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Role of algae in sustainable Food, Health and Nutritional Security: An Overview

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  • Council for Scientific and Industrial Research institute

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Introduction
The f a s t g r o w i n g human p o p u l a t i o n ,
widespread malnutrition are directly imposing
pressure on agricultural system which in turn poses
serious threat to the biodiversity. Therefore, the
goals of providing universal food security and
protecting biodiversity seem to be two incompatible
actions (Chappell and Lavalle, 2011). The world
population is expected to reach nine billion by 2050
and by then global food production need to rise by
about 60%. About 7,000 species of plants have been
cultivated or collected for consumption throughout
human civilization. However, at present only about
30 crops provide 95% of human food requirements
of which 5 cereal crops are known to be staple (rice,
wheat, maize, millet and sorghum). Due to
increasing food demand man has already started
exploring other agriculture systems and innovative
food sources like algae. Some of the microalgae are
able to enhance the nutrit ional cont ent of
conventional food and feed, and hence to positively
affect humans and animal health with their original
chemical composition such as high protein content,
balanced amino acids, carotenoids, fatty acids,
vitamins, polysaccharides, sterols, phycobilins and
ot her bio logic ally ac tive compo unds, more
efficiently than traditional crops.
Algal diversity
There are more than 25,000 species of algae
reported from the world. They range in size from a
single cell to giant kelp over 150 feet long. There are
blue-g r e e n m i c roalgae like Spiruli n a a n d
Aphanizomenon, green algae like Chlorella and
Scenedesmus, Dunaliella, red algae and also brown,
purple, pink, yellow and black microalgae. They
occur everywhere in water, soils, on rocks and on
plants. Blue-green algae are the most primitive, and
contain no nucleus or chloroplast. Larger algae like
seaweeds are already have an important economic
role. In addition to the fact that algae are responsible
for consuming most of the CO and releasing the
2
most amount of oxygen that keeps us alive, the vast
diversity of algae also lends itself to being the
feedstock and labeled as primary producer in any
food chain. About 70 species of algae are used for
food, food additives, animal feed, fertilizers and
biochemicals. They are grown for animal and
aquaculture feeds, human foods, biochemicals and
pharmaceuticals. Microalgae in the ocean, called
phytoplankton, are the base of the food chain and
support all higher life.
Role of algae in food, health and nutrition
Companies involved in the algal fuels domain
have started to realize that it could take much longer
than originally expected to derive fuels from algae.
Hence, as a starting point, many of these companies
are venturing into high value, non-fuel products
from algae. This allows them to generate profits
fairly early into their venture while at the same time
ensuring that they are able to continue with their
efforts in sustainable fuel production.
Recognizing this trend and the need for a
comprehensive resource on algal products, India-
based Oilgae has come up with a “Comprehensive
Report on Attractive Algae Product Opportunities.”
This report provides an overview of the wide range
of non-fuel applications of algae - both current and
Role of algae in sustainable Food, Health and
Nutritional Security: An Overview
#
Minhaj Akhtar Usmani, Kiran Toppo, Sanjeeva Nayaka*, M.R. Suseela and Sarita Sheikh
Algology laboratory, CSIR-National Botanical Research Institute,
Rana Pratap Marg, Lucknow- 226 001, Uttar Pradesh
#Ethelind School of Home Science, SHIATS, Allahabad, Uttar Pradesh
*Email: nayaka.sanjeeva@gmail.com
83
grow to 135,000-190,000 tons by 2015. Although
>9 5% of the astaxanthin m arket consu mes
synthetically derived astaxanthin, consumer
demand for natural products makes the synthetic
pigments much less desirable and provides an
opportunity f or the productio n of natural
astaxanthin by Haematococcus.
The 2011 International Algae Competition
witnessed participation of various countries like
Australia, Canada, China, France, Germany, Hong
kong, India, Italy, New Zealand, Singapore, Spain,
Thailand, United Kingdom, USA, and Zimbabwe.
The participants submitted recipes, menus, new
foods and food products incorporating algae as a
featured ingredient. Innovative food preparations
were made by using microalgae like Spirulina,
Chlorella and macroalgae like nori, wakame, dulse,
kombu, kelp and algal ingredients like agar and
carrageenan. There were recipes for main course,
de ssert, ice cream , cooki es, chips , snack s,
appetizers, pasta, noodles, soup, stew, dips, drinks,
shakes, cereals and more. This was an initiative to
highlight the algalicious foods with the thought
“How will growing algae change the world and
improve our lives?”.
Apart from food and health products micro-
algae extracts can be found in face and skin care
products. Microalgae extracts are also employed in
making anti-aging cream, refreshing or regenerant
care products, emollient and as an anti-irritant in
peelers. They are also present in sun protection and
hair care products. In cosmetics, algae act as
thickening, water-binding agents and antioxidants.
Carrageenans are extracted from red algae and
alginates from the brown algae. Other forms of algae
such as Irish moss contain proteins, vitamin A,
sugar, starch, vitamin B1, iron, sodium, phosphorus,
magnesium, copper and calcium. These are all
be nef icial f or sk in ei ther as e mollient s or
antioxidants.
