Pollen
46980
223115723
2008-07-02T17:17:09Z
Giftlite
37986
/* External links */ -{{-}}
[[Image:Misc pollen.jpg|thumb|right|250px|[[Scanning electron microscope|SEM]] image of pollen grains from a variety of common plants: sunflower (''[[Helianthus annuus]]''), morning glory (''[[Ipomoea purpurea]]''), prairie hollyhock (''[[Sidalcea malviflora]]''), oriental lily
(''[[Lilium auratum]]''), evening primrose (''[[Oenothera fruticosa]]''), and castor bean (''[[Ricinus communis]]'').]]
[[Image:Cactus flower pollen.jpg|thumb|250px|Closeup image of a cactus flower and its stamens]]
[[Image:carnica bee on sedum telephium.jpg|thumb|250px|Honey bee on sedum with [[pollen basket]]]]
[[Image:Pollen Phacelia Bees.jpg|thumb|250px|Pollen from [[Phacelia]] (in purple)]]
[[Image:Bees Collecting Pollen 2004-08-14.jpg|thumb|250px|Pollen sticking to a bee. Insects involuntarily transporting pollen from flower to flower play an important role in many plants' reproductive cycles.]]
[[Image:Episyrphus balteatus - head close-up (aka).jpg|thumb|250px|Marmelade fly sitting on a grey-haired rockrose, its face and legs covered in pollen.]]
'''Pollen''' is a fine to coarse powder consisting of '''''[[Gametophyte|microgametophytes]]''''' ('''pollen grains'''), which produce the male [[gamete]]s (sperm cells) of [[spermatophyta|seed plants]]. The pollen grain with its hard coat protects the sperm cells during the process of their movement between the stamens of the flower to the pistil of the next flower.
==The structure of pollen==
Each pollen grain contains '''vegetative''' (non-reproductive) '''cells''' (only a single cell in most flowering plants but several in other seed plants) and a '''generative''' (reproductive) '''cell''' containing two nuclei: a tube nucleus (that produces the [[pollen tube]]) and a generative nucleus (that divides to form the two sperm cells). The group of cells is surrounded by a [[cellulose]] cell wall and a thick, tough outer wall made of [[sporopollenin]].
Pollen is produced in the '''microsporangium''' (contained in the [[Stamen|anther]] of an [[Flowering plant|angiosperm]] [[flower]], male [[Conifer cone|cone]] of a [[Pinophyta|coniferous]] plant, or male cone of other seed plants). Pollen grains come in a wide variety of shapes, sizes, and surface markings characteristic of the species (see [[Electron micrograph]] at top right). Most, but certainly not all, are spherical. Pollen grains of [[pine]]s, [[fir]]s, and [[spruce]]s are winged. The smallest pollen grain, that of the [[Forget-me-not]] (''Myosotis'' spp.), is around 6 [[micrometre|µm]] (0.006 [[millimeter|mm]]) in diameter. The study of pollen is called [[palynology]] and is highly useful in paleoecology, [[paleontology]], [[archeology]], and [[Forensic science|forensics]].
In angiosperms, during flower development the anther is composed of a mass of cells that appear undifferentiated, except for a partially differentiated dermis. As the flower develops, four groups of sporogenous cells form with in the anther, the fertile sporogenous cells are surrounded by layers of sterile cells that grow into the wall of the pollen sac, some of the cells grow into nutritive cells that supply nutrition for the microspores that form by meiotic division from the sporogenous cells. Four haploid microspores are produced from each diploid sporogenous cell called microsporocytes, after meiotic division. After the formation of the four microspores, which are contained by callose walls, the development of the pollen grain walls begins. The callose wall is broken down by an enzyme called callase and the freed pollen grains grow in size and develop their characteristic shape and form a resistant outer wall called the exine and an inner wall called the intine. The exine is made up of a resistant compound called sporopollenin; the intine is made up of cellulose and pectin. The exine is what is preserved in the fossil record.
