Azolla filiculoides Lamarck
IUCN
NCBI
EOL Text
The following is a representative barcode sequence, the centroid of all available sequences for this species.
Azolla can be placed in its own family, Azollaceae, but is often included with Salvinia in the family Salviniaceae. Salviniaceae and Marsileaceae (Marsilea, Pilularia and Regnellidium) form a monophyletic group of water ferns, which are all heterosporous, ie. produce two kinds of spores, large female megaspores and small male microspores.Many fossil species of Azolla are known from the Upper Cretaceous. Today there are only 6 or 7 species in this genus.Azolla species are difficult to identify because high magnification is required to see the distinguishing characters clearly. In addition, the plants are often sterile and thus lack most of the features essential for identification. This has led to many misidentifications, confused taxonomy and thus uncertainty over species distributions.
Morphology
The small plants of Azolla filiculoides are prostrate, with branching thread-like horizontal stems generally up to 5cm long.Numerous unbranched roots up to 5cm long hang below the plant, arising from the underside of the stem at branching points.The tiny leaves (no more than 1.5 x 2.5mm in size) are alternately arranged in 2 rows on the upper side of the stem and overlap like roof tiles.Each leaf is divided into 2 lobes:
- the upper lobe is green, several cells thick and bears numerous single-celled papillate hairs
- the upper lobe has a cavity in which the thread-like blue-green alga (cyanobacterium) Anabaena azollae lives in symbiosis
- the lower lobe is more-or-less colourless and only one cell thick except at the base
Spores are produced inside sporocarps. The sporocarps are borne in pairs (sexes the same or different) on the first leaf of each branch, the lower lobe forming the sporocarp and the upper lobe forming a false indusium over the sporocarp:
- megasporocarps (female; about 0.5mm diameter) contain just one megasporangium, inside which a single megaspore develops
- as the megaspore matures, floats develop above it, topped with a colony of cyanobacteria and covered by a dark conical indusium; collectively this is known as the ‘megaspore apparatus’
- microsporocarps (male; about 2mm diameter) contain numerous sporangia, each containing 64 microspores
- the microspores are clumped together with other tissue in massulae that bear barbed hairs called glochidia
Look-alikes
Azolla caroliniana and A. mexicana are very similar to A. filiculoides. Although A. filiculoides is the common species in western Europe, both the others have been recorded, though some of the identifications are questionable. All three species are native in the Americas.They differ principally in:
- the number of cells in the hairs on the upper leaf lobes - A. filiculoides has single-celled hairs whereas those of A. caroliniana and A. mexicana have at least 2 cells (light microscope required)
- the nature of the surface of the megaspore (female spore) – A. filiculoides has megaspores with a warty surface, while those of A. caroliniana and A. mexicana are not warty (scanning electron microscope needed)
| License | http://creativecommons.org/licenses/by-nc-sa/3.0/ |
| Rights holder/Author | Alison Paul, Natural History Museum |
| Source | No source database. |
Barcode of Life Data Systems (BOLDS) Stats
Public Records: 2
Specimens with Barcodes: 2
Species With Barcodes: 1
Have you recently seen a pond, lake or ditch that looks pink or red? If so, you have almost certainly seen Azolla.Azolla species are the world’s smallest, but most economically important ferns.In many ways Azolla is a very atypical fern as it:
- is aquatic, floating on the surface of ponds and lakes, ditches and canals
- looks more like a leafy liverwort than a fern, having minute overlapping leaves
- propagates itself readily by breaking up to form separate plants
- reproduces by means of two kinds of very unusual spores
- often changes colour dramatically in autumn or winter - turning from green to a distinctive deep red colour
- contains a blue-green alga (cyanobacterium) called Anabaena azollae that fixes atmospheric nitrogen
The presence of the nitrogen-fixing cyanobacterium has led to Azolla’s use as a green fertiliser, particularly in rice paddies.Unfortunately Azolla spreads so rapidly by vegetative propagation that it has become a widespread weed of water bodies in the UK and around the world. Biological control using a species of weevil is an alternative to using herbicides or physically removing the plants.
| License | http://creativecommons.org/licenses/by-nc-sa/3.0/ |
| Rights holder/Author | Alison Paul, Natural History Museum |
| Source | No source database. |
Perennial, mat-forming, free-floating aquatic. Rhizomes up to 25 - 35 mm long, branched, bearing roots singly or in clusters of 2-3. Leaves 2-lobed, each lobe 0.5-1.5 mm long, silvery-green, turning red in winter. Dorsal lobe broadly ovate to almost circular, apex rounded, margin translucent; ventral lobe like dorsal lobe but completely translucent. Plant heterosporous.
