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Mimicry in plants

January 01, 1970

In evolutionary biology, mimicry in plants is where a plant organism evolves to resemble another organism physically or chemically, increasing the mimic's Darwinian fitness. Mimicry in plants has been studied far less than mimicry in animals, with fewer documented cases and peer-reviewed studies. However, it may provide protection against herbivory, or may deceptively encourage mutualists, like pollinators, to provide a service without offering a reward in return.[2]

The climber Boquila trifoliata is thought to vary its leaf shape to resemble the plant it is climbing on, perhaps reducing its conspicuousness to herbivores.[1]

Types of plant mimicry include Bakerian, where female flowers imitate males of the same species, Müllerian mimicry of the flower or fruit, where a plant mimics a rewarding flower (Dodsonian), luring pollinators by mimicking another species of flower, or fruit where feeders of the other species are attracted to a fake fruit to distribute seeds, Vavilovian, where a weed is unintentionally artificially selected to resemble a crop plant, Pouyannian, in which a flower imitates a female mate for a pollinating insect, Batesian, where a harmless species deter predators by mimicking the characteristics of a harmful species, and leaf mimicry, where a plant resembles a nearby plant to evade the attention of herbivores.

Bakerian edit

Bakerian mimicry, named after English naturalist Herbert Baker,[3] is a form of automimicry or intraspecific mimicry that occurs within a single species. In plants, the female flowers mimic male flowers of their own species, cheating pollinators out of a reward. This reproductive mimicry may not be readily apparent as members of the same species may still exhibit some degree of sexual dimorphism, i.e. the phenotypic difference between males and females of the same species. It is common in many species of Caricaceae, a family of flowering plants in the order Brassicales, found primarily in tropical regions of Central and South America, and Africa.[4][5]

Dodsonian edit

Dodsonian mimicry, named after American botanist, orchidologist, and taxonomist, Calaway H. Dodson, is a form of reproductive floral mimicry, but the model belongs to a different species than the mimic.[6] By providing similar sensory signals as the model flower, it can lure its pollinators. Like Bakerian mimics, no nectar is provided.

Examples edit

Epidendrum ibaguense, a species of epiphytic orchid of the genus Epidendrum that occurs in Trinidad, French Guiana, Venezuela, Colombia, and northern Brazil, resembles flowers of Lantana camara and Asclepias curassavica (commonly called Mexican butterfly weed, blood-flower, scarlet milkweed, or tropical milkweed), both are species of flowering plant with the first in the verbena family, while the latter belongs to the milkweed family, and both are native to the American tropics. Epidendrum ibaguense is pollinated by monarch butterfly (Danaus plexippus) and perhaps hummingbirds.[7] Similar cases are seen in some other species of the same family. The mimetic species may still have pollinators of its own though, for example a Lamellicorn beetle, which usually pollinates correspondingly colored Cistus flowers, is also known to aid in pollination of Ophrys species that are normally pollinated by bees.[8]

Vavilovian edit

Main article: Vavilovian mimicry

Vavilovian mimicry (also known as crop mimicry or weed mimicry[n 1]), named after Russian plant geneticist who identified the centres of origin of cultivated plants, Nikolai Vavilov,[9] is a form of mimicry in plants where a weed comes to share one or more characteristics with a domesticated plant through generations of artificial selection.[10] 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.

Pouyannian edit

 
Bee orchid flower resembles a female bee closely enough to attract males in search of a mate
Main article: Pouyannian mimicry

Many plants have evolved to appear like other organisms, most commonly insects. This can have wide-ranging benefits including increasing pollination. In Pouyannian mimicry,[11] flowers mimic a potential female mate visually, but the key stimuli are often chemical and tactile.[12]

Examples edit

The hammer orchid (Drakaea spp., an endangered genus of orchid that is native to Australia) is one of the most notable examples. The orchid has both visual and olfactory mimics of a female wasp to lure males to both deposit and pick up pollen.[13][better source needed]

