Utricularia Reticulata 02
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''Utricularia'', commonly and collectively called the bladderworts, is a genus of
carnivorous plant Carnivorous plants are plants that derive some or most of their nutrients from trapping and consuming animals or protozoans Protozoa (singular: protozoan or protozoon; alternative plural: protozoans) are a group of single-celled eukaryot ...
s consisting of approximately 233 species (precise counts differ based on classification opinions; a 2001 publication lists 215 species).Salmon, Bruce (2001). ''Carnivorous Plants of New Zealand''. Ecosphere Publications. They occur in fresh water and wet soil as terrestrial or aquatic species across every continent except Antarctica. ''Utricularia'' are cultivated for their flowers, which are often compared with those of snapdragons and orchids, especially amongst carnivorous plant enthusiasts. All ''Utricularia'' are carnivorous and capture small organisms by means of bladder-like traps. Terrestrial species tend to have tiny traps that feed on minute prey such as
protozoa Protozoa (singular: protozoan or protozoon; alternative plural: protozoans) are a group of single-celled eukaryotes, either free-living or parasitic, that feed on organic matter such as other microorganisms or organic tissues and debris. Histo ...
and
rotifer The rotifers (, from the Latin , "wheel", and , "bearing"), commonly called wheel animals or wheel animalcules, make up a phylum (Rotifera ) of microscopic and near-microscopic pseudocoelomate animals. They were first described by Rev. John H ...
s swimming in water-saturated soil. The traps can range in size from .Taylor, Peter. (1989). '' The genus Utricularia - a taxonomic monograph''. Kew Bulletin Additional Series XIV: London. Aquatic species, such as '' U. vulgaris'' (common bladderwort), possess bladders that are usually larger and can feed on more substantial prey such as water fleas ''( Daphnia)'',
nematode The nematodes ( or grc-gre, Νηματώδη; la, Nematoda) or roundworms constitute the phylum Nematoda (also called Nemathelminthes), with plant-Parasitism, parasitic nematodes also known as eelworms. They are a diverse animal phylum inhab ...
s and even fish fry, mosquito larvae and young tadpoles. Despite their small size, the traps are extremely sophisticated. In the active traps of the aquatic species, prey brush against trigger hairs connected to the trapdoor. The bladder, when "set", is under negative pressure in relation to its environment so that when the trapdoor is mechanically triggered, the prey, along with the water surrounding it, is sucked into the bladder. Once the bladder is full of water, the door closes again, the whole process taking only ten to fifteen milliseconds.D'Amato, Peter. 1998. '' The Savage Garden: Cultivating Carnivorous Plants''. Ten Speed Press: Berkeley, California. Lloyd, F.E. 1942. ''
The Carnivorous Plants ''The Carnivorous Plants'' is a major work on carnivorous plants by American botanist Francis Ernest Lloyd. It was first published in 1942 by the Chronica Botanica Company as the ninth volume of ''A New Series of Plant Science Books''. It was r ...
''. The Ronald Press Company: New York.
Bladderworts are unusual and highly specialized plants, and the vegetative organs are not clearly separated into roots,
leaves A leaf (plural, : leaves) is any of the principal appendages of a vascular plant plant stem, stem, usually borne laterally aboveground and specialized for photosynthesis. Leaves are collectively called foliage, as in "autumn foliage", wh ...
, and stems as in most other
angiosperm Flowering plants are plants that bear flowers and fruits, and form the clade Angiospermae (), commonly called angiosperms. The term "angiosperm" is derived from the Greek words ('container, vessel') and ('seed'), and refers to those plants th ...
s. ''Utricularia'' lack a root system. Bladder traps are recognized as one of the most sophisticated structures in the plant kingdom.


Description

The main part of a bladderwort plant always lies beneath the surface of its substrate. Terrestrial species sometimes produce a few photosynthetic leaf-shoots. The aquatic species can be observed below the surfaces of ponds and streams.