Pollen grains may have furrows, the orientation of which (relative to the original tetrad of microspores) classify the pollen as '''colpate''' or '''sulcate'''. The number of furrows or pores helps classify the [[flowering plant]]s, with [[eudicots]] having three colpi ('''tricolpate'''), and other groups having one sulcus.<ref>{{cite journal | url=http://www.blackwell-synergy.com/doi/abs/10.1111/j.1469-8137.1972.tb04826.x | author=Kenneth R. Sporne | year=1972 | title=Some Observations on the Evolution of Pollen Types in Dicotyledons | journal=New Phytologist | volume= 71 | issue=1 | pages=181–185 | doi=10.1111/j.1469-8137.1972.tb04826.x}}</ref>
<ref>{{cite journal|author = Walter S. Judd and Richard G. Olmstead|year = 2004|title = A survey of tricolpate (eudicot) phylogenetic relationships|journal = American Journal of Botany| volume = 91|pages = 1627–1644|doi = 10.3732/ajb.91.10.1627}} ([http://www.amjbot.org/cgi/content/full/91/10/1627 full text])</ref>
Except in the case of some submerged aquatic plants, the mature pollen-grain has a double wall, a thin delicate wall of unaltered cellulose (the endospore or intine) and a tough outer cuticularized exospore or '''exine'''. The exine often bears spines or warts, or is variously sculptured, and the character of the markings is often of value for identifying genus, species, or even cultivar or individual. In some flowering plants, [[germination]] of the pollen grain often begins before it leaves the microsporangium, with the generative cell forming the two sperm cells.
==Pollination==
{{Main|Pollination}}
The transfer of pollen grains to the female reproductive structure ('''''[[Carpel|pistil]]''''' in angiosperms) is called '''[[pollination]]'''. This transfer can be mediated by the wind, in which case the plant is described as '''[[Anemophily|anemophilous]]''' (literally wind-loving). Anemophilous plants typically produce great quantities of very lightweight pollen grains, sometimes with air-sacs. Non-flowering seed plants (e.g. [[pine]] trees) are characteristically anemophilous. Anemophilous flowering plants generally have inconspicuous flowers. '''[[Entomophily|Entomophilous]]''' (literally insect-loving) plants produce pollen that is relatively heavy, sticky and [[protein]]-rich, for dispersal by [[insect]] [[pollinator]]s attracted to their [[flower]]s. Many insects and some [[mite]]s are specialized to feed on pollen, and are called [[palynivore]]s.
In non-flowering seed plants, pollen germinates in the [[pollen chamber]], located beneath and inside the [[micropyle]]. A [[pollen tube]] is produced, which grows into the [[nucellus]] to provide nutrients for the developing sperm cells. Sperm cells of [[Pinophyta]] and [[Gnetophyta]] are without [[flagella]], and are carried by the pollen tube, while those of [[Cycad]]ophyta and [[Ginkgophyta]] have many flagella.
When placed on the [[Carpel|stigma]] of a flowering plant, under favorable circumstances, a pollen grain puts forth a [[pollen tube]] which grows down the tissue of the style to the [[ovary (plants)|ovary]], and makes its way along the [[placenta]], guided by projections or hairs, to the micropyle of an [[ovule]]. The nucleus of the tube cell has meanwhile passed into the tube, as does also the generative nucleus which divides (if it hasn't already) to form two [[sperm]] cells. The sperm cells are carried to their destination in the tip of the pollen-tube.