The orchid Epipactis helleborine is physiologically and morphologically adapted to attract social wasps as their primary pollinators. Social wasps feed their larvae on insects like caterpillars. To locate that prey, they use a combination of visual and olfactory cues. The flowers of E. helleborine and E. purpurata emit green-leaf volatiles (GLVs), which are attractive to foragers of the social wasps Vespula germanica and V. vulgaris. Several E. helleborine GLVs that induced a response in the antennae of wasps were also emitted by cabbage leaves infested with caterpillars (Pieris brassicae), which are common prey items for wasps. Despite a large nectar reward, the species is almost entirely overlooked by other pollinators.[14]

Carrion flowers mimic the scent and appearance of rotting flesh to attract necrophagous (carrion-feeding) insects like flesh flies (Sarcophagidae), blowflies (Calliphoridae), house flies (Muscidae) and some beetles (e.g., Dermestidae and Silphidae) which search for dead animals to use as brood sites. The decaying smell of the flower comes from oligosulfides, decayed proteins that contain amino acids methionine and cysteine. While carrion flowers do produce a small amount of nectar, this does not necessarily make its relationship to necrophagous insects mutualistic. Insects lay eggs on the carrion flowers, meaning they mistake them for oviposition sites. The nectar acts as a lure to bring the insects closer to the reproductive parts of the flower.[15]

Batesian edit

Main article: Batesian mimicry

In Batesian mimicry, named after the English naturalist Henry Walter Bates, a harmless species has evolved to imitate the warning signals of a harmful species directed at a predator.

Examples edit

Thorn mimicry of two types has been observed in plants. The first, a special case of intra-organismic Batesian mimicry characteristic of Aloe sp. (Liliaceae), W. filifera (Palmaceae), and dozens of species of Agave, including A. applanta, A. salmiana, and A. obscura. These plants develop thorn-like imprints or colorations on the face of their leaves due to the teeth along the margins of that leaf (or another leaf) pressing sustained indentations into the flesh of the non-spiny parts.

The second type of thorn mimicry, a more classic case of Batesian mimicry, involves the pointed, colorful organs like buds, leaves and fruit of memetic plant species that mimic aposematic colorful thorns not found anywhere else in the organism.[16]

Several plants growing in Israel, Estonia, Greece, and Japan exhibit possible spider web mimicry. Dense, white trichomes are produced on newly extended stems and leaves that deter herbivory due to predatory habit or toxicity. This may be a case of visual mimicry or perceptual exploitation. Case examples include the new buds of Onopordum from Israel, Carthamus sp. from Greece, flower heads of Arctium tomentosum from Estonia, a fledgling leaf of Tussilago farfara from Estonia, and new fronds of Osmunda japonica from Japan.[17]

Cryptic mimicry edit

In ecology, crypsis is an organism's ability to avoid detection by other organisms. Therefore, cryptic mimicry is a situation where a prey organism deceives a potential predator by providing false signals or a lack of signals. Cryptic mimicry in plants is usually achieved visually.

Examples edit

Boquila trifoliata, a South American member of the family Lardizabalaceae, is a climbing vine with a highly variable phenotype. It is capable of mimicking the leaf features of plant species that it clings to, adopting color shape and size. By camouflaging its leafy appendages, Boquila lowers its rate of herbivory.[1]

See also edit

Notes edit

  1. ^ In this case the weed is the mimic, not the model as in ant mimicry.