Plant structure

Most species form long, thin, sometimes branching stems or ''stolons'' beneath the surface of their substrate, whether that be pond water or dripping moss in the canopy of a tropical rainforest. To these stolons are attached both the bladder traps and photosynthetic leaf-shoots, and in terrestrial species the shoots are thrust upward through the soil into the air or along the surface. The name ''bladderwort'' refers to the bladder-like traps. The aquatic members of the genus have the largest and most obvious bladders, and these were initially thought to be flotation devices before their carnivorous nature was discovered.Treat, Mary. 6 March 1875
Plants that eat animals
''The Gardeners' Chronicles'', pp. 303-304.


Etymology

The generic name ''Utricularia'' is derived from the Latin ''utriculus'', a word which has many related meanings but which most commonly means ''wine flask'', ''leather bottle'' or '' bagpipe''.


Flowers and reproduction

Flowers are the only part of the plant clear of the underlying soil or water. They are usually produced at the end of thin, often vertical inflorescences. They can range in size from wide, and have two asymmetric labiate (unequal, lip-like) petals, the lower usually significantly larger than the upper. They can be of any colour, or of many colours, and are similar in structure to the flowers of a related carnivorous genus, '' Pinguicula''. The flowers of aquatic varieties like ''U. vulgaris'' are often described as similar to small yellow snapdragons, and the Australian species '' U. dichotoma'' can produce the effect of a field full of
violets Violet identifies various plant taxa, particularly species in the genus ''Viola'', within which the common violet is the best known member in Eurasia and the common blue violet and common purple violet are the best known members in North America ...
on nodding stems. The epiphytic species of South America, however, are generally considered to have the showiest, as well as the largest, flowers. It is these species that are frequently compared with orchids. Certain plants in particular seasons might produce closed, self-pollinating (''cleistogamous'') flowers; but the same plant or species might produce open, insect-pollinated flowers elsewhere or at a different time of year, and with no obvious pattern. Sometimes, individual plants have both types of flower at the same time: aquatic species such as '' U. dimorphantha'' and ''U. geminiscapa'', for example, usually have open flowers riding clear of the water and one or more closed, self-pollinating flowers beneath the water. Seeds are numerous and small and for the majority of species are long.


