Luronium

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Luronium
LuroniumNatans2.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Monocots
Order: Alismatales
Family: Alismataceae
Genus: Luronium
Raf.
Species:
L. natans
Binomial name
Luronium natans
(L.) Raf.
Synonyms
  • Alisma natansL.
  • Elisma natans (L.) Buchenau
  • Echinodorus natans(L.) Engelm. in P.F.A.Ascherson
  • Nectalisma natans(L.) Fourr.
  • Alisma diversifoliumGilib.
  • Alisma natans var. sparganiifoliumFr.

Luronium natans is a species of aquatic plant commonly known as the floating water-plantain. It is the only recognized species in the genus Luronium, native to western and central Europe, from Spain to Britain to Norway east to Ukraine. [1] [2]

Contents

Description

Stems elongated, rising in the water or creeping and rooting at the nodes. Submerged leaves (if present) basal, linear, floating or aerial leaves elliptical to ovate. Flowers hermaphrodite, long-pedunculate in the axils of the floating or aerial leaves. Stamens 6. Carpels 6–15 in an irregular whorl, free, each with 1 ovule; styles apical. Fruitlets achenial, longitudinally many-ribbed, with a short apical beak. 2n = 42. [2] [3] [4] [5]

Floating water plantain Luronium natans showing stoloniferous habit Luronium natans stoloniferous.jpg
Floating water plantain Luronium natans showing stoloniferous habit
Characteristic 'ladder' venation pattern of submerged leaves. Luronium ladders.jpg
Characteristic 'ladder' venation pattern of submerged leaves.

Luronium natans can be a difficult plant to identify. [6] It is both very variable and resembles many other aquatic plants with strap-like leaves such as bur-reeds (Sparganium), young water-plantain plants (Alisma), arrowheads (Sagittaria), lesser water-plantain (Baldellia) [7] and mudwort (Limosella aquatica). [8] [9] The stoloniferous habit is an important distinguishing feature, and the unusual shape of the floating leaves, which are rounded at the tips and tend to taper gradually into the stem, is also helpful. However, floating leaves are not always present, especially in lake populations. [8] Submerged leaves have a characteristic ladder pattern with whitish flecks when seen underwater. [10] [11]

Floating water-plantain showing whitish flecks on leaves visible underwater. Llyn Hir, Ceredigion, Wales, UK. Luronium white flecks.jpg
Floating water-plantain showing whitish flecks on leaves visible underwater. Llyn Hir, Ceredigion, Wales, UK.

Distribution

The range of floating water-plantain is uncertain. It is widely distributed in western and central Europe, with confirmed records from Belgium, Denmark, France, Germany, the Netherlands, Poland, Republic of Ireland and the United Kingdom. [8] [12] It is also present but rare in northern Spain, [7] the Czech Republic, [13] Norway and Sweden. [8] [12]

Further east the distribution is much more uncertain and requires verification. Records from Bulgaria, Italy, Bosnia-Herzegovina, Croatia, Hungary, Lithuania, Macedonia, Montenegro, Romania, [14] Russia, Serbia, Slovakia, Slovenia, Austria, the Transcarpathian region of Ukraine and Transylvania either are doubtful or are unconfirmed. [12]

Ecology

Floating water-plantain grows predominantly in base-poor lakes, ponds and slow-flowing rivers with low to moderate nutrient levels, [11] [15] although in some cases it appears able to tolerate alkaline systems and / or high nutrient levels. [8] [16] It has proved able to colonise certain man-made freshwater systems, especially canals. [9] [11]

Llyn Dinas, a low nutrient base-poor shallow lake on the edge of Snowdonia National Park supports a strong population of Luronium natans Llyn Dinas - geograph.org.uk - 1175897.jpg
Llyn Dinas, a low nutrient base-poor shallow lake on the edge of Snowdonia National Park supports a strong population of Luronium natans

Lakes

Lake populations predominantly occur on silty or peaty substrates, [17] growing at depths up to at least 3.5 m. [18] In deeper water it reproduces vegetatively by stolons or production of cleistogamous seed. This often results in populations with low genetic diversity. [19] Shallow water populations produce short-lived flowers which may cross-pollinate. [9]

