Vavilovian mimicry 4390795 206769793 2008-04-19T22:00:55Z Alan Liefting 36352 cat sort [[Image:Nikolai Vavilov NYWTS.jpg|right|thumb|Nikolai Ivanovich Vavilov.]] '''Vavilovian mimicry''' (also '''crop mimicry''' or '''weed mimicry'''<ref>{{cite web|url=http://www.semioticon.com/seo/M/mimicry.html|title=Semiotics Encyclopedia Online - Mimicry (Long entry)|access date=2007-10-19}}</ref><ref>In this case the weed is the mimic, not the model as in [[ant mimicry]].</ref>) is a form of [[mimicry]] in [[plant]]s where a [[weed]] comes to share one or more characteristics with a [[Crop (agriculture)|domesticated plant]] through generations of [[artificial selection]].<ref name=Pasteur>Pasteur, Georges (1982). “A classificatory review of mimicry systems”. ''[[Annual Review of Ecology and Systematics]]'' '''13''': 169–199.</ref> It is named after [[Nikolai Vavilov]], a prominent Russian [[botany|plant]] [[geneticist]] who identified the [[Vavilov Center|centres of origin]] of cultivated plants.<ref>Vavilov, N. I. (1951) The origin, variation, immunity and breeding of cultivated plants. (Translation by K. S. Chester) ''Chronica Botanica'' 13:1-366.</ref> Selection against the weed may occur by killing a young or adult weed, separating its seeds from those of the crop ([[winnowing]]), or both. This has been done manually since [[Neolithic]] times, and in more recent years by [[agricultural machinery]]. Vavilovian mimicry is a good illustration of unintentional [[selection]] by humans. Although the human selective agents might be conscious of their impact on the local weed [[gene pool]], such effects go against the goals of those growing crops. Weeders do not want to select weeds that are increasingly similar to the cultivated plant, yet the only other option is to let the weeds grow and [[competition (biology)|compete]] with crops for [[sunlight]] and [[plant nutrition|nutrients]]. Similar situations include [[antibiotic resistance]] and, of similar nature to crop mimicry, [[herbicide resistance]]. This can be contrasted with other forms of artificial selection that do tend toward a favorable outcome, such as [[selective breeding]]. Having acquired many desirable qualities by being subjected to similar selective pressures, Vavilovian mimics may eventually be domesticated themselves. Vavilov called these weeds-come-crops '''secondary crops'''. ==Classification and comparisons== [[Image:Ophrys ciliata zingaro 038.jpg|right|thumb|''[[Ophrys ciliata]]'' mimics females of its insect pollinator, the males of which attempt to mate with it.]] Vavilovian mimicry can be classified as reproductive, [[aggressive mimicry|aggressive]] ([[parasitic plant|parasitic]]) and, in the case of secondary crops, mutualistic. It is a form of ''disjunct'' mimicry with the model agreeable to the dupe.<ref name=Pasteur>Pasteur, Georges (1982). “A classificatory review of mimicry systems”. ''Annual Review of Ecology and Systematics'' '''13''': 169–199.</ref> In disjunct mimicry complexes, three different species are involved as model, mimic and dupe&mdash;the weed, mimicking a protected crop model, with humans as signal receivers. Vavilovian mimicry bears considerable similarity to [[Batesian mimicry]] (where a harmless organism mimics a harmful species) in that the weed does not share the properties that give the model its protection, and both the model and the dupe (in this case people) are negatively affected by it. There are some key differences, though; in Batesian mimicry the model and signal receiver are enemies (the [[predator]] would eat the protected species if could), whereas here the crop and its human growers are in a [[mutualism|mutualistic]] relationship: the crop benefits from being dispersed and protected by people, despite being eaten by them. In fact, the crop's only 'protection' relevant here is its usefulness to humans. Secondly, the weed is not eaten, but simply killed (either directly or by not planting the seed). The only motivation for killing the weed is its effect on crop yields. Farmers would prefer to have no weeds at all, but a predator would die if it had no prey to eat, even if they might be difficult to identify. Finally, there is no known equivalent of Vavilovian mimicry in ecosystems unaltered by humans. Many other cases of [[mimicry in plants]] are also known. In one class, flowers emit signals which cause insects to [[pseudocopulation|copulate]] with them, effecting [[pollination]] in the process. They may also resemble other organisms in defense, such as [[passion flower]] leaves mimicking the eggs of butterflies, which deters them from laying. <!-- Other forms of mimicry, especially in plants and involving mutualism. Vavilovian as aggressive, reproductive, mutualistic and protective mimicry. --> Delbert Wiens has suggested secondary crops cannot be classified as mimics because they result from artificial as opposed to [[natural selection]], and because the selective agent is a [[machine]].