References edit

  1. ^ a b Gianoli, Ernesto; Carrasco-Urra, Fernando (2014-05-05). "Leaf Mimicry in a Climbing Plant Protects against Herbivory". Current Biology. 24 (9): 984–987. doi:10.1016/j.cub.2014.03.010. PMID 24768053.
  2. ^ Pannell, John R.; Farmer, Edward E. (2016-09-12). "Mimicry in plants". Current Biology. 26 (17): R784–R785. doi:10.1016/j.cub.2016.04.005. PMID 27623255.
  3. ^ Barrett, S.C.H. (2001). "The Baker and Stebbins era comes to a close". Evolution. 55 (11): 2371–2374. doi:10.1554/0014-3820(2001)055[2371:tbasec]2.0.co;2.
  4. ^ Baker 1976, pp. 161–169.
  5. ^ Bawa 1980, pp. 467–474.
  6. ^ Dodson & Frymire 1961, pp. 133–139.
  7. ^ Boyden 1980, pp. 135–136.
  8. ^ Kullenberg 1961, pp. 1–340.
  9. ^ Vavilov 1951, pp. 1–366.
  10. ^ Pasteur 1982, p. 169–199.
  11. ^ Pasteur 1982, p. 169.
  12. ^ van der Pijl & Dodson 1966, pp. 129–141.
  13. ^ Hammer Orchid and Wasps.
  14. ^ Brodmann, Jennifer; Twele, Robert; Francke, Wittko; Hölzler, Gerald; Zhang, Qing-He; Ayasse, Manfred (2008-05-20). "Orchids Mimic Green-Leaf Volatiles to Attract Prey-Hunting Wasps for Pollination". Current Biology. 18 (10): 740–744. doi:10.1016/j.cub.2008.04.040. PMID 18472423.
  15. ^ Johnson, Steven D. (2016-07-11). "Carrion flowers". Current Biology. 26 (13): R556–R558. doi:10.1016/j.cub.2015.07.047. PMID 27404246.
  16. ^ Lev-Yadun, Simcha (2003-09-21). "Weapon (thorn) automimicry and mimicry of aposematic colorful thorns in plants". Journal of Theoretical Biology. 224 (2): 183–188. doi:10.1016/S0022-5193(03)00156-5. ISSN 0022-5193. PMID 12927525.
  17. ^ Yamazaki, Kazuo; Lev-Yadun, Simcha (2015-01-07). "Dense white trichome production by plants as possible mimicry of arthropod silk or fungal hyphae that deter herbivory". Journal of Theoretical Biology. 364: 1–6. doi:10.1016/j.jtbi.2014.08.045. ISSN 0022-5193. PMID 25193285.

Sources edit

  • Baker, Herbert G. (1976). ""Mistake" pollination as a reproductive system with special reference to the Caricaceae". In Burley, J. & Styles, B. T. (eds.). Tropical Trees: Variation, Breeding, and Conservation of Tropical Trees. London; New York: Academic Press for the Linnean Society of London. pp. 161–169. OCLC 2565215.
  • Bawa, K. S. (May 1980). "Mimicry of Male by Female Flowers and Intrasexual Competition for Pollinators in Jacaratia dolichaula (D. Smith) Woodson (Caricaceae)". Evolution. 34 (3): 467–474. doi:10.2307/2408216. ISSN 0014-3820. JSTOR 2408216. PMID 28568703.
  • Boyden, Thomas C. (January 1980). "Floral Mimicry by Epidendrum ibaguense (Orchidaceae) in Panama". Evolution. 34 (1): 135–136. doi:10.2307/2408322. ISSN 0014-3820. JSTOR 2408322. PMID 28563205.
  • Dodson, Calaway H.; Frymire, G. P. (1961). "Natural Pollination of Orchids" (PDF). Missouri Botanical Garden Bulletin. 49 (9): 133–152. OCLC 604064774.
  • Kullenberg, Bertil (1961). "Studies in Ophrys Pollination". Zoologiska Bidrag Från Uppsala. 34: 1–340. OCLC 7847789.
  • Pasteur, George (1982). "A Classificatory Review of Mimicry Systems". Annual Review of Ecology and Systematics. 13: 169. doi:10.1146/annurev.es.13.110182.001125. ISSN 0066-4162.
  • van der Pijl, Leendert; Dodson, Calaway H. (1966). "Chapter 11: Mimicry and Deception". Orchid Flowers: Their Pollination and Evolution. Coral Gables: University of Miami Press. pp. 129–141. ISBN 978-0-87024-069-0. OCLC 310489511.
  • Vavilov, Nikolai I. (1951) [1949–1950]. "The Origin, Variation, Immunity, and Breeding of Cultivated Plants". Chronica Botanica (13). Translated by K. S. Chester: 1–366. OCLC 608036378.
  • Williamson, G. Bruce; Black, Edwin M. (April 1981). "Mimicry in Hummingbird-Pollinated Plants?". Ecology. 62 (2): 494–496. doi:10.2307/1936724. ISSN 0012-9658. JSTOR 1936724.
  • "Sexual Encounters of the Floral Kind - 02 Hammer Orchid and Wasps". YouTube.

