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Entomophily

January 01, 1970

Entomophily or insect pollination is a form of pollination whereby pollen of plants, especially but not only of flowering plants, is distributed by insects. Flowers pollinated by insects typically advertise themselves with bright colours, sometimes with conspicuous patterns (honey guides) leading to rewards of pollen and nectar; they may also have an attractive scent which in some cases mimics insect pheromones. Insect pollinators such as bees have adaptations for their role, such as lapping or sucking mouthparts to take in nectar, and in some species also pollen baskets on their hind legs. This required the coevolution of insects and flowering plants in the development of pollination behaviour by the insects and pollination mechanisms by the flowers, benefiting both groups. Both the size and the density of a population are known to affect pollination and subsequent reproductive performance.[1]

Bee pollinating a flower
Soldier beetle covered with pollen

Coevolution edit

Further information: Coevolution

History edit

The early spermatophytes (seed plants) were largely dependent on the wind to carry their pollen from one plant to another. Prior to the appearance of flowering plants some gymnosperms, such as Bennettitales, developed flower-like structures that were likely insect pollinated. Insects pollination for gymnosperms likely originated in the Permian period.[2] Candidates for pollinators include extinct long proboscis insect groups, including Aneuretopsychid, Mesopsychid and Pseudopolycentropodid scorpionflies,[3] Kalligrammatid[4][5] and Paradoxosisyrine[6] lacewings and Zhangsolvid flies,[7] as well as some extant families that specialised on gymnosperms before switching to angiosperms, including Nemestrinid, Tabanid and Acrocerid flies.[8] Living cycads have mutualistic relationships with specific insect species (typically beetles) which pollinate them. Such relationships extend back to at least the late Mesozoic, with both oedemerid beetles (which today are exclusively found on flowering plants)[2] and boganiid beetles[9] (which still pollinate cycads today) from the Cretaceous being found with preserved cycad pollen. Angiosperms (flowering plants) first appeared during the Early Cretaceous, and during the angiosperm radiation from 125 to 90 Ma, would displace many of the gymnosperm lineages and cause the extinction of many of their pollinators, while some would transition to angiosperms and some new families would form pollination associations with angiosperms.[2] Traits such as sapromyophily (emitting the odour of carrion to attract flies) have evolved independently in several unrelated angiosperm families.[10]

The plant's needs edit

Wind and water pollination require the production of vast quantities of pollen because of the chancy nature of its deposition. If they are not to be reliant on the wind or water (for aquatic species), plants need pollinators to move their pollen grains from one plant to another. They particularly need pollinators to consistently choose flowers of the same species, so they have evolved different lures to encourage specific pollinators to maintain fidelity to the same species. The attractions offered are mainly nectar, pollen, fragrances and oils. The ideal pollinating insect is hairy (so that pollen adheres to it), and spends time exploring the flower so that it comes into contact with the reproductive structures.[11]

Mechanisms edit

 
Cyperus sphaerocephalus
 
Cyperus esculentus
Insect-pollinated flowers are usually more striking than wind-pollinated flowers, as they need to advertise themselves to insects. Compare the flowers of the insect-pollinated sedge Cyperus sphaerocephalus[12] and the closely related, but wind-pollinated, Cyperus esculentus.

Many insects are pollinators, particularly bees, Lepidoptera (butterflies and moths), wasps, flies, ants and beetles.[11] On the other hand, some plants are generalists, being pollinated by insects in several orders.[13] Entomophilous plant species have frequently evolved mechanisms to make themselves more appealing to insects, e.g., brightly coloured or scented flowers, nectar, or appealing shapes and patterns. Pollen grains of entomophilous plants are generally larger than the fine pollens of anemophilous (wind-pollinated) plants, which has to be produced in much larger quantities because such a high proportion is wasted. This is energetically costly, but in contrast, entomophilous plants have to bear the energetic costs of producing nectar.[14]

Butterflies and moths have hairy bodies and long proboscides which can probe deep into tubular flowers. Butterflies mostly fly by day and are particularly attracted to pink, mauve and purple flowers. The flowers are often large and scented, and the stamens are so-positioned that pollen is deposited on the insects while they feed on the nectar. Moths are mostly nocturnal and are attracted by night-blooming plants. The flowers of these are often tubular, pale in colour and fragrant only at night. Hawkmoths tend to visit larger flowers and hover as they feed; they transfer pollen by means of the proboscis. Other moths land on the usually smaller flowers, which may be aggregated into flowerheads. Their energetic needs are not so great as those of hawkmoths and they are offered smaller quantities of nectar.[15]

