Biology:Genlisea

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Short description: Genus of carnivorous plants

Genlisea
Genlisea violacea giant.jpg
Genlisea violacea leaves: green above-ground leaves and colorless underground trap leaves
Scientific classification e
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Lamiales
Family: Lentibulariaceae
Genus: Genlisea
A.St.-Hil. (1833)
Subgenera and sections
  • Genlisea subg. Genlisea
    • Genlisea sect. Genlisea
    • Genlisea sect. Africanae
      A.Fleischm., Kai Müll., Barthlott & Eb.Fisch.
    • Genlisea sect. Recurvatae
      A.Fleischm., Kai Müll., Barthlott & Eb.Fisch.
  • Genlisea subg. Tayloria
    (Fromm) Eb.Fisch., S.Porembski & Barthlott
Genlisea distribution.svg
Global distribution of Genlisea

Genlisea (/ˌɛnlɪˈsə/ JEN-liss-EE) is a genus of carnivorous plants also known as corkscrew plants. The 30 or so species grow in wet terrestrial to semi-aquatic environments distributed throughout Africa and Central and South America. The plants use highly modified underground leaves to attract, trap and digest minute microfauna, particularly protozoans. Although suggested a century earlier by Charles Darwin, carnivory in the genus was not proven until 1998.[1]

The generic name Genlisea honors the French writer and educator Stéphanie Félicité Ducrest de St-Albin, comtesse de Genlis.[2]

Several species in the genus, including G. margaretae, G. aurea, and G. tuberosa, possess the smallest known genomes of all flowering plants.[3][4][5]

As stated, Genlisea has a wide range of genetic diversity which can be shown in various phenotypic traits. For example, G. tuberosa develops tubers, one to three occurring per plant. This allows for carbohydrate and water storage as it is found in areas prone to fire. Other species present with a thickened stolon.[6]

Description

Genlisea subglabra leaves

Genlisea are small herbs, growing from a slender rhizome and bearing two morphologically distinct leaf types—photosynthetic foliage leaves aboveground and highly modified subterranean leaves used to trap prey. The plants lack roots, although the subterranean traps perform many of the functions normally performed by roots, such as anchorage and absorption of water and nutrients.

Several to many flowers are held by a slender, erect, and often tall inflorescence. As in other members of the bladderwort family, the corolla is fused into a bilobed tube tapering to a spur, with the lower lip of the corolla having three lobes.[2] The calyx is five-lobed, in contrast to Utricularia's three-lobed calyx.[7] Corolla colors are generally yellow or violet to mauve, although a few species are white or cream.[7] The lower lip forms a palate that functions as the guide to the spur that contains the nectar by providing olfactory and mechanical stimuli for nearby pollinators like bees and flies. At a microscopic level, the palate has glandular trichomes,[8] which are small hairs that store and secrete secondary metabolites in order to provide protection from herbivory.[9] The glandular trichomes contain no nectar secretion, suggesting that they are scent glands.[8] These above ground structures are not shown to be directly participating in carnivorous activities.

Plate from "Handbuch der Systematischen Botanik", 1. Spirally coiled tube-leaf of Genlisea aurea 2. Longitudinal section of tube, showing retrorse hairs

Depending on species, the photosynthetic leaves are linear to spatulate in shape and 0.5–5 cm (​14–2 in) in length.[2]