Distribution and habitat

''Utricularia'' can survive almost anywhere where there is fresh water for at least part of the year; only Antarctica and some oceanic islands have no native species. The greatest species diversity for the genus is seen in South America, with Australia coming a close second. In common with most carnivorous plants, they grow in moist soils which are poor in dissolved minerals, where their carnivorous nature gives them a competitive advantage; terrestrial varieties of ''Utricularia'' can frequently be found alongside representatives of the carnivorous genera–'' Sarracenia'', '' Drosera'' and others–in very wet areas where continuously moving water removes most soluble minerals from the soil. ''Utricularia'' has a variety of life forms, including terrestrial, lithophytic, aquatic, epiphytic, and rheophytic forms which are all highly adapted for their environments.Silva S.R., Gibson R., Adamec L., Domínguez Y., Miranda V.F.O.. (2018) Molecular phylogeny of bladderworts: A wide approach of Utricularia (Lentibulariaceae) species relationships based on six plastidial and nuclear DNA sequences, Molecular Phylogenetics and Evolution, Volume 118, Pages 244-264, ISSN 1055-7903. About 80% of the species are terrestrial, and most inhabit waterlogged or wet soils, where their tiny bladders can be permanently exposed to water in the substrate. Frequently they will be found in marshy areas where the water table is very close to the surface. Most of the terrestrial species are tropical, although they occur worldwide. Approximately 20% of the species are aquatic. Most of these drift freely over the surface of ponds and other still, muddy-bottomed waters and only protrude above the surface when flowering, although a few species are
lithophytic Lithophytes are plants that grow in or on rocks. They can be classified as either epilithic (or epipetric) or endolithic; epilithic lithophytes grow on the surfaces of rocks, while endolithic lithophytes grow in the crevices of rocks (and are als ...
and adapted to rapidly moving streams or even waterfalls.Slack, Adrian. 2000. ''Carnivorous Plants'', revised edition. MIT Press: Cambridge, Massachusetts. The plants are usually found in acidic waters, but they are quite capable of growing in alkaline waters and would very likely do so were it not for the higher level of competition from other plants in such areas. Aquatic ''Utricularia'' are often split into two categories: suspended and affixed aquatic. Suspended aquatics are species which are not rooted into the ground and are free-floating, often found in nutrient poor sites. Conversely, fixed aquatics are species which have at least some of their shoots rooted into the ground. These plants often have dimorphic shoots, some which are leafy, green, and often bladderless which float in the water, and others which are white and coated with bladders that affix the plant to the ground. ''Utricularia vulgaris'' is an aquatic species and grows into branching rafts with individual stolons up to one metre or longer in ponds and ditches throughout Eurasia. Some South American tropical species are
epiphyte An epiphyte is an organism that grows on the surface of a plant and derives its moisture and nutrients from the air, rain, water (in marine environments) or from debris accumulating around it. The plants on which epiphytes grow are called phoroph ...
s, and can be found growing in wet moss and spongy bark on trees in rainforests, or even in the watery leaf-rosettes of other epiphytes such as various '' Tillandsia'' (a type of
bromeliad The Bromeliaceae (the bromeliads) are a family of monocot flowering plants of about 80 genera and 3700 known species, native mainly to the tropical Americas, with several species found in the American subtropics and one in tropical west Africa, ...
) species. Epiphytic ''Utricularia'' are often known for their orchid-like flowers and are the most ornamentally sought after. Rosette-forming epiphytes such as '' U. nelumbifolia'' put out runners, searching for other nearby
bromeliad The Bromeliaceae (the bromeliads) are a family of monocot flowering plants of about 80 genera and 3700 known species, native mainly to the tropical Americas, with several species found in the American subtropics and one in tropical west Africa, ...
s to colonise. There are also a few lithophytic species which live on wet surfaces of cliffs and mossy rocks and rheophytic species which live in shallow rivers and streams. The plants are as highly adapted in their methods of surviving seasonally inclement conditions as they are in their structure and feeding habits. Temperate perennials can require a winter period in which they die back each year, and they will weaken in cultivation if they are not given it; tropical and warm-temperate species, on the other hand, require no dormancy. Floating bladderworts in cold temperate zones such as the UK and Siberia can produce winter buds called turions at the extremities of their stems: as the autumnal light fails and growth slows down, the main plant may rot away or be killed by freezing conditions, but the turions will separate and sink to the bottom of the pond to rest beneath the coming ice until the spring, when they will return to the surface and resume growth. Many Australian species will grow only during the wet season, reducing themselves to tubers only long to wait out the dry season. Other species are annual, returning from seed each year.


Dispersal and life form evolution

The ancestral line of Utricularia is thought to have been terrestrial. From terrestrial forms, epiphytic forms evolved independently three timesJobson, R. W., Playford, J., Cameron, K. M., & Albert, V. A. (2003). Molecular Phylogenetics of Lentibulariaceae Inferred from Plastid rps16 Intron and trnL-F DNA Sequences: Implications for Character Evolution and Biogeography. Systematic Botany, 28 (1), 157–171. and aquatic life forms arose four times in genus ''Utricularia''. Biogeographic patterns associated with the boreotropic hypothesis lists the origin of Lentibulariaceae to temperate Eurasia or tropical America. Based on fossilised pollen and insular separation, the last common ancestor of ''Genlisea-Utricularia'' clade was found to be a South American lineage that arose 39 mya. ''Utricularia'' probably diverged from its sister genus 30 mya and subsequently dispersed to Australia, represented by ''subgenus Polypompholyx'', and to Africa. There were most likely other transcontinental dispersals, one of which is represented by ''sect. Nelipus''. The colonization of ''Utricularia'' to North America probably occurred 12mya from South America. The dispersal of ''Utricularia'' to Eurasia probably occurred through the Bering Strait via long-distance dispersal 4.7 mya.