Inflorescences pollinated by beetles tend to be flat with open corollas or small flowers clustered in a head with multiple, projecting anthers that shed pollen readily.[11] The flowers are often green or pale-coloured, and heavily scented, often with fruity or spicy aromas, but sometimes with odours of decaying organic matter. Some, like the giant water lily, include traps designed to retain the beetles in contact with the reproductive parts for longer periods.[16]

Unspecialised flies with short proboscides are found visiting primitive flowers with readily accessible nectar. More specialised flies like syrphids and Tabanids can visit more advanced blooms, but their purpose is to nourish themselves, and any transfer of pollen from one flower to another happens haphazardly. The small size of many flies is often made up for by their abundance, however they are unreliable pollinators as they may bear incompatible pollen, and lack of suitable breeding habitats may limit their activities. Some Pterostylis orchids are pollinated by midges unique to each species. Due to mutual specialisation, pollinators are highly dependent on floral diversity. Therefore, losses in plant diversity, such as those carried on by increasing land use, may be linked to extinctions of pollinators.[17] A decline, for whatever reason, to one side of this partnership can be catastrophic for the other.[18]

Flowers pollinated by bees and wasps vary in shape, colour and size. Yellow or blue plants are often visited, and flowers may have ultra-violet nectar guides, that help the insect to find the nectary. Some flowers, like sage or pea, have lower lips that will only open when sufficiently heavy insects, such as bees, land on them. With the lip depressed, the anthers may bow down to deposit pollen on the insect's back. Other flowers, like tomato, may only liberate their pollen by buzz pollination, a technique in which a bumblebee will cling on to a flower while vibrating its flight muscles, and this dislodges the pollen. Because bees care for their brood, they need to collect more food than just to maintain themselves, and therefore are important pollinators.[18] Other bees are nectar thieves and bite their way through the corolla in order to raid the nectary, in the process bypassing the reproductive structures.[11]

Ants are not well adapted to pollination but they have been shown to perform this function in Polygonum cascadense and in certain desert plants with small blossoms near the ground with little fragrance or visual attraction, small quantities of nectar and limited quantities of sticky pollen.[18]

Plant-insect pairings edit

 
The bee orchid mimics bees in appearance and scent, implying close coevolution of a species of flower and a species of insect.

Some plant species co-evolved with a particular pollinator species, such as the bee orchid. The species is almost exclusively self-pollinating in its northern ranges, but is pollinated by the solitary bee Eucera in the Mediterranean area. The plant attracts these insects by producing a scent that mimics the scent of the female bee. In addition, the lip acts as a decoy, as the male bee confuses it with a female that is visiting a pink flower. Pollen transfer occurs during the ensuing pseudocopulation.[19]

 
Cross section of a Ficus glomerata (fig) fruit showing the syconium with pollinating fig wasps inside.

Figs in the genus Ficus have a mutualistic arrangement with certain tiny agaonid wasps. In the common fig, the inflorescence is a syconium, formed by an enlarged, fleshy, hollow receptacle with multiple ovaries on the inner surface. A female wasp enters through a narrow aperture, fertilizes these pistillate flowers, and lays its eggs in some ovaries, with galls being formed by the developing larvae. In due course, staminate flowers develop inside the syconium. Wingless male wasps hatch and mate with females in the galls before tunnelling their way out of the developing fruit. The winged females, now laden with pollen, follow, flying off to find other receptive syconia at the right stage of development. Most species of fig have their own unique commensal species of wasp.[20]

Etymology edit

The word is artificially derived from the Greek: εντομο-, entomo-[21] "cut in pieces, segmented", hence "insect"; and φίλη, phile, "loved".