The subterranean traps are white, lacking chlorophyll or any other pigmentation. They consist of a cylindrical stalk, widening at some distance below the surface into a hollow bulb-like utricle, and continuing as a hollow cylinder some further distance. At this point the stalk bifurcates into two furrowed spirals, between which the cylinder opening acts as the trap entrance. The furrows of the spiraled trap arms are lined with hairs pointing inward and toward the bifurcation. The hollow cylinder section leading from the bifurcation to the utricle is likewise lined with upward-pointing curved hairs. Some species produce two trap forms, one shorter and one longer, which probably target different prey groups. These corkscrew-like structures passively capture protozoa and other metazoan. Since these traps occur in soil, they are continuously stimulated due to the vast microfauna found in the soil. Due to continuous stimulation, the plant actively secretes digestive enzymes in order to aid with digestion to gain more nitrogen, phosphorus, and other minerals.[10] Phosphatase has been detected in all types of glands, allowing for the breakdown of prey and uptake of phosphorus in low-nutrient soils. Although not completely understood, the oxygen concentration inside Genlisea traps is negligible. For this reason, it is thought that anoxic conditions could be the mechanisms in which prey are killed. At the same time, anaerobic bacteria survive.[11]

Taxonomy

Twenty-nine species are currently recognised in the genus.[12] Two varieties are also considered valid: G. aurea var. minor and the autonymous G. aurea var. aurea.[12] Intraspecific determination depends almost wholly upon the inflorescence, particularly upon the indumentum.[7] Genetic variation is an interesting area of attention as it has an incredible high rate of nucleotide substitution rates across nucleus, chloroplast, and mitochondria when compared to other angiosperms. Due to a mutation leading to changes in phenotypic traits found in the mitochondria, reactive oxygen species are produced which ultimately lead to DNA damage and further mutations.[13]

Species Authority Year Image Distribution Subgenus Section Genome size (Mbp)[5]
Genlisea africana Oliv. 1865 Africa Genlisea Africanae 740
Genlisea angolensis R.D.Good 1924 Africa Genlisea Africanae -
Genlisea aurea A.St.-Hil. 1833 Genlisea aurea flower 2 Darwiniana.jpg South America Genlisea Genlisea 64 & 117 - 131
Genlisea barthlottii S.Porembski, Eb.Fisch. & Gemmel 1996 Africa Genlisea Africanae -
Genlisea exhibitionista[14] Rivadavia & A.Fleischm. 2011 South America Tayloria -
Genlisea filiformis A.St.-Hil. 1833 Genlisea filiformis flower 2 Darwiniana.jpg South America, Central America, Cuba Genlisea Genlisea -
Genlisea flexuosa[14] Rivadavia, A.Fleischm. & Gonella 2011 South America Tayloria - -
Genlisea glabra P.Taylor 1967 South America Genlisea Genlisea -
Genlisea glandulosissima R.E.Fr. 1916 Africa Genlisea Recurvatae 154-189
Genlisea guianensis N.E.Br. 1900 South America Genlisea Genlisea 289
Genlisea hispidula Stapf 1904 Genlisea hispidula.jpg Africa Genlisea Africanae 1510 - 1550
Genlisea lobata Fromm 1989 GenliseaLobata.jpg South America Tayloria - 1200 - 1722
Genlisea margaretae Hutch. 1946 Africa, Madagascar Genlisea Recurvatae 113 - 195
Genlisea metallica[14] Rivadavia & A.Fleischm. 2011 South America Tayloria - 1057
Genlisea nebulicola[14] Rivadavia, Gonella & A.Fleischm. 2011 South America Tayloria - -
Genlisea nigrocaulis Steyerm. 1948 South America Genlisea Genlisea 73 - 86
Genlisea oligophylla[14] Rivadavia & A.Fleischm. 2011 South America Tayloria - -
Genlisea oxycentron P.Taylor 1954 South America, Trinidad Genlisea Genlisea 75
Genlisea pallida Fromm & P.Taylor 1985 Africa Genlisea Recurvatae -
Genlisea pulchella Tutin 1934 South America Genlisea Genlisea -
Genlisea pygmaea A.St.-Hil. 1833 Genlisea pygmaea 3.jpg South America Genlisea Genlisea 161 - 179
Genlisea repens Benj. 1847 Genlisearepens1web.jpg South America Genlisea Genlisea 77 - 86 & 142 - 150
Genlisea roraimensis N.E.Br. 1901 South America Genlisea Genlisea -
Genlisea sanariapoana Steyerm. 1953 South America Genlisea Genlisea -
Genlisea stapfii A.Chev. 1912 Africa Genlisea Africanae -
Genlisea subglabra Stapf 1906 Genlisea subglabra flora-edit.jpg Africa Genlisea Africanae 1471 - 1622
Genlisea tuberosa[15] Rivadavia, Gonella & A.Fleischm. 2013 South America Genlisea Genlisea 61[4]
Genlisea uncinata P.Taylor & Fromm 1983 South America Tayloria - 995 - 1062
Genlisea violacea A.St.-Hil. 1833 Genlicea violaceae flower.jpg South America Tayloria - 1005 - 1609

