Everything about Azolla totally explained
Azolla (
mosquito fern,
duckweed fern,
fairy moss,
water fern) is a
genus of seven species of
aquatic ferns, the only genus in the family
Azollaceae. They are extremely reduced in form and specialized, looking nothing like conventional ferns but more resembling
duckweed or some
mosses.
Ecology
Azolla floats on the surface of water by means of numerous, small, closely-overlapping scale-like leaves, with their roots hanging in the
water. They form a
symbiotic relationship with the
blue-green alga Anabaena azollae, which
fixes atmospheric nitrogen, giving the plant access to the essential
nutrient. This has led to the plant being dubbed a "super-plant", as it can readily colonise areas of freshwater, and grow at great speed - doubling its biomass every two to three days. The only known limiting factor on its growth is
phosphorus, another essential mineral. An abundance of phosphorus, due for example to
eutrophication or chemical runoff, often leads to
Azolla blooms.
Their nitrogen-fixing capability of
Azolla has led to it being widely used as a biofertiliser, especially in parts of southeast
Asia. Indeed, the plant has been used to bolster agricultural productivity in China for over a thousand years. When
rice paddies are flooded in the spring, they can be inoculated with
Azolla, which then quickly multiplies to cover the water, suppressing weeds. The rotting plant material releases nitrogen to the rice plants, providing up to nine tonnes of protein per hectare per year.
Azolla are also serious
weeds in many parts of the world, entirely covering some bodies of water. The myth that no
mosquito can penetrate the coating of fern to lay its eggs in the water gives the plant its common name "mosquito fern".
Most of the species can produce large amounts of deoxy
anthocyanins in response to various stresses, including bright sunlight and extremes of temperature,, causing the water surface to appear to be covered with an intensely red carpet. Herbivore feeding induces accumulation of deoxyanthocyanins and leads to a reduction in the proportion of
polyunsaturated fatty acids in the fronds, thus lowering their palatability and nutritive value.
Azolla can't survive winters with prolonged freezing, so is often grown as an
ornamental plant at high latitudes where it can't establish itself firmly enough to become a weed. It isn't tolerant to salinity; normal plants can't survive in greater than 1-1.6‰, and even conditioned organisms die in over 5.5‰ salinity.
Reproduction
Azolla reproduces sexually, and
asexually by splitting.
Like all ferns, sexual reproduction leads to
spore formation, but
Azolla sets itself apart from other members of its group by producing two kinds. During the summer months, numerous spherical structures called
sporocarps form on the undersides of the branches. The male sporocarp is greenish or reddish and looks like the egg mass of an insect or spider. It is two millimeters in diameter, and inside are numerous male
sporangia. Male spores (microspores) are extremely small and are produced inside each
microsporangium. Curiously, microspores tend to adhere in clumps called
massulae.
Female sporocarps are much smaller, containing one sporangium and one functional spore. Since an individual female spore is considerably larger than a male spore, it's termed a
megaspore.
Azolla has microscopic male and female gametophytes that develop inside the male and female
spores. The female
gametophyte protrudes from the megaspore and bears a small number of
archegonia, each containing a single egg. The microspore forms a male gametophyte with a single antheridium which produces eight swimming sperm. The barbed
glochidia on the male spore clusters are assumed to cause them to cling to the female megaspores, thus facilitating fertilization.
Use as Food
In addition to its traditional cultivation as a bio-fertilizer for wetland paddy, Azolla is finding increasing use for sustainable production of livestock feed. Azolla is rich in proteins, essential amino acids, vitamins and minerals. Studies describe feeding azolla to dairy cattle, pigs, ducks, and chickens, with reported increases in milk production, weight of broiler chickens and egg production of layers, as compared to conventional feed. One
FAO study describes how azolla integrates into a tropical biomass agricultural system, reducing the need for inputs.
Climatic paleontology
A study of
Arctic climatology reported that azolla may have had a significant role in reversing a
greenhouse effect that occurred 55 million years ago that caused the region around the north pole to turn into a hot tropical environment. This research conducted by the Institute of Environmental Biology at
Utrecht University claims that large dense patches of
Azolla growing around freshwater lakes formed by the climate change eventually consumed enough
carbon dioxide for the greenhouse effect to reverse.
Further Information
Get more info on 'Azolla'.
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