==Pollen as a carrier of ecological information in plants==
A Russian theoretical biologist, Vigen Geodakyan (Geodakian), has suggested that the quantity of pollen reaching a [[Carpel|pistillate]] flower can transmit [[Ecology|ecological]] information and also regulate [[phenotypic plasticity|evolutionary plasticity]] in cross-pollinating plants. Plentiful pollen indicates optimum environmental conditions (for example a plant that is situated at the center of its natural range, in ideal growing conditions, with a large number of male plants nearby, and favorable weather conditions), whereas a small amount of pollen indicates extreme conditions (at the borders of its range, with a deficiency of male plants, and adverse weather conditions). Geodakian believes that the quantity of pollen reaching a pistillate flower defines the [[sex ratio]], dispersion and [[sexual dimorphism]] of a plant population. High pollen quantity leads to a reduction of these characteristics and stabilization of a [[population]]. Small quantity leads to their increase and destabilization of a population.<ref> Geodakyan V. A. (1977). The Amount of Pollen as a Regulator of Evolutionary Plasticity of Cross-Pollinating Plants. “Doklady Biological Sciences” '''234''' N 1-6, 193–196.</ref>
Dependence of the secondary [[sex ratio]] on the amount of fertilizing pollen was confirmed on four dioecious plant species from three families — Rumex acetosa (Polygonaceae),<ref> Соrrеns С. (1922) Geschlechtsbestimmung und Zahlenverhaltnis der Geschlechter beim Sauerampfer (Rumex acetosa). “Biol. Zbl.” '''42''', 465-480.</ref><ref> Rychlewski J., Kazlmierez Z. (1975) Sex ratio in seeds of Rumex acetosa L. as a result of sparse or abundant pollination. “Acta Biol. Cracov” Scr. Bot., '''18''', 101-114.</ref> Melandrium album (Cariophyllaceae),<ref> Correns C. (1928) Bestimmung, Vererbung und Verteilung des Geschlechter bei den hoheren Pflanzen. Handb. Vererbungswiss., '''2''', 1-138.</ref><ref> Mulcahy D. L. (1967) Optimal sex ratio in Silene alba. “Heredity” '''22''' № 3, 41.</ref> Cannabis sativa<ref> Riede W. (1925) Beitrage zum Geschlechts- und Anpassungs-problem. “Flora” '''18/19'''</ref> and Humulus japonicus (Cannabinaceae).<ref> Kihara H., Hirayoshi J. (1932) Die Geschlechtschromosomen von Humulus japonicus. Sieb. et. Zuce. In: 8th Congr. Jap. Ass. Adv. Sci., p. 363—367 (cit.: Plant Breeding Abstr., 1934, '''5''', № 3, p. 248, ref. № 768).</ref> (see summary of all these data in review article<ref> Geodakyan, V.A. & Geodakyan, S.V., (1985) Is there a negative feedback in sex determination? “Zurnal obschej biol.” '''46''' 201-216 (in Russian). ).</ref>).
Dependence of offspring phenotype variety on amount of pollen was observed by Ter-Avanesyan in 1949. All three studied species of plants (cotton plant, black-eyed pea, and wheat) showed dependence in the direction forecasted by the theory — fertilization with a small amount of pollen resulted in an increase in the diversity of the offspring. Ter-Avanesian writes that as a result of a limited pollination “instead of homogenous sorts we get populations”.<ref> Ter-Avanesyan D. V. (1949). Tr. Prikl. Bot, Genet, Selekt., '''28''' 119.</ref><ref> Ter-Avanesian D. V. (1978) Significance of pollen amount for fertilization. “Bull. Torrey Bot. Club.” '''105''' N 1, 2–8.</ref>
== Pollen in the fossil record ==
Pollen's sporopolenin outer sheath affords it some resistance to the rigours of the fossilisation process that destroy weaker objects; it is also produced in huge quantities. As such, there is an extensive fossil record of pollen grains, often disassociated from their parent plant. The discipline of [[palynology]] is devoted to the study of pollen, which can be used both for biostratigraphy and to gain information about the abundance and variety of plants alive - which can itself yield important information about paleoclimates.
Pollen is first found in the fossil record in the late [[Devonian]] period{{Verify source|date=July 2007}} and increases in abundance until the present day.
==Hay fever==
{{Unreferencedsection|date=April 2008}}
{{main|Hay fever}}
[[Allergy]] to pollen is called [[hay fever]]. Generally pollens that cause allergies are those of anemophilous plants (pollen is dispersed by air currents.) Such plants produce large quantities of lightweight pollen (because wind dispersal is random and the likelihood of one pollen grain landing on another flower is small) which can be carried for great distances and are easily inhaled, bringing it into contact with the sensitive nasal passages.
In the US, people often mistakenly blame the conspicuous [[goldenrod]] flower for allergies. Since this plant is entomophilous (its pollen is dispersed by animals), its heavy, sticky pollen does not become independently airborne. Most late summer and fall pollen allergies are probably caused by [[ragweed]], a widespread anemophilous plant.
[[Arizona]] was once regarded as a haven for people with pollen allergies, although several ragweed species grow in the [[desert]]. However, as [[suburb]]s grew and people began establishing [[irrigation|irrigated lawns and gardens]], more irritating species of ragweed gained a foothold and Arizona lost its claim of freedom from hay fever.
Anemophilous spring blooming plants such as [[oak]], [[birch]], [[hickory]], [[pecan]], and early summer [[grass]]es may also induce pollen allergies. Most cultivated plants with showy flowers are entomophilous and do not cause pollen allergies.
