Stylidium

Stylidium

Taxobox
name = "Stylidium"



image_caption = Flower of "Stylidium graminifolium"
image_width = 220px
regnum = Plantae
divisio = Magnoliophyta
classis = Magnoliopsida
ordo = Asterales
familia = Stylidiaceae
genus = "Stylidium"
genus_authority = Sw. ex Willd.
subdivision_ranks = Species
subdivision = See separate list.

The genus "Stylidium" (also known as triggerplants or trigger plants) are a group of dicotyledonous plants that belong to the family Stylidiaceae. The genus name "Stylidium" is derived from the Greek "στυλος" or "stylos" (column or pillar), which refers to the distinctive reproductive structure that its flowers possess. [Curtis's Botanical Magazine. (1832). "Stylidium scandens", Volume 59: Plate 3136.] Pollination is achieved through the use of the sensitive "trigger", which comprises the male and female reproductive organs fused into a floral column that snaps forward quickly in response to touch, harmlessly covering the insect in pollen. Most of the approximately 300 species are only found in Australia, making it the fifth largest genus in that country. Triggerplants are considered to be protocarnivorous or carnivorous because the glandular trichomes that cover the scape and flower can trap, kill, and digest small insects with protease enzymes produced by the plant.

Characteristics

The majority of the "Stylidium" species are perennial herbs of which some are geophytes that utilize bulbs as their storage organ. The remaining small group of species consists of ephemeral annuals.Good, R. (1925). On the Geographical Distribution of the Stylidiaceae. "New Phytologist", 24(4): 225-240.]

Members of the genus are most easily identified by their unique floral column, in which the stamen and style are fused. The column--also commonly called a "trigger" in this genus--typically resides beneath the plane of the flower. "Stylidium" flowers are zygomorphic, which means they are only symmetrical in one plane.Laurent, N., Bremer, B., Bremer, K. (1998). Phylogeny and Generic Interrelationships of the Stylidiaceae (Asterales), with a Possible Extreme Case of Floral Paedomorphosis. "Systematic Botany", 23(3): 289-304.] Flowers usually bloom in the late Spring in Australia.Erickson, Rica. (1961). An introduction to triggerplants. "Australian Plants", 1(9): 15-17. (Available online: [http://farrer.csu.edu.au/ASGAP/APOL18/jun00-3.html HTML] )]

Morphology

[
thumb|223px|right|Stylidium debile" flower, resetting after being triggered.] Species of the genus "Stylidium" represent a very diverse selection of plants. Some are only a few centimeters tall, while others can grow to be 1.8 meters tall ("S. laricifolium"). One typical plant form is a dense rosette of leaves close to the ground that gives rise to the floral spike in the center. Plant forms ranges from wiry, creeping mats ("S. scandens") to the bushy "S. laricifolium".Darnowski, Douglas W. (2002). "Triggerplants". Australia: Rosenberg Publishing. ISBN 1-877058-03-3]

Flower morphology differs in details, but ascribes to a simple blueprint: four petals, zygomorphic in nature, with the trigger protruding from the "throat" of the flower and resting below the plane of the flower petals. Flower size ranges from many species that have small 0.5 cm wide flowers to the 2-3 cm wide flowers of "S. schoenoides". Flower color can also vary from species to species, but most include some combination of white, cream, yellow, or pink. Flowers are usually arranged in a spike or dense raceme, but there is at least one exception to the rule: "S. uniflorum", as its name suggests, produces a single flower per inflorescence.

Leaf morphology is also very diverse in this large genus. Some leaves are very thin, almost needle-like ("S. affine"), while others are short, stubby, and arranged in rosettes ("S. pulviniforme"). Another group of species, such as "S. scandens" (climbing triggerplant) form scrambling, tangled mats typically propped up on aerial roots.

Pollination mechanism

The column typical of the genus "Stylidium" is sensitive and responds to touch. The change in pressure when a pollinating insect lands on a "Stylidium" flower causes a physiological change in the column turgor pressure by way of an action potential, sending the column quickly flying toward the insect.Findlay, G.P. and Pallaghy, C.K. (1978). Potassium chloride in the motor tissue of "Stylidium". "Australian Journal of Plant Physiology", 5(2): 219 - 229. (Abstract available online: [http://www.publish.csiro.au/paper/PP9780219.htm HTML] )] Upon impact, the insect will be covered in pollen and stunned, but not harmed. Because the column comprises the fused male and female reproductive organs of the flower, the stamen and stigma take turns in dominating the function of the column--the anthers develop first and then are pushed aside by the developing stigma. This delayed development of the stigma prevents self-pollination and ensures that cross pollination will occur between individuals of a population. Different species have evolved the trigger mechanism in different locations, with some attacking the pollinating insect from above and others from below (a "punch in the gut" to the insect).Armbruster, W.S., Edwards, M.E., Debevec, E.M. (1994). Floral Character Displacement Generates Assemblage Structure of Western Australian Triggerplants (Stylidium). "Ecology", 75(2): 315-329.]