Rounded Global Status Rank: G5 - Secure
filiculoides: resembling a fern (from the Latin, filicum for a fern); unclear reference since Azolla does not coincide with the image that one has of a fern
This species is not threatened. It can be very invasive.
Management
As this species is invasive, procedures such as these have been introduced to control its spread:
- it should not be released in the wild
- dispose of garden and pond waste responsibly
- check vehicles, boats, equipment and clothing for plant fragments when leaving infested sites and clean if necessary
Several effective control strategies are used, including:
- Chemical control - spraying with herbicides containing glyphosate or diquat.
- Physical control - plant removal can be effective if repeated frequently.
- Biological control - a small north American weevil, Stenopelmus rufinasus, has been very effective in South Africa against this species and it now occurs in the UK. The weevil is monophagous (larvae and adults only feed on a single species) and so does not itself pose a threat to other species.
Risk statement
- out-competes native plant species
- reduces/blocks light levels - can be harmful to algae and waterweeds
- deoxygenates water killing fish and other fauna
- can block pumps and filters
- can block water bodies and obstruct weirs and other structures, which can lead to an increased risk of flooding
- hazard to children and animals when cover is dense and gives the appearance of solid ground
| License | http://creativecommons.org/licenses/by-nc-sa/3.0/ |
| Rights holder/Author | Alison Paul, Natural History Museum |
| Source | No source database. |
Plants often change colour dramatically in autumn or winter from green to a distinctive deep red colour. The colouration is caused by the production of anthocyanins, a process that is controlled by environmental conditions and/or by stress.
Life cycle
Sexual reproduction
In common with other ferns, Azolla has 2 alternating generations:
- the main sporophyte plant that produces spores
- the insignificant gametophyte on which the sexual organs develop
Azolla is one of the few ferns that are heterosporous - they produce 2 types of spores, large female spores and tiny male spores. These form inside sporangia contained in sporocarps. The sporocarps are able to withstand sub-zero temperatures as well as desiccation, so can help populations to overwinter and survive adverse conditions. However, Azolla does not regularly produce spores in the UK, a process probably influenced by environmental factors.Females:
- megasporocarps contain 1 megasporangium, inside which a single megaspore develops
- as the megaspore matures, floats develop above it, topped with a colony of cyanobacteria and covered by a dark conical indusium; collectively this is known as the ‘megaspore apparatus’
- at maturity the megasporangium wall disintegrates to reveal the warty spore wall with its tangled hairs
- a female prothallus develops, initially within the megaspore, later protruding
- 1 or more archegonia (female sex organs) form on the prothallus
Males:
- microsporocarps contain numerous microsporangia, each containing 64 microspores
- on maturity the microsporocarp and microsporangia break open to release the microspores, which are clumped together with other tissue in massulae that bear barbed hairs called glochidia
- within the massula prothalli develop in the microspores
- 1 antheridium (the male sex organ) is produced on the prothallus
The massula glochidia get caught in the hairs of a floating megaspore and the combined structure sinks. Fertilisation occurs and the resulting zygote (fertilised egg) develops into a new sporophyte the following spring.Azolla species are unique in that the cyanobacterium symbiont is transferred from generation to generation via the megasporocarp, rather than the new sporophyte requiring reinfection by the cyanobacterium.The relationship is mutually beneficial as the cyanobacterium has a niche to live in and the Azolla receives the nitrogen it requires.
Vegetative reproduction
Vegetative propagation in Azolla is extremely efficient. Plants break up very readily at branching points to establish numerous new individuals. If conditions are favourable, Azolla filiculoides can double the area it covers in just 5 to 10 days.Plants usually die back or sink in winter, though they can overwinter in milder climates. In spring when temperatures rise the plants begin to grow and rise to the surface.
| License | http://creativecommons.org/licenses/by-nc-sa/3.0/ |
| Rights holder/Author | Alison Paul, Natural History Museum |
| Source | No source database. |