Tachigali versicolor

Last updated

Tachigali versicolor
Tachigali versicolor.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Fabales
Family: Fabaceae
Subfamily: Caesalpinioideae
Genus: Tachigali
Species:
T. versicolor
Binomial name
Tachigali versicolor

Tachigali versicolor or the suicide tree is a species of tree found from Costa Rica to western Colombia. It is monocarpic, flowering only once before dying, which gives rise to its common name of the "suicide tree". [2]

Contents

Reproduction

Tachigali versicolor reproduces only once in its lifetime once the trees are mature. Within a year of flowering the tree rapidly dies and falls over. [3] The trait was first noticed by Robin Foster in 1970, while working in Panama. [4] Carlos Fonseca reported that another species in the genus, Tachigali myrmecophila is also monocarpic. [5] The age at which they reproduce is unknown, however, and growth rates vary widely depending on the amount of light that the trees grow in. [2] Reproduction (and death) has been observed to occur in a four to six-year cycle; if flowering occurs one year then it will not occur for the next three to five years. [3] When studied on Barro Colorado Island in Panama, they were observed to flower in 1970, 1974, 1978, 1983, 1984, 1989 and 1994. [2] Despite the suicidal nature of their reproductive strategy they do not appear to divert any more nutrients into their one set of seeds than other similar trees. While apparently maladaptive, the strategy has been suggested to be effective at maintaining populations, as when the parent tree dies it creates a gap in the canopy which the seedlings require to grow. [3]

Flowering occurs between January and July, with individuals flowering for between 6 and 12 weeks. The fruits are large, wind dispersed samaras and they mostly fall within 100m of the parent tree. [2] The seeds, which weigh around half a gram [6] are predated while still on the tree by parrots and bruchid beetles ( Amblycerus tachygaliae [6] ) and once on the forest floor by rodents, peccaries and fungi. The seeds lack dormancy and germinate in late April and early May. The seedlings are tolerant of shade and can survive for many years in the understorey while waiting for a gap in the canopy to form. [2] For that reason, seedlings are more likely to survive growing under the canopy of other T. versicolor trees than under trees of a different species. For the first two months after germination, those that grow in the shade are more likely to survive because less grazing occurs in the shade. After two months those in light gaps are more likely to survive. Each tree produces around 50,000 seeds of which 30% germinate and 5% survive for more than two years. If light conditions change the seedlings are able to quickly adapt to the new conditions by growing new leaves that are especially adapted to capture the light level. Compared to other monocarpic trees that grow in similar environments, T. versicolor has relatively high seed mass, dispersal capability, photosynthetic flexibility and seedling survival in the shaded understory in the first year of growth. [6]

Ecology

Leaf cutter ants do not harvest the leaves of the suicide tree, presumably because the leaves contain anti-fungal chemicals which would kill the fungus they depend on to digest leaves. [4]

Symbionts

As a member of the family Fabaceae it has a symbiotic relationship with nitrogen fixing bacteria. The bacteria found in the trees nodules are from the genus Bradyrhizobium . [7]

Uses

Indigenous people in the Amazon basin use an extract of the tree to treat fungal skin infections [4] and it is also used as timber. [8]

Related Research Articles

<span class="mw-page-title-main">Understory</span> Layer of plant life growing above the shrub layer and below the canopy

In forestry and ecology, understory, or understorey, also known as underbrush or undergrowth, includes plant life growing beneath the forest canopy without penetrating it to any great extent, but above the forest floor. Only a small percentage of light penetrates the canopy so understory vegetation is generally shade-tolerant. The understory typically consists of trees stunted through lack of light, other small trees with low light requirements, saplings, shrubs, vines and undergrowth. Small trees such as holly and dogwood are understory specialists.

<span class="mw-page-title-main">Germination</span> Process by which an organism grows from a spore or seed

Germination is the process by which an organism grows from a seed or spore. The term is applied to the sprouting of a seedling from a seed of an angiosperm or gymnosperm, the growth of a sporeling from a spore, such as the spores of fungi, ferns, bacteria, and the growth of the pollen tube from the pollen grain of a seed plant.