Carnivory


Physical description of the trap

Authorities on the genus, such as botanists Peter Taylor and
Francis Ernest Lloyd Francis Ernest Lloyd (October 4, 1868 – October 10, 1947) was an American botanist. Life Lloyd was born in Manchester, England, and educated at Princeton University (A.B., 1891; A.M., 1895), in New Jersey, and in Europe at Munich and Bonn, ...
, agree that the vacuum-driven bladders of ''Utricularia'' are the most sophisticated carnivorous trapping mechanism to be found anywhere in the plant kingdom.Darwin, Charles. 1875.
Insectivorous Plants
'. New York.
Cheers, G. 1983. ''Carnivorous Plants''. Melbourne. The bladders are usually shaped similarly to broad beans (though they come in various shapes) and attach to the submerged
stolons In biology, stolons (from Latin '' stolō'', genitive ''stolōnis'' – "branch"), also known as runners, are horizontal connections between organisms. They may be part of the organism, or of its skeleton; typically, animal stolons are external s ...
by slender stalks. The bladder walls are very thin and transparent, but are sufficiently inflexible to maintain the bladder's shape despite the vacuum created within. The entrance, or 'mouth', of the trap is a circular or oval flap whose upper half is joined to the body of the trap by very flexible, yielding cells which form an effective hinge. The door rests on a platform formed by the thickening of the bladder wall immediately underneath. A soft but substantial membrane called the ''velum'' stretches in a curve around the middle of this platform, and helps seal the door. A second band of springy cells crosses the door just above its lower edge, and provides the flexibility for the bottom of the door to become a bendable 'lip' which can make a perfect seal with the velum. The outer cells of the whole trap excrete mucilage and under the door this is produced in greater quantities and contains sugars. The mucilage certainly contributes towards the seal, and the sugars may help to attract prey. Terrestrial species, like '' U. sandersonii'' have tiny traps (sometimes as small as 0.2 mm; 1/100") with a broad beak-like structure extending and curving down over the entrance; this forms a passageway to the trapdoor and may help prevent the trapping and ingestion of inorganic particles. Aquatic species, like '' U. inflata'' tend to have larger bladders—up to —and the mouth of the trap is usually surrounded not by a beak but by branching antennae, which serve both to guide prey animals to the trap's entrance and to fend the trap mouth away from larger bodies which might trigger the mechanism needlessly. Epiphytic species have unbranched antennae which curve in front of the mouth and probably serve the same purpose, although it has been observed that they are also capable of holding a pocket of water in front of the mouth by capillary action, and that this assists with the trapping action.


Trapping mechanism

The trapping mechanism of ''Utricularia'' is purely mechanical; no reaction from the plant (irritability) is required in the presence of prey, in contrast with the triggered mechanisms employed by Venus flytraps ('' Dionaea''), waterwheels (''
Aldrovanda ''Aldrovanda'' is a genus of carnivorous plants encompassing one extant species (''Aldrovanda vesiculosa'', the waterwheel plant) and numerous extinct taxa. The genus is named in honor of the Italian naturalist Ulisse Aldrovandi, the founder of ...
''), and many sundews ('' Drosera''). The only active mechanism involved is the constant pumping out of water through the bladder walls by active transport. As water is pumped out, the bladder's walls are sucked inwards by the negative pressure created, and any dissolved material inside the bladder becomes more concentrated. The sides of the bladder bend inwards, storing potential energy like a spring. Eventually, no more water can be extracted, and the bladder trap is 'fully set' (technically,
osmotic pressure Osmotic pressure is the minimum pressure which needs to be applied to a solution to prevent the inward flow of its pure solvent across a semipermeable membrane. It is also defined as the measure of the tendency of a solution to take in a pure ...
rather than physical pressure is the limiting factor). Extending outwards from the bottom of the trapdoor are several long bristle-stiff protuberances that are sometimes referred to as ''trigger hairs'' or ''antennae'' but which have no similarity to the sensitive triggers found in ''Dionaea'' and ''Aldrovanda''. In fact, these bristles are simply levers. The suction force exerted by the primed bladder on the door is resisted by the adhesion of its flexible bottom against the soft-sealing velum. The equilibrium depends quite literally on a hair trigger, and the slightest touch to one of the lever hairs will deform the flexible door lip enough to create a tiny gap, breaking the seal. Once the seal is disturbed, the bladder walls instantly spring back to a more rounded shape; the door flies open and a column of water is sucked into the bladder. The animal which touched the lever, if small enough, is inevitably drawn in, and as soon as the trap is filled, the door resumes its closed position—the whole operation being completed in as little as one-hundredth of a second. Once inside, the prey is dissolved by digestive secretions. This generally occurs within a few hours, although some protozoa appear to be highly resistant and have been observed to live for several days inside the trap. All the time, the trap walls continue to pump out water, and the bladder can be ready for its next capture in as little as 15 to 30 minutes.


