Consider the resilience of microalgae combined with the many potential health benefits they can provide to the astronauts. (algatech.com)
Brevel4
- Brevel , a Tel Aviv-based company, is developing microalgae into an alternative protein and today announced $18.5 million in seed funding. (techcrunch.com)
- Founded in 2016 by three brothers, Yonatan Golan, Matan Golan and Ido Golan, Brevel developed a proprietary technology that combines fermentation and light to make a protein from microalgae that is sold to food companies as a powder for use in plant-based products. (techcrunch.com)
- Brevel is one of numerous companies using microalgae for food products , like AlgaeCore Technologies , Algenuity and NewFish . (techcrunch.com)
- Yonatan Golan, CEO and co-founder of Brevel, said the agreement is a milestone for microalgae-based alternative protein. (nutritionaloutlook.com)
Organisms1
- Microalgae represent a diverse group of plant-like, unicellular organisms. (chemistryviews.org)
Nutritional1
- Yemoja-cultivated microalgae can be tailored to desired nutritional compounds and functionalities. (prnewswire.com)
Cultures1
- We argue that such an approach is essential to enable comparison of population or strain differences in tolerance using dose-response tests on cultures of microalgae. (lu.se)
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