January 01, 1970
mimicry, plants, evolutionary, biology, mimicry, plants, where, plant, organism, evolves, resemble, another, organism, physically, chemically, increasing, mimic, darwinian, fitness, been, studied, less, than, mimicry, animals, with, fewer, documented, cases, p. In evolutionary biology mimicry in plants is where a plant organism evolves to resemble another organism physically or chemically increasing the mimic s Darwinian fitness Mimicry in plants has been studied far less than mimicry in animals with fewer documented cases and peer reviewed studies However it may provide protection against herbivory or may deceptively encourage mutualists like pollinators to provide a service without offering a reward in return 2 The climber Boquila trifoliata is thought to vary its leaf shape to resemble the plant it is climbing on perhaps reducing its conspicuousness to herbivores 1 Types of plant mimicry include Bakerian where female flowers imitate males of the same species Mullerian mimicry of the flower or fruit where a plant mimics a rewarding flower Dodsonian luring pollinators by mimicking another species of flower or fruit where feeders of the other species are attracted to a fake fruit to distribute seeds Vavilovian where a weed is unintentionally artificially selected to resemble a crop plant Pouyannian in which a flower imitates a female mate for a pollinating insect Batesian where a harmless species deter predators by mimicking the characteristics of a harmful species and leaf mimicry where a plant resembles a nearby plant to evade the attention of herbivores Contents 1 Bakerian 2 Dodsonian 2 1 Examples 3 Vavilovian 4 Pouyannian 4 1 Examples 5 Batesian 5 1 Examples 6 Cryptic mimicry 6 1 Examples 7 See also 8 Notes 9 References 9 1 SourcesBakerian editBakerian mimicry named after English naturalist Herbert Baker 3 is a form of automimicry or intraspecific mimicry that occurs within a single species In plants the female flowers mimic male flowers of their own species cheating pollinators out of a reward This reproductive mimicry may not be readily apparent as members of the same species may still exhibit some degree of sexual dimorphism i e the phenotypic difference between males and females of the same species It is common in many species of Caricaceae a family of flowering plants in the order Brassicales found primarily in tropical regions of Central and South America and Africa 4 5 Dodsonian editDodsonian mimicry named after American botanist orchidologist and taxonomist Calaway H Dodson is a form of reproductive floral mimicry but the model belongs to a different species than the mimic 6 By providing similar sensory signals as the model flower it can lure its pollinators Like Bakerian mimics no nectar is provided Examples edit Epidendrum ibaguense a species of epiphytic orchid of the genus Epidendrum that occurs in Trinidad French Guiana Venezuela Colombia and northern Brazil resembles flowers of Lantana camara and Asclepias curassavica commonly called Mexican butterfly weed blood flower scarlet milkweed or tropical milkweed both are species of flowering plant with the first in the verbena family while the latter belongs to the milkweed family and both are native to the American tropics Epidendrum ibaguense is pollinated by monarch butterfly Danaus plexippus and perhaps hummingbirds 7 Similar cases are seen in some other species of the same family The mimetic species may still have pollinators of its own though for example a Lamellicorn beetle which usually pollinates correspondingly colored Cistus flowers is also known to aid in pollination of Ophrys species that are normally pollinated by bees 8 Vavilovian editMain article Vavilovian mimicry Vavilovian mimicry also known as crop mimicry or weed mimicry n 1 named after Russian plant geneticist who identified the centres of origin of cultivated plants Nikolai Vavilov 9 is a form of mimicry in plants where a weed comes to share one or more characteristics with a domesticated