Microbial relationships

The bladders of ''Utricularia'' often culture a mutualistic community of microbes, which may be a very important factor in digestion of prey within Utricularia. Bacteria consume dissolved organic material which is not able to be directly ingested by larger organisms. When bacteria absorb dissolved organic material, they also release nutrients, which facilitates photo-autotrophic growth. As ''Utricularia''’s trap is sealed and contains all the needed components of a microbial food web, one can assume that much enzyme activity and available nutrients in ''Utricularia''’s trap fluid are derived from these microbial communities.Sirova D., Borovec, Jakub B.,Rejmankova E., Adamec L., Vrba J. (2009) Microbial community development in the traps of aquatic Utricularia species, Aquatic Botany, Volume 90, Issue 2, Pages 129-136, ISSN 0304-3770.  Additionally, ''Utricularia'' traps often collect a diversity of microplankton and detritus. When this periphyton is dissolved into basic nutrients within the bladder environment, bacterial enzymes help aid in digestion. Therefore, carbon secretion and periphyton utilization in the utricles enable ''Utricularia'' to live with relatively little competition. Mutualism could have been an important association in aquatic ''Utricularia'' trap evolution as these microbes may have allowed these plants to acquire the needed nutrients when they lost their roots, as they may have had issues acquiring phosphorus. Phosphorus was found to be the most important factor in ''Utricularia'' nutrition, which helps explain why ''Utricularia'' bladders are found with a wide diversity of bacteria to aid in phosphorus digestion.


Enhanced respiration

''Utricularia'' have significantly greater respiration rates than most vegetative tissue, primarily due to their complex energy-dependent traps. Upon triggering, prey is captured through a two-step
ATP ATP may refer to: Companies and organizations * Association of Tennis Professionals, men's professional tennis governing body * American Technical Publishers, employee-owned publishing company * ', a Danish pension * Armenia Tree Project, non ...
-driven ion-pumping process where organisms are sucked in by internal negative pressure achieved by pumping water out of the trap and into the external environment. Recent research suggests that COX subunit I (COX1), a rate limiting enzyme in the cellular respiration pathway associated with the synthesis of ATP, has evolved under positive
Darwinian selection Natural selection is the differential survival and reproduction of individuals due to differences in phenotype. It is a key mechanism of evolution, the change in the Heredity, heritable Phenotypic trait, traits characteristic of a populati ...
in the ''Utricularia''–''Genlisea'' clade. There appear to be adaptive substitutions of two contiguous
cysteine Cysteine (symbol Cys or C; ) is a semiessential proteinogenic amino acid with the formula . The thiol side chain in cysteine often participates in enzymatic reactions as a nucleophile. When present as a deprotonated catalytic residue, sometime ...
s (
C-C motif Chemokines (), or chemotactic cytokines, are a family of small cytokines or signaling proteins secreted by cells that induce directional movement of leukocytes, as well as other cell types, including endothelial and epithelial cells. In additio ...
) at the docking point of COX1 helix 3 and
cytochrome c The cytochrome complex, or cyt ''c'', is a small hemeprotein found loosely associated with the inner membrane of the mitochondrion. It belongs to the cytochrome c family of proteins and plays a major role in cell apoptosis. Cytochrome c is hig ...
. This C-C motif, absent in ~99.9% of databased
Eukaryota Eukaryotes () are organisms whose Cell (biology), cells have a cell nucleus, nucleus. All animals, plants, fungi, and many unicellular organisms, are Eukaryotes. They belong to the group of organisms Eukaryota or Eukarya, which is one of the ...
,
Archaea Archaea ( ; singular archaeon ) is a domain of single-celled organisms. These microorganisms lack cell nuclei and are therefore prokaryotes. Archaea were initially classified as bacteria, receiving the name archaebacteria (in the Archaebac ...
, and Bacteria, suggests a conformational change that might decouple electron transport from proton pumping. By doing so, the intermembrane space could sequester protons are store them until the ATP is needed.Albert VA, Jobson RW, Michael TP, Taylor DJ. (2010) The carnivorous bladderwort (Utricularia, Lentibulariaceae): a system inflates, Journal of Experimental Botany, Volume 61, Issue 1, Pages 5–9. Such decoupling would allow ''Utricularia'' to optimize power output (energy × rate) during times of need, albeit with a 20% cost in energy efficiency.Laakkonen, L., Jobson, R. W., & Albert, V. A. (2006). A new model for the evolution of carnivory in the bladderwort plant (utricularia): adaptive changes in cytochrome C oxidase (COX) provide respiratory power. ''Plant biology (Stuttgart, Germany)'', ''8''(6), 758–764. According to the ROS mutation hypothesis, the sequestration of these protons has cellular consequences, which could lead to nucleotide substitutions. Oxidative phosphorylation is an imperfect process, which allows electrons to leak into the lumen, and only partially reduce oxygen. This partially reduced oxygen is a reactive oxygen species (ROS) which can be very harmful, unlike its fully reduced counterpart, the water molecule. When there is greater potential change between the lumen and intermembrane space, the leakiness of the electron transport chain also increases, therefore creating a higher production of ROS in the mitochondria of ''Utricularia''. ROS is harmful to cells, as it produces damage to nucleotides and helical DNA. Therefore, the increased cellular respiration of ''Utricularia'' bladders combined with the unique sequestration of protons could lead to its high nucleotide substitution rates, and therefore its wide diversity. This structural evolution seems highly unlikely to have arisen by chance alone; therefore, many researchers suggest this key adaption in ''Utricularia'' allowed for radical morphological evolution of relatively simple trap structures to highly complex and efficient snares. This adaptation may have enhanced the genus' fitness by increasing its range of prey, rate of capture, and retention of nutrients during prey decomposition.


