QUESTION-TYPE BASED TESTS FunEnglishwithme +99894 6333230
TEST 10 - Seaweed for Human Consumption Seaweeds are algae that live in the sea or in brackish water. Scientists often call them 'benthic marine
algae', which just means 'attached algae that live in the sea'. Seaweeds come in three basic colours: red,
green, and brown: dulse is the red seaweed; sea lettuce is amongst the green algae; and the brown is a wrack.
Red and brown algae are almost exclusively marine, whilst green algae are also common in freshwater and
in terrestrial situations. Many of these algae are very ancient organisms, and although lumped together as
'algae' are not actually closely related, having representatives in four of the five kingdoms of organisms.
There are about 10,500 species of seaweeds, of which 6,500 are red algae (Rhodophyta).
The trend today is to refer to marine algae used as food as 'sea-vegetables'. The main species used in
Ireland at present are dulse, carrageen moss, and various kelps and wracks. Dulse also known as dillisk in a
number of areas - is a red alga that is eaten on both sides of the North Atlantic. Generally only eaten in
Ireland after it has been dried, it is frequently sold in small packets, most commonly in the west and north.
About 16 tonnes are used in Ireland at present; the species is also eaten in Canada, Iceland, Norway, France
and Scotland. About 53 tonnes of carrageen moss were gathered in Ireland in 1994.
Whilst dulse and carrageen moss are worthy sea-vegetables with a history of utilisation and a small
but proven market, other species also show considerable promise. Our kelp resources are considerably
under- utilised. All of the kelp species are edible but Laminaria saccharina is probably the most palatable as
it has a somewhat sweet taste, probably due to its high levels of mannitol, and it also cooks better.
Two other brown algae with potential as food are currently under investigation by us: Himanthalia
elongata, known in some places as thongweed, and Alaria esculenta, also known as dabberlocks or murlins.
Himanthalia is eaten in France after drying or pickling ('Spaghettis demer'), and plants are sold in Ireland
dried. After soaking in water it makes a surprisingly fine accompaniment to a mixed salad; it does not have
the strong seaweedy taste that some dislike. With the aid of a basic research grant from Forbairt, the Irish
research and development body, we are examining the growth and life cycle of populations of this species
on the west coast. Plants are easy to collect but must be dried quickly and packaged well to preserve their
excellent taste and mouth feel.
Alaria is a large, kelp-like brown alga that grows on exposed shores; In Ireland, plants grow to
considerable sizes, being found up to 6m in length in some areas, but these are dwarfed by some Pacific
species that may grow to 18m in length and to 2m in width. With Marine Research Measure funding, a study
of the possibility of developing fast-growing hybrids of this species by crossing species from the Atlantic
and Pacific is being carried out. We have growing in culture isolates of A. esculenta from Ireland, Scotland,
France, Norway, and Atlantic Canada and other species from British Columbia and Japan. Species of this
genus are ideal for cross-breeding studies as the males and females are tiny filamentous plants that are
relatively easy to grow and propagate in culture under red light which stimulates reproduction in our growth
rooms. Male and female reproductive structures occur on different plants so that we can put plants from one
country in with those from another to see if they are sexually compatible.
To date, we have obtained interesting results with A. praelonga, a large species from Japan that co-
operates sexually with A. esculenta from the Aran Islands and other Irish sites. The resulting Irish/Japanese
progeny are grown initially in sample bottles agitated on a small shaker and their growth rates compared
with plants that have resulted from self-crosses. Preliminary results are very encouraging, with hybrid plants
showing relatively high growth rates. We hope by this method to obtain sterile hybrids that will not
reproduce in the wild so that we can introduce foreign genetic material without the fear that some sort of a
tryffid will be introduced that will take over the west coast of Ireland.
While studies of these two food species are very promising, we must bear in mind that the market
for such sea-vegetables is very small and needs development and investment. Nutritionally, seavegetables