<i>Enterolobium cyclocarpum</i> Species of legume

Enterolobium cyclocarpum, commonly known as conacaste, guanacaste, caro caro, devil's ear tree, monkey-ear tree, or elephant-ear tree, is a species of flowering tree in the family Fabaceae, that is native to tropical regions of the Americas, from central Mexico south to northern Brazil (Roraima) and Venezuela. It is known for its large proportions, expansive, often spherical crown, and curiously shaped seedpods. The abundance of this tree, especially in Guanacaste Province, Costa Rica, where it is prized for the shady relief it provides from the intense sun, coupled with its immensity, have made it a widely recognized species. It is the national tree of Costa Rica.

<span class="mw-page-title-main">Waratah</span> Genus of plants in the family Proteaceae from southeastern Australia

Waratah (Telopea) is an Australian-endemic genus of five species of large shrubs or small trees, native to the southeastern parts of Australia. The best-known species in this genus is Telopea speciosissima, which has bright red flowers and is the New South Wales (NSW) state emblem. The waratah is a member of the family Proteaceae, flowering plants distributed in the Southern Hemisphere. The key diagnostic feature of Proteaceae is the inflorescence, which is often very large, brightly coloured and showy, consisting of many small flowers densely packed into a compact head or spike. Species of waratah boast such inflorescences ranging from 6–15 cm in diameter with a basal ring of coloured bracts. The leaves are spirally arranged, 10–20 cm long and 2–3 cm broad with entire or serrated margins. The name waratah comes from the Eora Aboriginal people, the pre-European inhabitants of the Sydney area.

<span class="mw-page-title-main">Seedling</span> Young plant developing out from a seed

A seedling is a young sporophyte developing out of a plant embryo from a seed. Seedling development starts with germination of the seed. A typical young seedling consists of three main parts: the radicle, the hypocotyl, and the cotyledons. The two classes of flowering plants (angiosperms) are distinguished by their numbers of seed leaves: monocotyledons (monocots) have one blade-shaped cotyledon, whereas dicotyledons (dicots) possess two round cotyledons. Gymnosperms are more varied. For example, pine seedlings have up to eight cotyledons. The seedlings of some flowering plants have no cotyledons at all. These are said to be acotyledons.

Monocarpic plants are those that flower and set seeds only once, and then die.

Ecological facilitation or probiosis describes species interactions that benefit at least one of the participants and cause harm to neither. Facilitations can be categorized as mutualisms, in which both species benefit, or commensalisms, in which one species benefits and the other is unaffected. This article addresses both the mechanisms of facilitation and the increasing information available concerning the impacts of facilitation on community ecology.

<span class="mw-page-title-main">Treefall gap</span> Ecological feature

A treefall gap is a distinguishable hole in the canopy of a forest with vertical sides extending through all levels down to an average height of 2 m (6.6 ft) above ground. These holes occur as result of a fallen tree or large limb. The ecologist who developed this definition used two meters because he believed that "a regrowth height of 2 m was sufficient" for a gap to be considered closed, but not all scientists agree. For example, Runkle believed that regrowth should be 10–20 m (33–66 ft) above the ground. Alternatively, a treefall gap is "the smallest gap [that must] be readily distinguishable amid the complexity of forest structure."

<span class="mw-page-title-main">Shade tolerance</span>

In ecology, shade tolerance is a plant's ability to tolerate low light levels. The term is also used in horticulture and landscaping, although in this context its use is sometimes imprecise, especially in labeling of plants for sale in commercial nurseries.

<i>Muntingia</i> Genus of trees

Muntingia is a genus of plants in the family Muntingiaceae, comprising only one species, Muntingia calabura, and was named in honour of Abraham Munting. It is native to the Neotropics, from Mexico south to Bolivia and Argentina, with edible fruit, and has been widely introduced in other tropical areas.