Botanical history

The genus was discovered by Augustin François César Prouvençal de Saint-Hilaire,[2] who in 1833 described four species: G. aurea, G. filiformis, G. pygmaea, and G. violacea.

Genome size range

The genus has a 25-fold range in genome size among its species and notably includes some of the smallest known plant genomes.[5] For example, the genome of G. nigrocaulis is 86 Mbp (1C; 2n = 40) while that of its close relative G. hispidula (1C; 2n = 40) is 1550 Mbp, 18-fold larger. More than one genome size has been measured in G. aurea and G. repens, suggesting that di- and tetraploid individuals exist.[5]

Host–microbiome interactions

Genlisea traps host a microbe community of bacteria (dominant species consisting of anaerobic Clostridium sp. and pectolytic Dickeya sp.[16]), green algae, microbial fungi, protists of SAR group, and minute metazoans. Through extensive research, the trap's bacterial community has been discovered as serving the ecological importance of being prey due to Genlisea plants relying on the digestive enzymatic systems from microbes in order to aid their own carnivorous digestion.[17]

References

  1. "First protozoa-trapping plant found". Nature 392 (6675): 447–448. 1998. doi:10.1038/33037. PMID 9548248. 
  2. 2.0 2.1 2.2 2.3 "An introduction to Genlisea". Carnivorous Plant Newsletter 11 (1): 13–15. 1982. 
  3. "Smallest angiosperm genomes found in Lentibulariaceae, with chromosomes of bacterial size". Plant Biology 8 (6): 770–777. 2006. doi:10.1055/s-2006-924101. PMID 17203433. 
  4. 4.0 4.1 "Evolution of genome size and chromosome number in the carnivorous plant genus Genlisea (Lentibulariaceae), with a new estimate of the minimum genome size in angiosperms". Annals of Botany 114 (8): 1651–1663. 2014. doi:10.1093/aob/mcu189. PMID 25274549. 
  5. 5.0 5.1 5.2 5.3 Vu, Giang; Schmutzer, Thomas; Bull, Fabian; Cao, Hieu; Fuchs, Jörg; Schubert, Ingo; others, and (2015). "Comparative Genome Analysis Reveals Divergent Genome Size Evolution in a Carnivorous Plant Genus". The Plant Genome 8 (3): 1–14. doi:10.3835/plantgenome2015.04.0021. PMID 33228273. https://dl.sciencesocieties.org/publications/tpg/abstracts/8/3/plantgenome2015.04.0021. Retrieved 30 November 2018. 
  6. Matos, Ramon Guedes; Silva, Saura Rodrigues; Płachno, Bartosz J.; Adamec, Lubomír; Michael, Todd P.; Varani, Alessandro Mello; Miranda, Vitor F.O. (May 2022). "The complete mitochondrial genome of carnivorous Genlisea tuberosa (Lentibulariaceae): Structure and evolutionary aspects". Gene 824: 146391. doi:10.1016/j.gene.2022.146391. ISSN 0378-1119. PMID 35259463. http://dx.doi.org/10.1016/j.gene.2022.146391. 
  7. 7.0 7.1 7.2 "The genus Genlisea". Carnivorous Plant Newsletter 20 (1–2): 20–26. 1991. doi:10.55360/cpn201-2.pt559. 