Lloyd's experiments

In the 1940s,
Francis Ernest Lloyd Francis Ernest Lloyd (October 4, 1868 – October 10, 1947) was an American botanist. Life Lloyd was born in Manchester, England, and educated at Princeton University (A.B., 1891; A.M., 1895), in New Jersey, and in Europe at Munich and Bonn, ...
conducted extensive experiments with carnivorous plants, including ''Utricularia'', and settled many points which had previously been the subject of conjecture. He proved that the mechanism of the trap was purely mechanical by both killing the trigger hairs with iodine and subsequently showing that the response was unaffected, and by demonstrating that the trap could be made ready to spring a second (or third) time immediately after being set off if the bladder's excretion of water were helped by a gentle squeeze; in other words, the delay of at least fifteen minutes between trap springings is due solely to the time needed to excrete water, and the triggers need no time to recover irritability (unlike the reactive trigger hairs of Venus Flytraps, for example). He tested the role of the velum by showing that the trap will never set if small cuts are made to it; and showed that the excretion of water can be continued under all conditions likely to be found in the natural environment, but can be prevented by driving the osmotic pressure in the trap beyond normal limits by the introduction of glycerine.


Ingestion of larger prey

Lloyd devoted several studies to the possibility, often recounted but never previously accounted for under scientific conditions, that ''Utricularia'' can consume larger prey such as young tadpoles and mosquito larvae by catching them by the tail, and ingesting them bit by bit. Prior to Lloyd, several authors had reported this phenomenon and had attempted to explain it by positing that creatures caught by the tail repeatedly set off the trap as they thrash about in an attempt to escape—even as their tails are actively digested by the plant. Lloyd, however, demonstrated that the plant is quite capable of ingestion by stages without the need of multiple stimuli. He produced suitable artificial "prey" for his experiments by stirring
albumen Egg white is the clear liquid (also called the albumen or the glair/glaire) contained within an egg. In chickens it is formed from the layers of secretions of the anterior section of the hen's oviduct during the passage of the egg. It forms arou ...
(egg white) into hot water and selecting shreds of an appropriate length and thickness. When caught by one end, the strand would gradually be drawn in, sometimes in sudden jumps, and at other times by a slow and continuous motion. Strands of
albumen Egg white is the clear liquid (also called the albumen or the glair/glaire) contained within an egg. In chickens it is formed from the layers of secretions of the anterior section of the hen's oviduct during the passage of the egg. It forms arou ...
would often be fully ingested in as little as twenty minutes. Mosquito larvae, caught by the tail, would be engulfed bit by bit. A typical example given by Lloyd showed that a larva of a size at the upper limit of what the trap could manage would be ingested stage by stage over the course of about twenty-four hours; but that the head, being rigid, would often prove too large for the mouth of the trap and would remain outside, plugging the door. When this happened, the trap evidently formed an effective seal with the head of the larva as it could still excrete water and become flattened, but it would nevertheless die within about ten days "evidently due to overfeeding". Softer-bodied prey of the same size such as small tadpoles could be ingested completely, because they have no rigid parts and the head, although capable of plugging the door for a time, will soften and yield and finally be drawn in. Very thin strands of albumen could be soft and fine enough to allow the trapdoor to close completely; these would not be drawn in any further unless the trigger hairs were indeed stimulated again. On the other hand, a human hair, finer still but relatively hard and unyielding, could prevent a seal being formed; these would prevent the trap from resetting at all due to leakage of water. Lloyd concluded that the sucking action produced by the excretion of water from the bladder was sufficient to draw larger soft-bodied prey into the trap without the need for a second or further touch to the trigger levers. An animal long enough not to be fully engulfed upon first springing the trap, but thin and soft enough to allow the door to return fully to its set position, would indeed be left partly outside the trap until it or another body triggered the mechanism once again. However, the capture of hard bodies not fully drawn into the trap would prevent its further operation.