Taxonomic range edit

Wind pollination is the reproductive strategy adopted by the grasses, sedges, rushes and catkin-bearing plants. Other flowering plants are mostly pollinated by insects (or birds or bats), which seems to be the primitive state, and some plants have secondarily developed wind pollination. Some plants that are wind pollinated have vestigial nectaries, and other plants like common heather that are regularly pollinated by insects, produce clouds of pollen and some wind pollination is inevitable. The hoary plantain is primarily wind pollinated, but is also visited by insects which pollinate it.[14] In general, showy, colourful, fragrant flowers like sunflowers, orchids and Buddleja are insect pollinated. The only entomophilous plants that are not seed plants are the dung-mosses of the family Splachnaceae.[22]

See also edit

References edit

  1. ^ Mustajärvi, Kaisa; Siikamäki, Pirkko; Rytkönen, Saara; Lammi, Antti (2001). "Consequences of plant population size and density for plant-pollinator interactions and plant performance: Plant-pollinator interactions". Journal of Ecology. 89 (1): 80–87. doi:10.1046/j.1365-2745.2001.00521.x.
  2. ^ a b c Peris, David; Pérez-de la Fuente, Ricardo; Peñalver, Enrique; Delclòs, Xavier; Barrón, Eduardo; Labandeira, Conrad C. (March 2017). "False Blister Beetles and the Expansion of Gymnosperm-Insect Pollination Modes before Angiosperm Dominance". Current Biology. 27 (6): 897–904. Bibcode:2017CBio...27..897P. doi:10.1016/j.cub.2017.02.009. hdl:2445/163381. ISSN 0960-9822. PMID 28262492. S2CID 3967504.
  3. ^ Zhao, Xiangdong; Wang, Bo; Bashkuev, Alexey S.; Aria, Cédric; Zhang, Qingqing; Zhang, Haichun; et al. (March 2020). "Mouthpart homologies and life habits of Mesozoic long-proboscid scorpionflies". Science Advances. 6 (10): eaay1259. Bibcode:2020SciA....6.1259Z. doi:10.1126/sciadv.aay1259. PMC 7056314. PMID 32181343.
  4. ^ Labandeira, Conrad C.; Yang, Qiang; Santiago-Blay, Jorge A.; Hotton, Carol L.; Monteiro, Antónia; Wang, Yong-Jie; Goreva, Yulia; Shih, ChungKun; Siljeström, Sandra; Rose, Tim R.; Dilcher, David L. (2016-02-10). "The evolutionary convergence of mid-Mesozoic lacewings and Cenozoic butterflies". Proceedings of the Royal Society B: Biological Sciences. 283 (1824): 20152893. doi:10.1098/rspb.2015.2893. ISSN 0962-8452. PMC 4760178. PMID 26842570.
  5. ^ Liu, Qing; Lu, Xiumei; Zhang, Qingqing; Chen, Jun; Zheng, Xiaoting; Zhang, Weiwei; Liu, Xingyue; Wang, Bo (2018-09-17). "High niche diversity in Mesozoic pollinating lacewings". Nature Communications. 9 (1): 3793. Bibcode:2018NatCo...9.3793L. doi:10.1038/s41467-018-06120-5. ISSN 2041-1723. PMC 6141599. PMID 30224679.
  6. ^ Khramov, Alexander V.; Yan, Evgeny; Kopylov, Dmitry S. (December 2019). "Nature's failed experiment: Long-proboscid Neuroptera (Sisyridae: Paradoxosisyrinae) from Upper Cretaceous amber of northern Myanmar". Cretaceous Research. 104: 104180. Bibcode:2019CrRes.10404180K. doi:10.1016/j.cretres.2019.07.010. S2CID 199111088.
  7. ^ Peñalver, Enrique; Arillo, Antonio; Pérez-de la Fuente, Ricardo; Riccio, Mark L.; Delclòs, Xavier; Barrón, Eduardo; Grimaldi, David A. (July 2015). "Long-Proboscid Flies as Pollinators of Cretaceous Gymnosperms". Current Biology. 25 (14): 1917–1923. Bibcode:2015CBio...25.1917P. doi:10.1016/j.cub.2015.05.062. PMID 26166781. S2CID 13022302.