Some Important Algae
Some important microalgae strains used in food
applications are discussed below;
futu re prospec ts. It is intended to provid e
entrepreneurs with an idea of how to derive more
benefits from their algal energy ventures. Over 50
algae products were discussed in detail in the report,
including: methane, ethanol, biodiesel, protein,
astaxanthin, lutein, anti-fungal agents, agar,
carrageenan, anti-cellulite, dyes and colorants,
solvents, chemicals, lubricants and pigments.
Most people have no idea how many daily use
products contain algae. Algae are an ingredient in
thousands of products for food, feed, color, nutra-
ceutical, medicinal, personal care, biofertilizer, fine
chemical and biofuel. Over 15,000 individual
compounds have been identified in microalgae that
are responsible for producing numerous useful
products. For example the market value of lutein
was around $233 million in 2010 and is expected to
reach $309 million by 2018. Algae based value
added commodities such as lactic acid, PHAs and
butanol price ranges from $1300 to $7000 per ton.
Around 35,000 tons of microalgal dry mass are
processed in the three market segments, “diet”,
“food” and “cosmetics”. More than 85% of biomass is
used in the application areas as “functional foods”
and “food supplements”. A large market for
aquaculture feeds could be developed from
microalgal biomass containing long chain omega-3
fatty acids replacing fish-meal and oil, but
production costs must be reduced from the current
$50-$100 to $1-2 per kg. Pharmaceuticals are the
fastest growing section of the market, but as of now
there are only two approved omega-3 based
pharmaceuticals in the world, which together
account for 1.6% of consumption with nearly $1.5
billion in sales. Other EPA and DHA based
tri glyc erid e redu ctio n prod ucts a re und er
development, but it will take some time before these
ach ieve r egul ator y appr oval a nd eve ntua l
commercialization. The current wholesale market
price for algae omega-3 oil is about $140 per kg,
which is higher than the pricing for fish oil derived
products. The Global Organization for EPA and
DHA, and Frost and Sullivan estimated that the
global market for EPA and DHA omega-3 oils
exceeded 85,000 tons in 2009 and was estimated to
84
85
l Spirulina P.J.F. Turpin ex M. Gomont is a
blue-green algae that is rich in protein,
vitamins, m i n e r a l s, a n d c a r o t e n o i d s ,
antioxidants that can help protect cells from
damage. Some of the key health benefits of
using Spirulina are; boosts the immune system,
improve digestion, reduce fatigue, build
endurance, detoxifier - cleanses the body,
boos ts energ y levels , controls appetit e,
improved cardiovascular function, better liver
and kidney functioning, reduces inflammation
and allergies (Gouveia et. al, 2008).
l Chlorella Beyerinck is a single-celled green
algae that has the highest source of chlorophyll
compared to any other existing plant species.
Chlorella is considered as a complete food,
because of its important role in detoxification
and its high content of protein, vitamins, and
minerals including carotenoids (astaxanthin,
canthaxanthin, flavoxanthin, loraxanthin,
neoxanthin and violaxanthin) and enzymes
(pepsin). Chlorella is now widely available as a
food supplement in tablet, granule or liquid
form and as colourants (Gouveia L. et. al, 2008).
l Haematococcus pluvialis Flotow is a green algae
which can accumulate the highest level of
astaxanthin in nature (1.5-3.0% dry weight).
This high-value ketocarotenoid pigment is a
potent free-radical scavenger and singlet
oxygen quencher, with increasing amount of
evidence suggesting that it surpasses the
antioxidant benefits of b-carotene, vitamin C
and vitamin E. Haematococcus is currently the
prime natural source of this pigment for
86
commercial exploitation, particularly in
aquaculture salmon and trout farming (Lorenz
and Cysewski, 2000). Astaxanthin is also used
in cosmeceutical applications in protection
against skin aging.
l Dunaliella salina Teodoresco is an halo-
tolerant microalga, naturally occurring in salted
lakes, that is able to accumulate large amounts
of b-carotene, a valuable chemical mainly used
as natural food colouring and provitamin A
(retinol) for the fortification of multivitamin
juices, beverages for athletes, food supplement
preparations and health foods. D. salina
community in Pink Lake, Victoria (Australia)
was estimated to contain up to 14% of this
carotenoid in their dry weight (Aasen et al.,
1969) and in culture some Dunaliella strains
may also contain up to 10% and more b-
carotene, under nutrient-stressed, high salt and
high light conditions (Ben-Amotz and Avron,
1980; Oren, 2005). Apart from b-carotene
Duna l i e lla produ c e s a nother valu a b le
chemical, glycerol.
l Red algae (Marine algae) have been used for
thousands of years as a source of food and for
treating medical conditions. Red marine algae
contain pigment phycoerythrin that gives red
color to this sea plant. It is high in vitamins,
minerals and antioxidants that are easily
utilized by our body. The main benefits of red
al gae is it s ability to p rom ote health y
circulation in our body, regulate our blood
sugar levels and lower bad cholesterol levels
since it is high in dietary fiber. It is also a rich
source of calcium and magnesium so it
contributes to bone health and since it is loaded
with antioxidants it helps boost our immune
system and nourishes our skin.
l Aphanizomenon-flos-aquae Ralfs ex Bornet
& Flahault is a prokaryotic cyanobacterium
commonly found in freshwater s ys tems
throughout the world. Approximately 500 tons
of dried Aphanizomenon is produced annually
for use in food and pharmaceutical products.
