Passiflora


Passiflora, known also as the passion flowers or passion vines, is a genus of about 550 species of flowering plants, the type genus of the family Passifloraceae.
They are mostly tendril-bearing vines, with some being shrubs or trees. They can be woody or herbaceous. Passion flowers produce regular and usually showy flowers with a distinctive corona. The flower is pentamerous and ripens into an indehiscent fruit with numerous seeds.

List of species

A list of Passiflora species is found at List of Passiflora species.

Distribution

Passiflora has a largely neotropic distribution, unlike its family Passifloraceae, which includes more Old World species. The vast majority of Passiflora are found in Mexico, Central and South America, although there are additional representatives in the United States, Southeast Asia, and Oceania. New species continue to be identified: for example, P. xishuangbannaensis and P. pardifolia have only been known to the scientific community since 2005 and 2006, respectively.
Some species of Passiflora have been naturalized beyond their native ranges. For example, the blue passion flower now grows wild in Spain. The purple passionfruit and its yellow relative flavicarpa have been introduced in many tropical regions as commercial crops.

Ecology

Passion flowers have unique floral structures, which in most cases require biotic pollination. Pollinators of Passiflora include bumblebees, carpenter bees, wasps, bats, and hummingbirds ; some others are additionally capable of self-pollination. Passiflora often exhibit high levels of pollinator specificity, which has led to frequent coevolution across the genus. The sword-billed hummingbird is a notable example: it, with its immensely elongated bill, is the sole pollinator of 37 species of high Andean Passiflora in the supersection Tacsonia.
The leaves are used for feeding by the larvae of a number of species of Lepidoptera. Famously, they are exclusively targeted by many butterfly species of the tribe Heliconiini. The many defensive adaptations visible on Passiflora include diverse leaf shapes, colored nubs, extrafloral nectaries, trichomes, variegation, and chemical defenses. These, combined with adaptations on the part of the butterflies, were important in the foundation of coevolutionary theory.
The following lepidoptera larvae are known to feed on Passiflora:
The generally high pollinator and parasite specificity in Passiflora may have led to the tremendous morphological variation in the genus. It is thought to have among the highest foliar diversity among all plant genera, with leaf shapes ranging from unlobed to five-lobed frequently found on the same plant. Coevolution can be a major driver of speciation, and may be responsible for the radiation of certain clades of Passiflora such as Tacsonia.
The bracts of the stinking passion flower are covered by hairs which exude a sticky fluid. Many small insects get stuck to this and get digested to nutrient-rich goo by proteases and acid phosphatases. Since the insects usually killed are rarely major pests, this passion flower seems to be a protocarnivorous plant.
Banana passion flower or "banana poka", originally from Central Brazil, is an invasive weed, especially on the islands of Hawaii. It is commonly spread by feral pigs eating the fruits. It overgrows and smothers stands of endemic vegetation, mainly on roadsides. Blue passion flower is holding its own in Spain these days, and it probably needs to be watched so that unwanted spreading can be curtailed.
On the other hand, some species are endangered due to unsustainable logging and other forms of habitat destruction. For example, the Chilean passion flower is a rare vine growing in the Andes from Venezuela to Chile between 2,500 and 3,800 meters altitude, and in Coastal Central Chile, where it occurs in woody Chilean Mediterranean forests. P. pinnatistipula has a round fruit, unusual in Tacsonia group species like banana passion flower and P. mixta, with their elongated tubes and brightly red to rose-colored petals.
Notable and sometimes economically significant pathogens of Passiflora are several sac fungi of the genus Septoria, the undescribed proteobacterium called "Pseudomonas tomato", the Potyvirus passionfruit woodiness virus, and the Carlavirus Passiflora latent virus.

Uses

Ornamental

A number of species of Passiflora are cultivated outside their natural range for both their flowers and fruit. Hundreds of hybrids have been named; hybridizing is currently being done extensively for flowers, foliage and fruit. The following hybrids and cultivars have gained the Royal Horticultural Society's Award of Garden Merit:
During the Victorian era the flower was very popular, and many hybrids were created using the winged-stem passion flower, the blue passion flower and other tropical species.
Many cool-growing Passiflora from the Andes Mountains can be grown successfully for their beautiful flowers and fruit in cooler Mediterranean climates, such as the Monterey Bay and San Francisco in California and along the western coast of the U.S. into Canada. One blue passion flower or hybrid even grew to large size at Malmö Central Station in Sweden.
Passion flowers have been a subject of studies investigating extranuclear inheritance; paternal inheritance of chloroplast DNA has been documented in this genus. The plastome of the two-flowered passion flower has been sequenced.
The French name for this plant has lent itself to La Famille Passiflore, a highly successful children's book series by Geneviève Huriet, and an animated series based upon it. These have been translated into English as Beechwood Bunny Tales and The Bellflower Bunnies.

Fruit

Most species have round or elongated edible fruit from two to eight inches long and an inch to two inches across, depending upon the species or cultivar.
A native source of beta-Carbolines is mixed with Desmanthus illinoensis root bark to produce a hallucinogenic drink called prairiehuasca, which is an analog of the shamanic brew ayahuasca.