Floating water-plantain favours a certain amount of disturbance to survive, as it is a poor competitor. [17] [8] [20] In Llyn Egnant and Llyn Teifi (Wales, UK), which are used as reservoirs for public water supply, floating water-plantain probably benefits from the resulting increase in water level fluctuation, suppressing competition from other aquatic plants and promoting flowering. However, in sites where water level fluctuations are larger in amplitude, L. natans is absent. Lake populations of this plant are strongly associated with soft-water conditions and low nutrient concentrations. [15] [6]

Rivers

In Britain, floating water-plantain is rare in river habitats. River populations in general occur in slow-flowing, low-gradient sections of base-poor rivers along with aquatic plants such as intermediate water-starwort Callitriche hamulata, bog pondweed Potamogeton polygonifolius and shoreweed Littorella uniflora. These populations are small and usually associated with upstream lakes that may act as sources of propagules. [8] Riverine populations in France and Denmark are associated with natural river-floodplain systems where new oxbow lakes are constantly being created by erosion and deposition. [21] [20]

Floating water-plantain (Luronium natans), Afon Gwyrfai a Llyn Cwellyn Special Area of Conservation, Snowdonia, Wales, UK. Luronium natans in a river.jpg
Floating water-plantain (Luronium natans), Afon Gwyrfai a Llyn Cwellyn Special Area of Conservation, Snowdonia, Wales, UK.

Ponds

The ecology of floating water-plantain in ponds is not well understood, but generally it seems to require broadly low nutrient, soft water situations with some disturbance, such as lowland heathland pools subject to grazing by livestock. [22]

Artificial habitats

In the past, floating water-plantain has proved successful at exploiting certain types of artificial habitats, notably the British canal system [9] [11] and the Dombes traditional fishpond system in France. [23] Both these systems have in common a moderate level of disturbance which helps to suppress competing species that might otherwise exclude it. [8]

The Montgomery Canal in Britain has been widely colonized by floating water-plantain and is now a protected area for it. Regular desilting and cutting is required to restrict competition from more vigorous plants. Montgomery Canal at Arddlin - geograph.org.uk - 580121.jpg
The Montgomery Canal in Britain has been widely colonized by floating water-plantain and is now a protected area for it. Regular desilting and cutting is required to restrict competition from more vigorous plants.

Conservation, threats and restoration

Within Europe, floating water-plantain is listed under Annexes II and IV of the Habitats Directive and Appendix I of the Bern Convention. Within Britain it is on Schedule 4 of the Conservation (Natural Habitats, etc.) Regulations 1994; Schedule 8 of the Wildlife and Countryside Act, 1981, and on the IUCN Red List it is classified as 'Least Concern'(LC). [24]

Floating water-plantain seems quite tolerant of acidification, as evidenced by its relative abundance in several Welsh lakes that have suffered severe declines in pH due to acid rain, and also seems able to tolerate moderate water level fluctuation as is seen when certain lakes were converted to reservoirs. Losses have mainly been associated with nutrient enrichment (eutrophication), such as in the Shropshire-Cheshire meres. [25]

In the Netherlands, restoration of floating water-plantain and other threatened freshwater plants has been successfully achieved by removing the organic sediment layer and reducing inputs of calcium-rich surface water. [15]

Terrestrial rosette of Luronium natans at Brown Moss in Shropshire in 2003 Luronium rosette.jpg
Terrestrial rosette of Luronium natans at Brown Moss in Shropshire in 2003

Cultural

In 2009 it featured on a first class Royal Mail stamp in the series "Endangered Plants". [26] It is said to have "spread eastwards from its core natural habitats in the lakes of Snowdonia and mid Wales in the 19th century, taking advantage of the canal network. In recent decades, however, pollution and recreational boating have led to its disappearance from many lowland waterways". [24]