Genetics

Chris Whitewoods has developed a computational model of possible genetic regulation in ''Utricularia gibba'' to show how genes may control the formation of the upper and lower surfaces of flat leaves and how cup-shaped traps may have evolved from flat leaves. Changes in the gene expression of ''Utricularia'' can explain these structural changes. ''U. gibba'' leaves appear similar early in development but may develop into either a spherical trap or a cylindrical leaflet at later stages. Directional expansion of the leaf is suggested to be a crucial driver of the trap's morphogenesis. The upper and lower faces of the leaf are differentially associated with genetic markers. The marker UgPHV1 is associated with the upper leaf face. Trap primordia become spherical in shape, due to growth in both the longitudinal and transverse directions, when UgPHV1 / PHAVOLUTA (PHV) is restricted. Expression of UgPHV1 inhibits trap development and leads to the formation of leaflets. The same model can be used to describe shape development of other leaf shapes, including the pitcher-shaped '' Sarracenia'' trap, in terms of the spatial regulation of gene expression. Increased respiration rates caused by mutated COXI may have caused two additional traits in the ''Utricularia–Genlisea'' clade: i) greatly increased rates of
nucleotide substitution A point mutation is a genetic mutation where a single nucleotide base is changed, inserted or deleted from a DNA or RNA sequence of an organism's genome. Point mutations have a variety of effects on the downstream protein product—consequences ...
and ii) a dynamic decrease of genome size, including ''Utricularia'' species with some of the smallest
haploid Ploidy () is the number of complete sets of chromosomes in a cell, and hence the number of possible alleles for autosomal and pseudoautosomal genes. Sets of chromosomes refer to the number of maternal and paternal chromosome copies, respectively ...
angiosperm Flowering plants are plants that bear flowers and fruits, and form the clade Angiospermae (), commonly called angiosperms. The term "angiosperm" is derived from the Greek words ('container, vessel') and ('seed'), and refers to those plants th ...
genomes known. A recent study conducted three
cDNA In genetics, complementary DNA (cDNA) is DNA synthesized from a single-stranded RNA (e.g., messenger RNA (mRNA) or microRNA (miRNA)) template in a reaction catalyzed by the enzyme reverse transcriptase. cDNA is often used to express a speci ...
libraries from different organs of '' U. gibba'' (~80Mb) as part of a large scale ''Utricularia'' nuclear genome sequencing project. They recorded increased nucleotide substitution rates in chloroplast, mitochondrial, and cellular genomes. They also recorded increased levels of DNA repair-associated proteins and reactive oxygen species (ROS)-detox. ROS is a product of cellular metabolism that can potentially cause cellular damage when accumulated in high amounts. They determined the expression of DNA repair and ROS detox was ubiquitous rather than trap-specific. Due to this ubiquitous expression, relative ROS detoxification is expected to be lower in trap structures due to the high respiratory rate caused by trap activations, eventually leading to higher toxic effects and mutagenesis. Mutagenic action of enhanced ROS production may explain both high rates of nucleotide substitution and the dynamic evolution of genome size (via double strand breaks). The dramatic shift in genome size and high mutation rates may have allowed for the variations observed in ''Utricularia'' bladder size, root structure, and relaxed body formation. Overall, the introduction of mutated COXI and high mutation rates provide a strong evolutionary hypothesis for the variability found in ''Utricularia'' species.