The response to touch is very quick in "Stylidium" species. The column can complete its "attack" on the insect in as little as 15 milliseconds. After firing, the column resets to its original position in anywhere from a few minutes to a half hour, depending on temperature and species-specific qualities. The column is able to fire many times before it no longer responds to stimuli. The response time is highly dependent upon ambient temperature, with lower temperatures relating to slower movement.Findlay, G.P. (1978) Movement of the Column of "Stylidium crassifolium" as a Function of Temperature. "Australian Journal of Plant Physiology", 5(4): 477-484.]

Carnivory

Members of the genus have been considered to be protocarnivorous (or subcarnivorous) in the past. They have glandular trichomes projecting from sepals, leaves, flower parts, and the scape. The tip of the trichome produces a sticky mucilage—a mixture of sugar polymers and water—that is capable of attracting and suffocating small insects. Recent research has revealed that these trichomes produce digestive enzymes, specifically proteases, like other carnivorous plants. The plants are also able to absorb the nutrients created by the protease activity on the captured insects, making them carnivorous plants in the opinion of some researchers. Adding species of "Stylidium" to the list of plants that engage in carnivory would significantly increase the total number of known carnivorous plants. [Darnowski, D.W., Carroll, D.M., Płachno, B., Kabanoff, E., and Cinnamon, E. (2006). Evidence of protocarnivory in triggerplants ("Stylidium" spp.; Stylidiaceae). "Plant Biology", 8(6): 805-812. (Abstract online: [http://www.thieme-connect.com/ejournals/abstract/plantbiology/doi/10.1055/s-2006-924472 HTML] )] Darnowski, D., Moberly, S., and Plachno, B. 2007. [http://www.2007.botanyconference.org/engine/search/index.php?func=detail&aid=18 Triggerplants ("Stylidium" spp.; Stylidiaceae): A Previously Unrecognized Genus of Carnivorous Plants] . "Proceedings of the 2007 Botany and Plant Biology Joint Congress", "Botanical Society of America". Abstract accessed online: 21 March 2007.]

The insects captured by the glandular trichomes are much too small to serve any role in pollination. It is unclear, however, whether these plants evolved the ability to trap and kill insects as an adaptation to low environmental nutrient availability or simply a defensive mechanism against insects damaging flower parts.

There is also a correlation between location of "Stylidium" species and proximity of known carnivorous species, like sundews ("Drosera"), bladderworts ("Utricularia"), the Albany pitcher plant ("Cephalotus follicularis"), and the rainbow plant ("Byblis"). While this alone does not prove that "Stylidium" species are themselves carnivorous, the hypothesis is that the association arose because "Stylidium" species and the known carnivorous plants obtain scarce nutrients using the same source, namely captured insects. Preliminary proof is given that the trapping mechanisms of two associated plants are the same (the tentacles of "Byblis" and "Drosera"), though this may be only a coincidence and further research must be done.

As of 2007, Darnowski and his research team have published an abstract of a paper to be presented at the 2007 Botany and Plant Biology Joint Congress in Chicago. The presentation will explain their research into the carnivory of "Stylidium" including its ability to digest prey and absorb the resulting nutrients, two of the main criteria to be considered a carnivorous plant.

Distribution and habitat

Most "Stylidium" species are endemic to Australia. In Western Australia alone, there are more than 150 species, at least 50 of which are in the area immediately around Perth. There are at least four species of "Stylidium" that are not confined to the Australian continent: "S. tenellum" is found in Myanmar, Melaka, and Tonkin; "S. kunthii" in Bengal and Myanmar; "S. uliginosum" in Queensland, Sri Lanka, and the south coast of China; and "S. alsinoides" in Northeast Australia, Queensland, and the Philippines. The cladistic group "Stylidium" contains more than 230 individual species (more than 300 species exist, but many specimens have not yet been formally described), [http://www.rbgsyd.nsw.gov.au/information_about_plants/talking_plants/talking_plants_archive/talking_plants_events_calendar/event_view?SQ_CALENDAR_VIEW=event&SQ_CALENDAR_EVENT_ID=72326 Information from a October 26, 2004 edition of "Talking Plants"] , a program of the Botanic Gardens Trust, a division of the New South Wales Department of Environment and Conservation] making it the fifth largest genus in Australia.

