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Common names
Irish moss or carrageen moss
Description
Chondrus crispus is a relatively small red alga, reaching up to a little over than 20 cm in length. It grows from a discoid holdfast and branches four or five times in a dichotomous, fan-like manner. The morphology is highly variable, especially the broadness of the thalli. The branches are 2–15 mm broad, firm in texture and dark reddish brown in color bleaching to yellowish in sunlight. The gametophytes often show a blue iridescence at the tip of the fronds and fertile sporophytes show a spotty pattern. Mastocarpus stellatus (Stackhouse) Guiry is a similar species which can be readily distinguished by its strongly channelled and often somewhat twisted thallus. The cystocarpic plants of Mastocarpus show reproductive papillae quite distinctively different from Chondrus. When washed and sun-dried for preservation, it has a yellowish, translucent, horn-like aspect and consistency.
Distribution
Chondrus crispus is common all around the shores of ireland and can also be found along the coast of Europe including Iceland, the Faroe Islands western Baltic Sea to southern Spain. It is found on the Atlantic coasts of Canada and recorded from California
In the United States to Japan. However, any distribution outside the Northern Atlantic needs to be verified. There are also other species of the same genus in the Pacific Ocean, for example, C. ocellatus Holmes, C. nipponicus Yendo, C. yendoi Yamada et Mikami, C. pinnulatus (Harvey) Okamura and C. armatus (Harvey) Yamada et Mikami.
Ecology
Chondrus crispus is found growing on rock from the middle intertidal zone into the subtidal zone, all the way to the ocean floor. So it is very hard for sunlight to reach it.
Uses
Chondrus crispus is an industrial source of carrageen, which is commonly used as a thickener and stabilizer in milk products such as ice cream and processed foods, including lunch meat. In Europe, it is indicated as E407 or E407b. It may also be used as a thickener in calico-printing and for fining beer or wine. Irish moss is frequently used with Mastocarpus stellatus (Gigartina mamillosa), Chondracanthus acicularis (G. acicularis) and other seaweeds, which are all commonly found growing together. Carragheen and agar-agar are also used in Asia for gelatin like desserts, such as almond jelly. Presently, the major source of carrageenan is tropical seaweeds of the genera Kappaphycus and Eucheuma.
In Ireland and parts of Scotland (where it is also known as (An) Cairgean in Scottish), it is boiled in milk and strained, before sugar and other flavourings such as vanilla, cinnamon, brandy or whiskey are added. The end-product is a kind of jelly similar to pannacotta, tapioca, or blancmange. Similarly, in Jamaica and Trinidad and Tobago Gracilaria spp is boiled with cinnamon and milk to make a thick drink called Irish Moss that is believed to be an aphrodisiac. In Venezuela it has been used for generations as a home remedy for sore throat and chest congestion, boiled in milk and served with honey before bed.
Irish moss is commonly used as a clarifying agent in the process of brewing (beer), particularly in homebrewing. A small amount is boiled with the wort, attracting proteins and other solids, which is then removed from the mixture after cooling.
Life history
Chondrus crispus undergoes an alternation of generation life cycle common in many species of algae (see figure below). There are two distinct stages: the sexual haploid gametophyte stage and the asexual diploid sporophyte stage. In addition, there is a third stage- the carposporophyte, which is formed on the female gametophyte after fertilization. The male and female gametophytes produce gametes which fuse to form a diploid carposporophyte, which forms carpospores, which develops into the sporophyte. The sporophyte then undergoes meiosis to produce haploid tetraspores (which can be male or female) that develop into gametophytes. The three stages (male, female and sporophyte) are difficult to distinguish when they are not fertile; however, the gametophytes often show a blue iridescence.
Nutritional Content of Chondrus Crispus
|
Nutrient |
Amount |
Unit |
Ref. |
|
Protein |
27; 11.2; 11-21 |
% dry weight |
(1), (3), (4) |
|
Carbohydrates |
54.8; 55-68 |
% dry weight |
(3), (4) |
|
Neutral sugars |
28 |
% dry weight |
(1) |
|
Sulfate |
17 |
% dry weight |
(1) |
|
Uronic acids |
1.8 |
% dry weight |
(1) |
|
Ash |
25; 14.2; 21 |
% dry weight |
(1), (3), (4) |
|
Total fatty acids |
14669 |
microgram/g dry weight |
(2) |
|
Total dietary fiber |
34.3; 10-34 |
% dry weight |
(3), (4) |
|
Soluble fiber |
22.3 |
% dry weight |
(3) |
|
Lipids |
2.6; 1-3 |
% dry weight |
(3), (4) |
|
Na |
1200-4270 |
mg/100g dry weight |
(4) |
|
K |
1350-3184 |
mg/100g dry weight |
(4) |
|
P |
135 |
mg/100g dry weight |
(4) |
|
Ca |
420-1120 |
mg/100g dry weight |
(4) |
|
Mg |
600-732 |
mg/100g dry weight |
(4) |
|
Fe |
4-17 |
mg/100g dry weight |
(4) |
|
Zn |
7.14 |
mg/100g dry weight |
(4) |
|
Mn |
1.32 |
mg/100g dry weight |
(4) |
|
Cu |
<0.5 |
mg/100g dry weight |
(4) |
|
I |
24.5 |
mg/100g dry weight |
(4) |
|
Cobalamin |
0.6-4 |
ppm |
(4) |
|
Vitamin C |
10-13 |
ppm |
(4) |
Chondrus crispus is, compared to most other seaweeds, well-investigated scientifically. It has been used as a model species to study photosynthesis, carrageenan biosynthesis, and stress responses. The nuclear genome was sequenced in 2013. The genome size is 105 Mbp and is coding for 9,606 genes. It is characterized by relatively few genes with very few introns. The genes are clustered together, with normally short distances between genes and then large distances between groups of genes.
We have this available on https://seatechbioproducts.com/irish-moss-chondrus-crispus-human-nutrition-powder-25kg.html
Source & References: https://en.wikipedia.org/wiki/Chondrus_crispus
(1) Kulshreshtha G at al, Enzyme assisted extraction of bioactive material from Chondrus crispus and Codium fragile and its effect on herpes simplex virus (HSV-1)
http://www.ncbi.nlm.nih.gov/pubmed/25603348
Free article: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4306952/
(2) van Ginneken at al, Polyunsaturated fatty acids in various macroalgal species from North Atlantic and tropical seas (full text)
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3131239/
(3) Bocanegra at al, Characteristics and nutritional and cardiovascular-health properties of seaweeds
(4) Pereira L., A review of the nutrient composition of selected edible seaweeds; in: Seaweed
Specific components
Carrageenan – Prajapati at al provide a review.
http://www.ncbi.nlm.nih.gov/pubmed/24708958