Species

''Utricularia'' is the largest genus of carnivorous plants. It is one of the three genera that make up the Bladderwort family ( Lentibulariaceae), along with the butterworts ''(Pinguicula)'' and corkscrew plants ''(Genlisea)''. This genus was considered to have 250 species until Peter Taylor reduced the number to 214 in his exhaustive study '' The genus Utricularia – a taxonomic monograph'', published by Her Majesty's Stationery Office in 1989. Taylor's classification is now generally accepted with modifications based on phylogenetic studies (see below). The genus ''Polypompholyx'', the pink petticoats, contained just two species of
carnivorous plant Carnivorous plants are plants that derive some or most of their nutrients from trapping and consuming animals or protozoans Protozoa (singular: protozoan or protozoon; alternative plural: protozoans) are a group of single-celled eukaryot ...
, ''Polypompholyx tenella'' and ''Polypompholyx multifida'', previously distinguished from the otherwise similar genus ''Utricularia'' by their possession of four calyx lobes rather than two. The genus has now been subsumed into ''Utricularia''. The genus ''Biovularia'' contained the species ''Biovularia olivacea'' (also known as ''B. brasiliensis'' or ''B. minima'') and ''Biovularia cymbantha''. The genus has been subsumed into ''Utricularia''.


Phylogenetics

The following cladogram shows the relationship between various subgenera and sections. It summarizes the results of two studies (Jobson et al. 2003; Müller et al. 2004), following Müller et al. 2006.K. F. Müller, T. Borsch, L. Legendre, S. Porembski, W. Barthlott: ''Recent Progress in Understanding the Evolution of Carnivorous Lentibulariaceae (Lamiales)'', in: Plant Biology, 2006; 8: 748-757 Since the sections ''Aranella'' and ''Vesiculina'' are polyphyletic, they show up multiple times in the cladogram (*). Some monotypic sections have not been included in the study, so that their place in this system is unclear. Sections that are not included below are ''
Candollea ''Stylidium'' (also known as triggerplants or trigger plants) is a genus of dicotyledonous plants that belong to the family Stylidiaceae. The genus name ''Stylidium'' is derived from the Greek ''στύλος'' or ''stylos'' (column or pillar), wh ...
'', '' Chelidon'', '' Choristothecae'', '' Kamienskia'', ''
Martinia ''Micromartinia'' is a genus of moths of the family Crambidae. It contains only one species, ''Micromartinia mnemusalis'', which is found in Costa Rica, Brazil, French Guiana and Venezuela Venezuela (; ), officially the Bolivarian Republi ...
'', '' Meionula'', '' Mirabiles'', '' Oliveria'', '' Setiscapella'', '' Sprucea'', ''
Steyermarkia ''Steyermarkia'' is a monotypic genus of flowering plants belonging to the family Rubiaceae. It only contains one known species, Steyermarkia guatemalensis Standl. It is native to south-eastern Mexico and Guatemala. The genus name of ''Steyerma ...
'', and '' Stylotheca'' in subgenus ''Utricularia''; '' Minutae'' in subgenus ''Bivalvaria''; and '' Tridentaria'' in subgenus ''Polypompholyx''.


References


External links

* *
The International Carnivorous Plant Society

Utricularia

Botanical Society of America, ''Utricularia'' - the Bladderworts

Article in Wired magazine featuring video of the plant trapping its food

Inner World of ''Utricularia'' from the John Innes Centre
{{Taxonbar, from=Q161195 Lamiales genera