plant through generations of artificial selection 10 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 Pouyannian edit nbsp Bee orchid flower resembles a female bee closely enough to attract males in search of a mate Main article Pouyannian mimicry Many plants have evolved to appear like other organisms most commonly insects This can have wide ranging benefits including increasing pollination In Pouyannian mimicry 11 flowers mimic a potential female mate visually but the key stimuli are often chemical and tactile 12 Examples edit The hammer orchid Drakaea spp an endangered genus of orchid that is native to Australia is one of the most notable examples The orchid has both visual and olfactory mimics of a female wasp to lure males to both deposit and pick up pollen 13 better source needed The orchid Epipactis helleborine is physiologically and morphologically adapted to attract social wasps as their primary pollinators Social wasps feed their larvae on insects like caterpillars To locate that prey they use a combination of visual and olfactory cues The flowers of E helleborine and E purpurata emit green leaf volatiles GLVs which are attractive to foragers of the social wasps Vespula germanica and V vulgaris Several E helleborine GLVs that induced a response in the antennae of wasps were also emitted by cabbage leaves infested with caterpillars Pieris brassicae which are common prey items for wasps Despite a large nectar reward the species is almost entirely overlooked by other pollinators 14 Carrion flowers mimic the scent and appearance of rotting flesh to attract necrophagous carrion feeding insects like flesh flies Sarcophagidae blowflies Calliphoridae house flies Muscidae and some beetles e g Dermestidae and Silphidae which search for dead animals to use as brood sites The decaying smell of the flower comes from oligosulfides decayed proteins that contain amino acids methionine and cysteine While carrion flowers do produce a small amount of nectar this does not necessarily make its relationship to necrophagous insects mutualistic Insects lay eggs on the carrion flowers meaning they mistake them for oviposition sites The nectar acts as a lure to bring the insects closer to the reproductive parts of the flower 15 Batesian editMain article Batesian mimicryIn Batesian mimicry named after the English naturalist Henry Walter Bates a harmless species has evolved to imitate the warning signals of a harmful species directed at a predator Examples edit Thorn mimicry of two types has been observed in plants The first a special case of intra organismic Batesian mimicry characteristic of Aloe sp Liliaceae W filifera Palmaceae and dozens of species of Agave including A applanta A salmiana and A obscura These plants develop thorn like imprints or colorations on the face of their leaves due to the teeth along the margins of that leaf or another leaf pressing sustained indentations into the flesh of the non spiny parts The second type of thorn mimicry a more classic case of Batesian mimicry involves the pointed colorful organs like buds leaves and fruit of memetic plant species that mimic aposematic colorful thorns not found anywhere else in the organism 16 Several plants growing in Israel Estonia Greece and Japan exhibit possible spider web mimicry Dense white trichomes are produced on newly extended stems and leaves that deter herbivory due to predatory habit or toxicity This may be a case of visual mimicry or perceptual exploitation Case examples include the new buds of Onopordum from Israel Carthamus sp from Greece flower heads of Arctium tomentosum from Estonia a fledgling leaf of Tussilago farfara from Estonia and new fronds of Osmunda japonica from Japan 17 Cryptic mimicry editIn ecology crypsis is an organism s ability to avoid detection by other organisms Therefore cryptic mimicry is a situation where a prey organism deceives a potential predator by providing false signals or a lack of signals Cryptic mimicry in plants is usually