  8. ^ Khramov, Alexander V.; Lukashevich, Elena D. (2019). "A Jurassic dipteran pollinator with an extremely long proboscis". Gondwana Research. 71: 210–215. Bibcode:2019GondR..71..210K. doi:10.1016/j.gr.2019.02.004. S2CID 134847380.
  9. ^ Cai, Chenyang; Escalona, Hermes E.; Li, Liqin; Yin, Ziwei; Huang, Diying; Engel, Michael S. (September 2018). "Beetle Pollination of Cycads in the Mesozoic". Current Biology. 28 (17): 2806–2812.e1. Bibcode:2018CBio...28E2806C. doi:10.1016/j.cub.2018.06.036. PMID 30122529. S2CID 52038878.
  10. ^ McGhee, George R. (2011). Convergent Evolution: Limited Forms Most Beautiful. MIT Press. pp. 118–120. ISBN 978-0-262-01642-1.
  11. ^ a b c d Kimsey, L. . University of California, Davis: College of Agricultural and Environmental Sciences. Archived from the original on 10 April 2016. Retrieved 25 March 2016.
  12. ^ Wragg, Peter D.; Johnson, Steven D. (September 2011), "Transition from wind pollination to insect pollination in sedges: experimental evidence and functional traits", New Phytologist, vol. 191, no. 4, pp. 1128–1140, doi:10.1111/j.1469-8137.2011.03762.x, ISSN 0028-646X, retrieved 2024-05-30
  13. ^ Köhler, Andreas; Sühs, Rafael Barbizan; Somavilla, Alexandre (2010-11-11). "Entomofauna associated to the floration of Schinus terebinthifolius Raddi (Anacardiaceae) in the Rio Grande do Sul State, Brazil = Entomofauna associada à floração de Schinus terebinthifolius Raddi (Anacardiaceae) no Estado do Rio Grande do Sul, Brasil | Somavilla |". Bioscience Journal. 26 (6). Retrieved 18 April 2014.
  14. ^ a b Faegri, K.; Van Der Pijl, L. (2013). Principles of Pollination Ecology. Elsevier. pp. 34–36. ISBN 978-1-4832-9303-5.
  15. ^ Oliveira, P.E.; Gibbs, P.E.; Barbosa, A.A. (2004). "Moth pollination of woody species in the Cerrados of Central Brazil: a case of so much owed to so few?". Plant Systematics and Evolution. 245 (1–2): 41–54. doi:10.1007/s00606-003-0120-0. S2CID 21936259.
  16. ^ Prance, Ghillean T. (1996). The Earth Under Threat: A Christian Perspective. Wild Goose Publications. p. 14. ISBN 978-0-947988-80-7.
  17. ^ Fründ, Jochen; Linsenmair, Karl Eduard; Blüthgen, Nico (2010-09-14). "Pollinator diversity and specialization in relation to flower diversity". Oikos. 119 (10): 1581–1590. Bibcode:2010Oikos.119.1581F. doi:10.1111/j.1600-0706.2010.18450.x. ISSN 0030-1299.
  18. ^ a b c Faegri, K.; Van Der Pijl, L. (2013). Principles of Pollination Ecology. Elsevier. pp. 102–110. ISBN 978-1-4832-9303-5.
  19. ^ Fenster, Charles B.; Marten-Rodriguez, Silvana (2007). "Reproductive Assurance And The Evolution Of Pollination Specialization" (PDF). International Journal of Plant Sciences. 168 (2): 215–228. doi:10.1086/509647. S2CID 1890083.
  20. ^ Faegri, K.; Van Der Pijl, L. (2013). Principles of Pollination Ecology. Elsevier. pp. 176–177. ISBN 978-1-4832-9303-5.
  21. ^ Liddell, Henry George and Robert Scott (1980). A Greek-English Lexicon (Abridged ed.). United Kingdom: Oxford University Press. ISBN 978-0-19-910207-5.
  22. ^ Goffinet, Bernard; Shaw, A. Jonathan; Cox, Cymon J. (2004). "Phylogenetic inferences in the dung-moss family Splachnaceae from analyses of cpDNA sequence data and implications for the evolution of entomophily". American Journal of Botany. 91 (5): 748–759. doi:10.3732/ajb.91.5.748. PMID 21653429.