<i>Socratea exorrhiza</i> Species of palm

Socratea exorrhiza, the walking palm or cashapona, is a palm native to rainforests in tropical Central and South America. It can grow to 25 metres in height, with a stem diameter of up to 16 cm, but is more typically 15–20 m tall and 12 cm in diameter. It has unusual stilt roots, the function of which has been debated. Many species of epiphyte have been found growing on the palms. The palm is pollinated by beetles, and various organisms eat its seeds or seedlings.

<span class="mw-page-title-main">Shelterwood cutting</span>

Shelterwood cutting is the progression of forest cuttings leading to the establishment of a new generation of seedlings of a particular species or group of species without planting. This silvicultural system is normally implemented in forests that are considered mature, often after several thinnings. The desired species are usually long-lived and their seedlings would naturally tend to start under partial shade. The shelterwood system gives enough light for the desired species to establish without giving enough light for the weeds that are adapted to full sun. Once the desired species is established, subsequent cuttings give the new seedlings more light and the growing space is fully passed to the new generation.

<i>Simarouba amara</i> Species of tree in the family Simaroubaceae

Simarouba amara is a species of tree in the family Simaroubaceae, found in the rainforests and savannahs of South and Central America and the Caribbean. It was first described by Aubl. in French Guiana in 1775 and is one of six species of Simarouba. The tree is evergreen, but produces a new set of leaves once a year. It requires relatively high levels of light to grow and grows rapidly in these conditions, but lives for a relatively short time. In Panama, it flowers during the dry season in February and March, whereas in Costa Rica, where there is no dry season it flowers later, between March and July. As the species is dioecious, the trees are either male or female and only produce male or female flowers. The small yellow flowers are thought to be pollinated by insects, the resulting fruits are dispersed by animals including monkeys, birds and fruit-eating bats and the seeds are also dispersed by leaf cutter ants.

<i>Platypodium elegans</i> Species of legume

Platypodium elegans, the graceful platypodium, is a large leguminous tree found in the Neotropics that forms part of the forest canopy. It was first described by Julius Rudolph Theodor Vogel in 1837 and is the type species of the genus. The tree has been known to grow up to 30 metres in height and have a trunk with a diameter up to 1 m at breast height. Its trunk has large holes in it, sometimes making it possible to see through the trunk. The holes provide a habitat for giant damselflies and other insects both when alive and once the tree has died and fallen over. It has compound leaves each of which is made up of 10–20 leaflets. Three new chemical compounds have been isolated from the leaves and they form part of the diet of several monkeys and the squirrel Sciurus ingrami. In Panama it flowers from April to June, the flowers contain only four ovules, but normally only one of these reaches maturity forming a winged seed pod around 10 cm long and weighing 2 g. During the dry season around a year after the flowers are fertilised, the seeds are dispersed by the wind and the tree loses it leaves. The seeds are eaten by agoutis and by bruchid beetle larvae. The majority of seedlings are killed by damping off fungi in the first few months of growth, with seedlings that grow nearer the parent trees being more likely to die. The seedlings are relatively unable to survive in deep shade compared to other species in the same habitat. Various epiphytes are known to grow on P. elegans with the cactus Epiphyllum phyllanthus being the most abundant in Panama. Despite having holes in its trunk which should encourage debris and seeds to collect, hemiepiphytes are relatively uncommon, meaning that animals are not attracted to it to feed and then defecate. It has no known uses in traditional medicine and although it can be used for timber, the wood is of poor quality.

Lacmellea panamensis is a species of tree in the family Apocynaceae native to Costa Rica, Panama, Nicaragua, Colombia, and Ecuador. It is a medium-sized tree, with a straight trunk, that is scattered with conical spines that are rather blunt, a distinctive feature of the species. Its leaves are around 10 centimetres (3.9 in) long, spaced evenly along branches, simple in shape, dark green and if damaged produce a white latex. Their flowers are white and around 3 centimetres (1.2 in) long thin tubes and develop into yellow berries of 3 cm in diameter.

