Pollination '' The reproductive parts of an orchid flower are unique in that the
stamens and
style are joined to form a single structure, the
column. Most orchids deliver pollen in a single mass, a
pollinium (plural: pollinia), able to fertilise thousands of ovules. The pollinia are attached to a sticky disc near the top of the column. Just below the pollinia is a second, larger sticky plate, the
stigma. In horticulture,
artificial orchid pollination is achieved by removing the pollinia with a small instrument such as a toothpick from the pollen parent and transferring them to the seed parent. File:Phalaenopsis pollinia on toothpick (cropped).jpg|
Phalaenopsis pollinia (orange) attached to a toothpick with its sticky
viscidium File:Leafcutter Bee with pollinia attached. (35689624212) (cropped).jpg|Leafcutter bee (
Megachilidae) with orchid
pollinia attached File:Ophrys apifera flower2.jpg|
Ophrys apifera. A pollinium is visible.
Special cases Pollinators are often visually attracted by the shape and colours of the labellum. However, some
Bulbophyllum species attract male fruit flies (
Bactrocera and
Zeugodacus spp.) solely via a floral chemical which simultaneously acts as a floral reward (e.g.
methyl eugenol, raspberry
ketone, or
zingerone) to perform pollination. The slipper orchid
Paphiopedilum parishii reproduces by
self-fertilization. This occurs when the anther changes from a solid to a liquid state and directly contacts the stigma surface without the aid of any pollinating agent or floral assembly. In some extremely specialized orchids, such as the Eurasian genus
Ophrys, the labellum is adapted to have a colour, shape, and odour which attracts male insects via
mimicry of a receptive female. Pollination happens as a male insect attempts to mate with the flowers. Many neotropical orchids are pollinated by male
orchid bees, which visit the flowers to gather volatile chemicals they require to synthesize
pheromonal attractants. Males of species such as
Euglossa imperialis or
Eulaema meriana leave their territories periodically to forage for aromatic compounds, such as
cineole, to synthesize
pheromone for attracting females.
Catasetum saccatum, discussed by Darwin, launches its viscid pollinia with explosive force when an insect touches a
seta, knocking the pollinator off the flower. File:Orchid Bee Sleeping on Leaf.jpg|Orchid bees such as
Euglossa viridissima collect aromatic compounds on their hind legs as they pollinate neotropical orchids.
Epipogium aphyllum exhibits a dual reproductive strategy, engaging in both sexual and asexual seed production. The likelihood of
apomixis playing a substantial role in successful reproduction appears minimal. Within certain petite orchid species groups, there is a noteworthy preparation of female gametes for fertilization preceding the act of pollination. File:Little orchid D1306 keiki before cutting.jpg|A
keiki plantlet at the apex of a
Phalaenopsis orchid, ready to be cut and planted
Fruits and seeds The ovary develops into a
capsule that is
dehiscent by three or six longitudinal slits in its sides. The
seeds of orchids are almost microscopic and very numerous, in some species over a million per capsule. They have typically a thin seed coat composed of one to a few layers of cells. After ripening, they blow off like dust particles or spores. Most orchid species lack
endosperm in their seed and must enter symbiotic relationships with various
mycorrhizal basidiomyceteous
fungi that provide them the necessary nutrients to germinate, so almost all orchid species are
mycoheterotrophic during germination and reliant upon fungi to complete their lifecycles. Only a handful of orchid species have
seeds that can germinate without
mycorrhiza, namely the species within the genus
Disa with
hydrochorous seeds. File:Cranefly Orchid - Tipularia discolor fruiting bodies, Leesylvania State Park, Woodbridge, Virginia, October 20, 2021 (51834375884).jpg|Orchid fruits are capsules, here of
Tipularia discolor. File:Spathoglottis plicata (Philippine ground orchid) capsule dehisced.jpg|Orchid capsule, dehiscing with slits to release the tiny seeds, here of
Spathoglottis plicata File:Orchis canariensis seed (single).png|
Electron micrograph of an
Orchis canariensis seed, some 300 μm long File:Himantoglossum adriaticum Stereo Annalisa Giovannini DSCN5186 (cropped).jpg|
Himantoglossum adriaticum germinating seed with
rhizoids File:Disa seedling on a thumbtack (cropped).jpg|
Disa uniflora seedling on a
Sphagnum leaf, on a thumbtack point == Evolution ==