==Pollen in human diets==
A variety of producers have started selling pollen for human consumption, often marketed as a healthy [[food]]. Like many other foods, pollen contains water, [[amino acid]]s, [[protein]]s, [[lipid]]s, [[carbohydrate]]s, [[dietary mineral|mineral]]s, [[vitamin]]s, [[enzyme]]s and other [[micronutrient]]s. Composition depends on plant species collected by bees. Supplements of pollen have been used in a number of treatments, e.g. treatment of [[anemia]], disorders of digestive system, mental disorders like [[depression (mood)|depression]], [[asthenia]] and [[alcohol dependence]].{{Fact|date=May 2008}}
The [[FDA]] has not found any harmful effects of pollen consumption, except from the usual allergies. However, FDA does not allow pollen marketers in the United States to make health claims about their produce, as no scientific basis for these has ever been proved. Furthermore, there are possible dangers not only from allergic reactions but also from contaminants such as pesticides and from fungi and bacteria growth related to poor storage procedures. A manufacturers's claim that pollen collecting helps the bee colonies is also controversial.<ref>{{cite web | url = http://edis.ifas.ufl.edu/AA158 | title = Producing Pollen | author = Malcolm T. Sanford | publisher = University of Florida, Institute of Food and Agricultural Sciences | accessdate=2007-08-30}}. Document ENY118. Original publication date November 1, 1994. Revised February 1, 1995. Reviewed May 1, 2003.</ref>
==See also==
*[[Pollen count]]
*[[Pollen source]]
*[[Polyphenol antioxidant]]
* [[Evolution of sex]]
* [[Sex ratio]]
* [[Palynivore]]
==References==
<references/>
==External links==
[[Image:pollen.arp.750pix.jpg|thumb|250px|Clumps of yellow pollen on a flower head.]]
* [http://www.pollen.com Daily Pollen Count]
* [http://www.geo.arizona.edu/palynology/polident.html Pollen and Spore Identification Literature]
* [http://www.flmnh.ufl.edu/natsci/paleobotany/paleobotany.htm Paleobotany and Palynology at the Florida Museum of Natural History]
* [http://www.geo.arizona.edu/palynology/ Palynology at the University of Arizona]
*[http://www.ifpindia.org/Identification-of-Pollen-Grains.html Palynology at French Institute of Pondicherry]
* [http://www.shef.ac.uk/uni/academic/N-Q/palysc/palyshef.html Palynology at the University of Sheffield]
* [http://www.albertlleal.com/Nature%20photography%20reports.html SEM coloured and confocal microscope images of pollen]
{{1911}}
* [http://www.bio.uu.nl/~palaeo/Engels/engels.html Palynology in Utrecht, the Netherlands]
*[http://www.gmo-safety.eu/en/maize/outcrossing/147.docu.html The flight of the pollen cloud] Outcrossing from transgenic maize and quantifying outcrossing rates
*[http://www.geodakian.com/en/34a_Mechanisms_en.htm The Evolutionary Theory of Sex: Mechanisms of Regulation of the Population Parameters]
*[http://www.paldat.org PalDat (database comprising palynological data from a variety of plant families)]
{{Botany}}
[[Category:Plant anatomy]]
[[Category:Plant morphology]]
[[Category:Palynology| ]]
[[Category:Pollination]]
[[ar:حبوب اللقاح]]
[[bs:Polen]]
[[ca:Pol·len]]
[[cs:Pyl]]
[[da:Pollen]]
[[de:Pollen]]
[[es:Polen]]
[[eo:Poleno]]
[[fr:Pollen]]
[[gl:Pole]]
[[id:Serbuk sari]]
[[ia:Polline]]
[[is:Frjóduft]]
[[it:Polline]]
[[he:אבקה (בוטניקה)]]
[[la:Pollen]]
[[lv:Putekšņi]]
[[lt:Žiedadulkė]]
[[hu:Virágpor]]
[[nl:Stuifmeel]]
[[ja:花粉]]
[[no:Pollen]]
[[pl:Pyłek]]
[[pt:Pólen]]
[[ru:Пыльца]]
[[sl:Pelod]]
[[fi:Siitepöly]]
[[sv:Pollen]]
[[tr:Polen]]
[[uk:Пилок]]
[[zh:花粉]]