"Stylidium" habitat includes grassy plains, open heaths, rocky slopes, sandplains, forests, and the margins of creeks and water holes. Somes species, such as "S. eglandulosum", can even be found in disturbed areas like near roads and under powerlines. Others (i.e. "S. coronmiforme") are sensitive to disturbance and are considered rare because of their extremely specific habitat.

Botanical history

Discovery and description of new "Stylidium" species has been occurring since the late 18th century, the first of which was discovered in Botany Bay in 1770 by Joseph Banks and Daniel Solander during their travels in the Pacific with James Cook aboard the "Endeavour". The five species collected by Banks and Solander were sketched by Sydney Parkinson on board the Endeavour and were later engraved in preparation for publication in Banks' Florilegium. Later, in the early 19th century, the French botanist Charles François Antoine Morren wrote one of the first descriptions of the triggerplant anatomy, illustrated by many botanical artists including Ferdinand Bauer. Around the same time, British botanist Robert Brown described (or "authored") several "Stylidium" species, including "S. adnatum" and "S. repens". More species began to be described as more botanists explored Australia more thoroughly.

In 1958, Rica Erickson wrote "Triggerplants", describing habitat, distribution, and plant forms (ephemeral, creeping, leafy-stemmed, rosette, tufted, scale-leaved, and tropical). It was Erickson that began placing certain species into these morphologically-based groups, which may or may not resemble true taxonomic divergences. It was not until the 1970s and 1980s that research of the trigger physiology was begun in the lab of Dr. Findlay of Flinders University. Douglas Darnowski added to the growing library of knowledge on "Stylidium" when he published his book "Triggerplants" in 2002, describing an overview of habitat, plant morphology, carnivory, and research done to date. Following its publication, he attempted to assist in the organization of the [http://web.archive.org/web/20020930085051/http://www.triggerplants.org/ International Triggerplant Society] , which has not been formally created yet.Darnowski, Douglas W. (2002). The history of triggerplants. International Triggerplant Society. (Archived, available online: [http://web.archive.org/web/20030713182018/www.triggerplants.org/history.html HTML] )]

As of 2002, only 221 "Stylidium" species were known.Wagstaff, S.J. and Wege, J. (2002). Patterns of diversification in New Zealand Stylidiaceae. "American Journal of Botany", 89(5): 865-874. (Available online: [http://www.amjbot.org/cgi/content/full/89/5/865 HTML] or [http://www.amjbot.org/cgi/reprint/89/5/865 PDF] versions)] There are now over 300 species, many of which are awaiting formal description.

Cultivation

Most "Stylidium" species tend to be hardy species and can be easily cultivated in greenhouses or gardens. They are drought resistant, hardy to cold weather, and the species diversity in this genus gives gardeners a wide variety of choices. Most species that are native to Western Australia will be cold hardy to at least -1 to -2°C. The few that can be found all over Australia, like "S. graminifolium", will tolerate a wider range of habitat since their native ranges includes a great diversity of ecoregions. Some species of triggerplants are suitable for cultivation outdoors outside of the Australian continent including most of the United Kingdom and as far north as New York City or Seattle in the United States.

Cultivation from seed may be difficult or easy, depending on the species. The more difficult species to grow include the ones that require a period of dormancy or smoke treatment to simulate a bushfire. "Stylidium" specimens should be grown in a medium that is kept moist and has a relatively low concentration of nutrients. It should also be noted that they appear to be sensitive to disturbance of their root systems. Minimization of such disturbance will likely result in healthier plants.

References

External links

* [http://www.deh.gov.au/biodiversity/threatened/publications/recovery/s-coroniforme/index.html Australian Department of the Environment and Heritage] document on the "Wongan Hills Triggerplant ("Stylidium coroniforme") Interim Recovery Plan 2003-2008". ( [http://www.deh.gov.au/biodiversity/threatened/publications/recovery/s-coroniforme/pubs/s-coroniforme.pdf PDF version] )
* [http://florabase.calm.wa.gov.au/browse/flora?f=343&level=g&id=1495 FloraBase] (Western Australia's flora database) entry on "Stylidium".
* Association of Societies for Growing Australian Plants (ASGAP) information on " [http://farrer.riv.csu.edu.au/ASGAP/s-lar.html Stylidium laricifolium] " and " [http://farrer.riv.csu.edu.au/ASGAP/s-gra.html Stylidium graminifolium] ".
* International Plant Names Index (IPNI) [http://132.236.163.181/cgi-bin/dol/dol_terminal.pl?taxon_name=Stylidium&rank=genus list of published "Stylidium" species names] .
* [http://www.gdaywa.com/wildflowers/triggerplants.php Photos and animations] of triggerplants, featuring several species.


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