The dominant production source of Aphanizo-
menon in North America is Upper Klamath
Lake, Oregon and currently constitutes a
significant part of the health food supplement
industry throughout North America. Aphanizo-
menon contains a signi-ficant amount of
chlorophyll (1-2% dry weight) which is shown
to stimulate liver function and increase bile
secretion. It contains C-Phycocyanin another
light-harvesting pigment has antioxidant and
anti-inflammatory properties. Aphanizomenon
also has high hypo cholesterolemic activity,
significantly greater than soybean oil, which
causes a decrease in blood cholesterol and
triglyceride levels. Aphanizomenon is a large
producer of polyunsaturated fatty acids (i.e.,
omega-3 and omega-6), a deficiency of which
has been linked to immune suppression,
arthritis, cardiovascular diseases, mental
health issues and dermatological problems.
Additionally, components of this alga have
been shown to decrease certain cancer risks,
inflammation and prevent platelet accumu-
lation (Bishop and Zubeck, 2012).
Conclusion
The global algae biomass market is worth
between $ 5- 7 billion of which the health food
sector accounts for $2 billion and the aquaculture
applications account for $ 0.7 billion. Algal products
such as Spirulina and Chlorella, have significant
benefits as potential single cell protein sources. But
the market value of these products is not very high;
Spirulina was sold at a price of $20 per kg in 2010
and Chlorella at a price of $44 per kg. Beta-carotene
has the largest share of the carotenoids market
valued at $247 million in 2007, this segment is
expected to be worth $285 million by 2015. This
proves algae is playing vital and valuable role in the
world market.
The combination of the exceptional nutritional
va l u e o f m i c r o a l gae w i t h c o l o u r i n g a n d
therapeutical properties, associated with an increase
demand of natural products, make microalgae worth
exploring for utilization in the future in feed, food,
87
cosmetic and pharmaceutical industries. In the
actual scenario with multiple pharmacological
treatments, many believe that simple dietary
interventions or nutritional supplements may be
more natural, acceptable and feasible method of
providing benefits. Choice of the right food to eat in
an early stage of life associated with a healthy
lifestyle can have important benefits in future life.
A healthy diet based on microalgae can have
important benefits for all age groups.
References
Aasen, A.J., Eimhjellen, K.E. and Liaaen-Jensen, S. (1969). An extreme source of b-carotene. Acta Chemica Scandinavica, 23: 2544-
2545.
Ben-Amotz, A. and Avron, M. (1980). Glicerol, b-carotene and dry algal meal production by commercial cultivation of Dunaliella. In
G. Shelef, and C.J. Soeder (Eds), Algal Biomass. pp. 603-6010.
Bishop, W.M, Zubeck, H.M (2012). Evaluation of Microalgae for use as Nutraceuticals and Nutritional Supplements. J Nutr Food Sci.
2:147.
Chappell, M. J., Lavalle L.A. (2011). Food Security and Biodiversity: Can We Have Both? An Agroecological Analysis. Agriculture and
Human. 28: 3-26.
Gouveia, L., Batista, A.P., Sousa, I., Raymundo, A. and Bandarra, N.M. (2008). Microalgae in novel food products. In Papadopoulos,
K.N. (Ed.), Food Chemistry Research Developments, Nova Science Publishers. Inc. pp. 1-37.
Lorenz, R.T., and Cysewski, G.R. (2000). Commercial potential for Haematococcus microalgae as a natural source of astaxanthin.
Trends in Biotechnology.18:160-167.
Oren, A. (2005). A hundred years of Dunaliella research: 1905-2005. Saline Systems. 1: 2.
“Speed is irrelevant
if you are going
in the wrong
direction”
— Mahatma Gandhi
Photo credit : VM Raj
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As a result of high production costs, commercial products from microalgae must command high prices. Astaxanthin produced by Haematococcus is a product that has become a commercial reality through novel and advanced technology. Cultivation methods have been developed to produce Haematococcus containing 1.5-3.0% astaxanthin by dry weight, with potential applications as a pigment source in aquaculture, poultry feeds and in the worldwide nutraceutical market.
Speed is irrelevant if you are going in the wrong direction
  • A Oren
Oren, A. (2005). A hundred years of Dunaliella research: 1905-2005. Saline Systems. 1: 2. "Speed is irrelevant if you are going in the wrong direction" -Mahatma Gandhi Photo credit : VM Raj