<i>Niphidium crassifolium</i> Species of fern

Niphidium crassifolium, commonly known as the graceful fern, is a species of fern in the family Polypodiaceae found in Central and South America. It is predominantly epiphytic, growing on other plants—for example, in the canopies of trees—but occasionally grows on rocks or on the ground, particularly at higher altitude. It has a rhizome from which many fine rootlets covered in dark reddish-brown scales grow. Together they form a root basket that, when growing on trees, helps to trap leaf litter and dust, forming a nutrient-rich soil that holds water. Its leaves are simple in shape, 13–85 centimetres (5–33 in) long and 3–5 centimetres (1.2–2.0 in) wide and when dry, and covered by a wax-like film. The sori are round and large, occurring in single rows between veins at the far end of the leaf.

Monodominance is an ecological condition in which more than 60% of the tree canopy comprises a single species of tree. Monodominant forests are quite common under conditions of extra-tropical climate types. Although monodominance is studied across different regions, most research focuses on the many prominent species in tropical forests. Connel and Lowman, originally called it single-dominance. Conventional explanations of biodiversity in tropical forests in the decades prior to Connel and Lowman's work either ignored monodominance entirely or predicted that it would not exist.

<span class="mw-page-title-main">Gap dynamics</span>

Gap dynamics refers to the pattern of plant growth that occurs following the creation of a forest gap, a local area of natural disturbance that results in an opening in the canopy of a forest. Gap dynamics are a typical characteristic of both temperate and tropical forests and have a wide variety of causes and effects on forest life.

<span class="mw-page-title-main">Light gap</span> Ecological terminology

In ecology, a light gap is a break in forest canopy or similar barrier that allows young plants to grow where they would be otherwise inhibited by the lack of light reaching the seedbed. Light gaps form predominantly when a tree falls, and thus produces an opening in the forest canopy. Light gaps are important for maintaining diversity in species-rich ecosystems.

<span class="mw-page-title-main">Evolution of seed size</span>

The first seeded plants emerged in the late Devonian 370 million years ago. Selection pressures shaping seed size stem from physical and biological sources including drought, predation, seedling-seedling competition, optimal dormancy depth, and dispersal.

References

  1. "Tachigali versicolor Standl. & L. O. Williams - Encyclopedia of Life".
  2. 1 2 3 4 5 Loveless, M D; Hamrick, J L; Foster, R B (1998). "Population structure and mating system in Tachigali versicolor, a monocarpic neotropical tree". Heredity. 81 (2): 134–143. doi:10.1046/j.1365-2540.1998.00353.x. S2CID   23142468.
  3. 1 2 3 Foster, Robin B. (1977). "Tachigalia versicolor is a suicidal neotropical tree". Nature. 268 (5621): 624–626. Bibcode:1977Natur.268..624F. doi:10.1038/268624b0. S2CID   4154565.
  4. 1 2 3 William Burger and Robert Vosper (September 1999). The Rainforest's Medicinal Treasures. Vol. 70.
  5. Fonseca, C. R. (1994). "Herbivory and the Long-Lived Leaves of an Amazonian Ant-Tree" (PDF). Journal of Ecology. 82 (4): 833–842. doi:10.2307/2261447. JSTOR   2261447.
  6. 1 2 3 Kitajima, Kaoru; Carol K. Augspurger (August 1989). "Seed and Seedling Ecology of a Monocarpic Tropical Tree, Tachigalia Versicolor". Ecology. jstor. 70 (4): 1102–1114. doi:10.2307/1941379. JSTOR   1941379.
  7. Divergent Bradyrhizobium symbionts on Tachigali versicolor from Barro Colorado Island, Panama Parker MA Source: SYSTEMATIC AND APPLIED MICROBIOLOGY Volume: 23 Issue: 4 Pages: 585-590 Published: DEC 2000
  8. "Smithsonian Tropical Research Institute-Tachigali versicolor". biogeodb.stri.si.edu. Archived from the original on 2011-10-06.