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References

  1. "World Checklist of Selected Plant Families: Royal Botanic Gardens, Kew". apps.kew.org. Retrieved 2017-01-30.
  2. 1 2 "Luronium natans [Mestolaccia natante]". luirig.altervista.org (in Italian). Retrieved 2017-01-30.
  3. Rafinesque, Constantine Samuel. 1840. Autikon Botanikon 63.
  4. "1831 Floating water-plantain Luronium natans - SAC selection species account". jncc.defra.gov.uk. Retrieved 2017-01-30.
  5. Luronium natans, National Museum of Wales
  6. 1 2 Lockton, A.J. 2014. Species account: Luronium natans. Botanical Society of the British Isles
  7. 1 2 Romero M, Rubinos M, Ramil P. 2004. Luronium natans, a rare species in the Iberian peninsula. 137, 85-90
  8. 1 2 3 4 5 6 7 8 Lansdown RV & Wade PM (2003). Ecology of the Floating Water-plantain, Luronium natans. Conserving Natura 2000 Rivers Ecology Series No. 9. English Nature, Peterborough.
  9. 1 2 3 4 Kay, Q.O.N.; John, R.F.; Jones, R.A. (1999). "Biology, genetic variation and conservation of Luronium natans (L.) Raf. in Britain and Ireland" (PDF). Watsonia: 301-315.
  10. Jones, R.A. "Plant Crib: Luronium natans" (PDF).
  11. 1 2 3 4 Willby, N.J. and Eaton, J.W. 1993. The Distribution, Ecology and Conservation of Luronium natans (L.) Raf. in Britain. Journal of Aquatic Plant Management 31:70-76
  12. 1 2 3 Lansdown, R.V. 2011. Luronium natans. The IUCN Red List of Threatened Species 2011: e.T162134A5547543.Downloaded on 21 June 2017.
  13. Rybková R, Pohlová R. 2005. Plants of the Natura 2000 Network in the Czech Republic. Sagittaria: Association for Nature Conservation of Central Moravia and Prague Botanical Garden, Prague.
  14. Anca S, Adrian O, Ion S. 2007. Plants from the Habitat Directive – AnnexIIb, Present in Romania. Buletinul Grădinii Botanice Iaşi 14.
  15. 1 2 3 Roelofs JGM. 1996. Restoration of eutrophied shallow softwater lakes based upon carbon and phosphorus limitation. Netherlands Journal of Aquatic Ecology, 30, 197-202.
  16. Greulich, Sabine; Bornette, Gudrun; Amoros, Claude; Roelofs, Jan G.M. (2000). "Investigation on the fundamental niche of a rare species: an experiment on establishment of Luronium natans". Aquatic Botany. 66 (3): 209–224. Bibcode:2000AqBot..66..209G. doi:10.1016/S0304-3770(99)00073-X. ISSN   0304-3770.
  17. 1 2 Szańkowski, Marcin; Kłosowski, Stanisław (2001). "Habitat conditions of the phytocoenoses dominated by Luronium natans (L.) Rafin in Poland". Hydrobiologia. 455 (1/3): 213–222. doi:10.1023/A:1011914607379. ISSN   0018-8158. S2CID   26133228.
  18. Goldsmith B, Shilland E, Shilland J, Turner S. 2014. Floating water-plantain Luronium natans (L.) Raf.: current distribution and status in Llyn Padarn and Llyn Cwellyn, Wales. NRW Evidence Report No. 73. Natural Resources Wales, Bangor.
  19. Cox K, Leyssen A, Mergeay J, Ronse A, Packet J, Denys L. Genetic assessment of Luronium natans in lower Belgium: analysis of population connectivity of an aquatic perennial. INBO.R.2014.5021339. 2014. Brussel, Instituut voor Natuur- en Bosonderzoek (INBO).
  20. 1 2 Greulich, Sabine; Bornette, Gudrun; Amoros, Claude (2000). "Persistence of a rare aquatic species along gradients of disturbance and sediment richness". Journal of Vegetation Science. 11 (3): 415–424. Bibcode:2000JVegS..11..415G. doi:10.2307/3236634. ISSN   1100-9233. JSTOR   3236634.
  21. Barrat-Segretain, M-H., Bornette G., Hering-Vilas-Boas A. 1998. Comparative abilities of vegetative regeneration among aquatic plants growing in disturbed habitats. Aquatic Botany 60, 201-211.
  22. Freshwater Habitats Trust: Dowrog Common Flagship Pond Site
  23. Wezel, A., Oertli, B., Rosset, V. et al. Biodiversity patterns of nutrient-rich fish ponds and implications for conservation. Limnology 15, 213–223 (2014). https://doi.org/10.1007/s10201-013-0419-7
  24. 1 2 "Floating water-plantain videos, photos and facts - Luronium natans". ARKive. Archived from the original on 2017-04-21. Retrieved 2017-01-30.
  25. Lockton, Alex; Whild, Sarah (2015). The Flora and Vegetation of Shropshire.
  26. "Endangered Species Stamps". PlantNetwork. July 2009.
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