  8. 8.0 8.1 Płachno, Bartosz J.; Silva, Saura R.; Świątek, Piotr; Dixon, Kingsley W.; Lustofin, Krzystof; Seber, Guilherme C.; Miranda, Vitor F. O. (2020-07-21). "Structural Features of Carnivorous Plant (Genlisea, Utricularia) Tubers as Abiotic Stress Resistance Organs". International Journal of Molecular Sciences 21 (14): 5143. doi:10.3390/ijms21145143. ISSN 1422-0067. PMID 32708125. 
  9. Płachno, Bartosz J.; Świątek, Piotr; Stpiczyńska, Małgorzata; Miranda, Vitor Fernandes Oliveira (2018-02-14). "Flower palate ultrastructure of the carnivorous plant Genlisea hispidula Stapf with remarks on the structure and function of the palate in the subgenus Genlisea (Lentibulariaceae)". Protoplasma 255 (4): 1139–1146. doi:10.1007/s00709-018-1220-6. ISSN 0033-183X. PMID 29445970. 
  10. Cao, Hieu X.; Schmutzer, Thomas; Scholz, Uwe; Pecinka, Ales; Schubert, Ingo; Vu, Giang T. H. (2015-07-14). "Metatranscriptome analysis reveals host-microbiome interactions in traps of carnivorous Genlisea species". Frontiers in Microbiology 6: 526. doi:10.3389/fmicb.2015.00526. ISSN 1664-302X. PMID 26236284. 
  11. Adamec, Lubomír (2007-08-23). "Oxygen Concentrations Inside the Traps of the Carnivorous Plants Utricularia and Genlisea (Lentibulariaceae)". Annals of Botany 100 (4): 849–856. doi:10.1093/aob/mcm182. ISSN 1095-8290. PMID 17720681. 
  12. 12.0 12.1 Fleischmann, A. (2012). Monograph of the Genus Genlisea. Redfern Natural History Productions, Poole. ISBN:978-190-878-700-2.
  13. Carmesin, Cora F.; Fleischmann, Andreas S.; Klepsch, Matthias M.; Westermeier, Anna S.; Speck, Thomas; Jansen, Steven; Poppinga, Simon (December 2021). "Structural gradients and anisotropic hydraulic conductivity in the enigmatic eel traps of carnivorous corkscrew plants (Genlisea spp.)". American Journal of Botany 108 (12): 2356–2370. doi:10.1002/ajb2.1779. ISSN 0002-9122. PMID 34648183. 
  14. 14.0 14.1 14.2 14.3 14.4 Fleischmann, A., F. Rivadavia, P.M. Gonella & G. Heubl (2011). A revision of Genlisea subgenus Tayloria (Lentibulariaceae). Phytotaxa 33: 1–40. first page
  15. "A new and tuberous species of Genlisea (Lentibulariaceae) from the campos rupestres of Brazil". Systematic Botany 38 (2): 464–470. 2013. doi:10.1600/036364413X666679. 
  16. Caravieri, Fernanda A.; Ferreira, Almir J.; Ferreira, Anderson; Clivati, Débora; de Miranda, Vitor Fernandes O.; Araújo, Welington L. (May 2014). "Bacterial community associated with traps of the carnivorous plants Utricularia hydrocarpa and Genlisea filiformis". Aquatic Botany 116: 8–12. doi:10.1016/j.aquabot.2013.12.008. ISSN 0304-3770. http://dx.doi.org/10.1016/j.aquabot.2013.12.008. 
  17. Cao, Hieu X.; Schmutzer, Thomas; Scholz, Uwe; Pecinka, Ales; Schubert, Ingo; Vu, Giang T. H. (2015-07-14). "Metatranscriptome analysis reveals host-microbiome interactions in traps of carnivorous Genlisea species". Frontiers in Microbiology 6: 526. doi:10.3389/fmicb.2015.00526. ISSN 1664-302X. PMID 26236284. 

External links

Wikidata ☰ Q596158 entry