achieved visually Examples edit Boquila trifoliata a South American member of the family Lardizabalaceae is a climbing vine with a highly variable phenotype It is capable of mimicking the leaf features of plant species that it clings to adopting color shape and size By camouflaging its leafy appendages Boquila lowers its rate of herbivory 1 See also editChemical mimicry Drakaea Lysiana exocarpi Pseudocopulation Deception in animalsNotes edit In this case the weed is the mimic not the model as in ant mimicry References edit a b Gianoli Ernesto Carrasco Urra Fernando 2014 05 05 Leaf Mimicry in a Climbing Plant Protects against Herbivory Current Biology 24 9 984 987 doi 10 1016 j cub 2014 03 010 PMID 24768053 Pannell John R Farmer Edward E 2016 09 12 Mimicry in plants Current Biology 26 17 R784 R785 doi 10 1016 j cub 2016 04 005 PMID 27623255 Barrett S C H 2001 The Baker and Stebbins era comes to a close Evolution 55 11 2371 2374 doi 10 1554 0014 3820 2001 055 2371 tbasec 2 0 co 2 Baker 1976 pp 161 169 Bawa 1980 pp 467 474 Dodson amp Frymire 1961 pp 133 139 Boyden 1980 pp 135 136 Kullenberg 1961 pp 1 340 Vavilov 1951 pp 1 366 Pasteur 1982 p 169 199 Pasteur 1982 p 169 van der Pijl amp Dodson 1966 pp 129 141 Hammer Orchid and Wasps Brodmann Jennifer Twele Robert Francke Wittko Holzler Gerald Zhang Qing He Ayasse Manfred 2008 05 20 Orchids Mimic Green Leaf Volatiles to Attract Prey Hunting Wasps for Pollination Current Biology 18 10 740 744 doi 10 1016 j cub 2008 04 040 PMID 18472423 Johnson Steven D 2016 07 11 Carrion flowers Current Biology 26 13 R556 R558 doi 10 1016 j cub 2015 07 047 PMID 27404246 Lev Yadun Simcha 2003 09 21 Weapon thorn automimicry and mimicry of aposematic colorful thorns in plants Journal of Theoretical Biology 224 2 183 188 doi 10 1016 S0022 5193 03 00156 5 ISSN 0022 5193 PMID 12927525 Yamazaki Kazuo Lev Yadun Simcha 2015 01 07 Dense white trichome production by plants as possible mimicry of arthropod silk or fungal hyphae that deter herbivory Journal of Theoretical Biology 364 1 6 doi 10 1016 j jtbi 2014 08 045 ISSN 0022 5193 PMID 25193285 Sources edit Baker Herbert G 1976 Mistake pollination as a reproductive system with special reference to the Caricaceae In Burley J amp Styles B T eds Tropical Trees Variation Breeding and Conservation of Tropical Trees London New York Academic Press for the Linnean Society of London pp 161 169 OCLC 2565215 Bawa K S May 1980 Mimicry of Male by Female Flowers and Intrasexual Competition for Pollinators in Jacaratia dolichaula D Smith Woodson Caricaceae Evolution 34 3 467 474 doi 10 2307 2408216 ISSN 0014 3820 JSTOR 2408216 PMID 28568703 Boyden Thomas C January 1980 Floral Mimicry by Epidendrum ibaguense Orchidaceae in Panama Evolution 34 1 135 136 doi 10 2307 2408322 ISSN 0014 3820 JSTOR 2408322 PMID 28563205 Dodson Calaway H Frymire G P 1961 Natural Pollination of Orchids PDF Missouri Botanical Garden Bulletin 49 9 133 152 OCLC 604064774 Kullenberg Bertil 1961 Studies in Ophrys Pollination Zoologiska Bidrag Fran Uppsala 34 1 340 OCLC 7847789 Pasteur George 1982 A Classificatory Review of Mimicry Systems Annual Review of Ecology and Systematics 13 169 doi 10 1146 annurev es 13 110182 001125 ISSN 0066 4162 van der Pijl Leendert Dodson Calaway H 1966 Chapter 11 Mimicry and Deception Orchid Flowers Their Pollination and Evolution Coral Gables University of Miami Press pp 129 141 ISBN 978 0 87024 069 0 OCLC 310489511 Vavilov Nikolai I 1951 1949 1950 The Origin Variation Immunity and Breeding of Cultivated Plants Chronica Botanica 13 Translated by K S Chester 1 366 OCLC 608036378 Williamson G Bruce Black Edwin M April 1981 Mimicry in Hummingbird Pollinated Plants Ecology 62 2 494 496 doi 10 2307 1936724 ISSN 0012 9658 JSTOR 1936724 Sexual Encounters of the Floral Kind 02 Hammer Orchid and Wasps YouTube Retrieved from https en wikipedia org w index php title Mimicry in plants amp oldid 1209606865, wikipedia, wiki, book, books, library,

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