<ref>Wiens, D. (1978) Mimicry in Plants. ''Evolutionary Biology''. '''11''':365–403.</ref> On this first point, Georges Pasteur points out that "indirect artificial selection" is involuntary and thus no different from natural selection.<ref name=Pasteur /> The signal receiver being an inanimate object certainly deviates from the normal case of a dupe [[perception|perceiving]] the signal, but the result is no different from that of manual selection that has been occurring since the [[Neolithic Revolution]]. ==Examples== [[Image:Camelina sativa eF.jpg|left|thumb|The gold-of-pleasure or false flax.]] One case of Vavilovian mimicry is the [[gold-of-pleasure]] or false flax (''Camelina sativa linicola''), which looks much like the [[flax]] plant ''Linum usitatissimum'', and occurs with it in the field.<ref name=Wickler>[[Wolfgang Wickler|Wickler, W.]] (1968) ''Mimicry in Plants and Animals'' (Translated from the German) McGraw-Hill, New York. ISBN 0070701008 Chapter 4</ref> The gold-of-pleasure is a descendant of ''Camelina gabrata'', a wild species. Weeding of the adult plant is impractical; instead they are separated based on properties of the [[seed]]. This is done by a winnowing machine, which in this case acts as an inanimate signal receiver. Seeds that are thrown the same distance as flax seeds have thus been selected for, making it near impossible to separate the seeds of these two species. Another example is [[rye]] (''Secale cereale''), a [[grass]] which is derived from wild rye (''Secale montanum''), a widely distributed Mediterranean species. Rye was originally just a weed growing with [[wheat]] and [[barley]], but came under similar selective pressures to the crops. Like wheat, it came to have larger seeds and more rigid spindles to which the seeds are attached. However, wheat is an [[annual plant]], while wild rye is a [[perennial plant|perennial]]. At the end of each growing season wheat produces seeds, while wild rye does not and is thus destroyed as the post-harvest soil is [[Tilling (agriculture)|tilled]]. However, there are occasional [[mutant]]s that do set seed. These have been protected from destruction, and rye has thus evolved to become an annual plant. [[Image:Secale cereale.jpg|right|thumb|[[Rye]] is a secondary crop, originally being a mimetic weed of [[wheat]].]] [[Image:Avena-sativa.jpg|right|thumb|Though now an important crop, oats were once just another weed.]] Rye is a more hardy plant than wheat, surviving in harsher conditions. Having become [[preadaptation|preadapted]] as a crop through wheat mimicry, rye was then positioned to become a cultivated plant in areas where soil and climatic conditions favored its production, such as mountainous terrain.<ref name=Wickler /> This fate is shared by [[oats]] (''Avena''), which also tolerate poorer conditions, and like rye, grow as a weed alongside wheat and barley. Derived from a wild species (''[[Avena fatua]]''), it has thus come to be a crop in its own right. Once again paralleling wheat, rye and other cereals, oats have developed tough spindles which prevent seeds from easily dropping off, and other characters which also help in natural [[biological dispersal|dispersal]] have become [[vestigiality|vestigial]], including the stiff hairs which allow them to be carried on the wind.<ref name=Wickler /> The flax-dodder (''Cuscuta epilinum'') is a creeper than grows around flax and linseed plants. Much like the other cases, its seeds have become larger. A mutant double-seeded variety has become prevalent, as seed size has once again been the character upon which selection has acted.<ref name=Wickler /> Selection can also occur on the vegetative stage, through hand weeding. Weeding often takes place when the crop plant is very young, and most vulnerable. ''[[Echinochloa oryzoides]]'', a species of grass which is found as a weed in [[rice]] (''Oryza sativa'') fields, looks similar to rice and its seeds are often mixed in rice and difficult to separate. This close similarity was enhanced by the weeding process which is a selective force that increases the similarity of the weed in each subsequent generation.<ref>Barrett, S. (1983) Mimicry in Plants ''[[Scientific American]]''. '''257''': 76-83.</ref> ==See also== *[[Threshing]] ==Notes and references== {{reflist}} ==Further reading== *Barrett, S. (1983) Crop Mimicry in Weeds. ''Economic Botany''. '''37''':255–282. One of the most extensive articles on the topic. *Wiens, D. (1978) Mimicry in Plants. ''Evolutionary Biology''. '''11''':365–403. Discussion of crop mimicry among many other plant cases. *Barrett, S. (1983) Mimicry in Plants ''[[Scientific American]]''. '''257''': 76-83. A significant portion discusses weeds. *Radosevich, S. R., J. S. Holt & C. Ghersa (1997) ''Weed Ecology: Implications for Management'' Wiley. 2nd ed. 608 p. ISBN 0471116068 {{Mimicry}} [[Category:Mimicry]] [[Category:Selection]] [[Category:Horticulture]]