Traditional medicine and dietary supplement

P. incarnata leaves and roots have a long history of use as a traditional medicine by Native Americans in North America and were adapted by European colonists. The fresh or dried leaves of maypop are used to make a tea that is used as a sedative. Passionflower as dried powder or an extract is used as a dietary supplement. There is insufficient clinical evidence for using passionflower to treat any medical condition.
Passionflower is classified as generally recognized as safe for use as a food ingredient in the United States.

Adverse effects

Passionflower is not recommended during pregnancy because it may induce contractions. Consuming passion flower products may cause drowsiness, nausea, dizziness, abnormal heart rhythms, asthma, or rhinitis.

Chemistry

Many species of Passiflora have been found to contain beta-carboline harmala alkaloids, some of which are MAO inhibitors. The flower and fruit have only traces of these chemicals, but the leaves and the roots often contain more. The most common of these alkaloids is harman, but harmaline, harmalol, harmine, and harmol are also present. The species known to bear such alkaloids include: P. actinea, P. alata, P. alba, P. bryonioides, P. caerulea, P. capsularis, P. decaisneana, P. edulis, P. eichleriana, P. foetida, P. incarnata, P. quadrangularis, P. suberosa, P. subpeltata and P. warmingii.
Other compounds found in passion flowers are coumarins, maltol, phytosterols and cyanogenic glycosides which render some species, i.e. P. adenopoda, somewhat poisonous. Many flavonoids and their glycosides have been found in Passiflora, including apigenin, benzoflavone, homoorientin, 7-isoorientin, isoshaftoside, isovitexin, kaempferol, lucenin, luteolin, n-orientin, passiflorine, quercetin, rutin, saponarin, shaftoside, vicenin and vitexin. Maypop, blue passion flower, and perhaps others contain the flavone chrysin. Also documented to occur at least in some Passiflora in quantity are the hydrocarbon nonacosane and the anthocyanidin pelargonidin-3-diglycoside.
The genus is rich in organic acids including formic, butyric, linoleic, linolenic, malic, myristic, oleic and palmitic acids as well as phenolic compounds, and the amino acid α-alanine. Esters like ethyl butyrate, ethyl caproate, n-hexyl butyrate and n-hexyl caproate give the fruits their flavor and appetizing smell. Sugars, contained mainly in the fruit, are most significantly d-fructose, d-glucose and raffinose. Among enzymes, Passiflora was found to be rich in catalase, pectin methylesterase and phenolase.

Etymology and names

The "Passion" in "passion flower" refers to the passion of Jesus in Christian theology. In the 15th and 16th centuries, Spanish Christian missionaries adopted the unique physical structures of this plant, particularly the numbers of its various flower parts, as symbols of the last days of Jesus and especially his crucifixion:
showing most elements of the Christian symbolism
The flower has been given names related to this symbolism throughout Europe since that time. In Spain, it is known as espina de Cristo. Older Germanic names include Christus-Krone, Christus-Strauss, Dorn-Krone, Jesus-Lijden, Marter or Muttergottes-Stern.
Outside the Roman Catholic heartland, the regularly shaped flowers have reminded people of the face of a clock. In Israel they are known as "clock-flower" and in Greece as "clock plant" ; in Japan too, they are known as tokeisō. In Hawaiian, they are called lilikoʻi; is a string used for tying fabric together, such as a shoelace, and liko means "to spring forth leaves".
In India, blue passionflowers are called Krishnakamala in Karnataka and Maharashtra, while in Uttar Pradesh and generally north it is colloquially called "Panch Pandav". The five anthers are interpreted as the five Pandavas, the divine Krishna is at the centre, and the radial filaments are opposing hundred. The colour blue is moreover associated with Krishna as the colour of his aura.
In northern Peru and Bolivia, the banana passionfruits are known as tumbos. This is one possible source of the name of the Tumbes region of Peru.
In Turkey, the shape of the flowers have reminded people of Rota Fortunae, thus it called Çarkıfelek.

Taxonomy

Passiflora is the most species rich genus of both the family Passifloraceae and the tribe Passifloreae. With over 550 species, an extensive hierarchy of infrageneric ranks is required to represent the relationships of the species. The infrageneric classification of Passiflora not only uses the widely used ranks of subgenus, section and series, but also the rank of supersection.
The New World species of Passiflora were first divided among 22 subgenera by Killip in the first monograph of the genus. More recent work has reduced these to 4, which are commonly accepted today :
Some studies have shown that the segregate Old World genera Hollrungia and Tetrapathaea are nested within Passiflora, and form a fifth subgenus. Other studies support the current 4 subgenus classification.
Relationships below the subgenus level are not known with certainty and are an active area of research. The Old World species form two clades - supersection Disemma and subgenus Tetrapathaea. The former is composed of 21 species divided into sections Disemma, Holrungiella and Octandranthus.
The remaining species of subgenus Decaloba are divided into 7 supersections. Supersection Pterosperma includes 4 species from Central America and southern Mexico. Supersection Hahniopathanthus includes 5 species from Central America, Mexico and northernmost South America. Supersection Cicea includes 19 species, with apetalous flowers. Supersection Bryonioides includes 21 species, with a distribution centered on Mexico. Supersection Auriculata includes 8 species from South America, one of which is also found in Central America. Supersection Multiflora includes 19 species. Supersection Decaloba includes 123 species.