January 01, 1970
entomophily, insect, pollination, form, pollination, whereby, pollen, plants, especially, only, flowering, plants, distributed, insects, flowers, pollinated, insects, typically, advertise, themselves, with, bright, colours, sometimes, with, conspicuous, patter. Entomophily or insect pollination is a form of pollination whereby pollen of plants especially but not only of flowering plants is distributed by insects Flowers pollinated by insects typically advertise themselves with bright colours sometimes with conspicuous patterns honey guides leading to rewards of pollen and nectar they may also have an attractive scent which in some cases mimics insect pheromones Insect pollinators such as bees have adaptations for their role such as lapping or sucking mouthparts to take in nectar and in some species also pollen baskets on their hind legs This required the coevolution of insects and flowering plants in the development of pollination behaviour by the insects and pollination mechanisms by the flowers benefiting both groups Both the size and the density of a population are known to affect pollination and subsequent reproductive performance 1 Bee pollinating a flower Soldier beetle covered with pollen Contents 1 Coevolution 1 1 History 1 2 The plant s needs 1 3 Mechanisms 1 4 Plant insect pairings 2 Etymology 3 Taxonomic range 4 See also 5 ReferencesCoevolution editFurther information Coevolution History edit The early spermatophytes seed plants were largely dependent on the wind to carry their pollen from one plant to another Prior to the appearance of flowering plants some gymnosperms such as Bennettitales developed flower like structures that were likely insect pollinated Insects pollination for gymnosperms likely originated in the Permian period 2 Candidates for pollinators include extinct long proboscis insect groups including Aneuretopsychid Mesopsychid and Pseudopolycentropodid scorpionflies 3 Kalligrammatid 4 5 and Paradoxosisyrine 6 lacewings and Zhangsolvid flies 7 as well as some extant families that specialised on gymnosperms before switching to angiosperms including Nemestrinid Tabanid and Acrocerid flies 8 Living cycads have mutualistic relationships with specific insect species typically beetles which pollinate them Such relationships extend back to at least the late Mesozoic with both oedemerid beetles which today are exclusively found on flowering plants 2 and boganiid beetles 9 which still pollinate cycads today from the Cretaceous being found with preserved cycad pollen Angiosperms flowering plants first appeared during the Early Cretaceous and during the angiosperm radiation from 125 to 90 Ma would displace many of the gymnosperm lineages and cause the extinction of many of their pollinators while some would transition to angiosperms and some new families would form pollination associations with angiosperms 2 Traits such as sapromyophily emitting the odour of carrion to attract flies have evolved independently in several unrelated angiosperm families 10 The plant s needs edit Wind and water pollination require the production of vast quantities of pollen because of the chancy nature of its deposition If they are not to be reliant on the wind or water for aquatic species plants need pollinators to move their pollen grains from one plant to another They particularly need pollinators to consistently choose flowers of the same species so they have evolved different lures to encourage specific pollinators to maintain fidelity to the same species The attractions offered are mainly nectar pollen fragrances and oils The ideal pollinating insect is hairy so that pollen adheres to it and spends time exploring the flower so that it comes into contact with the reproductive structures 11 Mechanisms edit nbsp Cyperus sphaerocephalus nbsp Cyperus esculentusInsect pollinated flowers are usually more striking than wind pollinated flowers as they need to advertise themselves to insects Compare the flowers of the insect pollinated sedge Cyperus sphaerocephalus 12 and the closely related but wind pollinated Cyperus esculentus Many insects are pollinators particularly bees Lepidoptera butterflies and moths wasps flies ants and beetles 11 On the other hand some plants are generalists being pollinated by insects in several orders 13 Entomophilous plant species have frequently evolved mechanisms to make themselves more appealing to insects e g brightly coloured or scented flowers nectar or appealing shapes and patterns Pollen grains of entomophilous plants are generally larger than the fine pollens of anemophilous wind pollinated plants which has to be produced in much larger quantities because such a high proportion is wasted This is energetically costly but in contrast entomophilous plants have to bear the energetic costs of producing nectar 14 Butterflies and moths have hairy bodies and long proboscides which can probe deep into tubular flowers Butterflies mostly fly by day and are particularly attracted to pink mauve and purple flowers The flowers are often large and scented and the stamens are so positioned that pollen is deposited on the insects while they feed on the nectar Moths are mostly nocturnal and are attracted by night blooming plants The flowers of these are often tubular pale in colour and fragrant only at night Hawkmoths tend to visit larger flowers and hover as they feed they transfer pollen by means of the proboscis Other moths land on the usually smaller flowers which may be aggregated into flowerheads Their energetic needs are not so great as those of hawkmoths and they are offered smaller quantities of nectar 15 Inflorescences pollinated by beetles tend to be flat with open corollas or small flowers clustered in a head with multiple projecting anthers that shed pollen readily 11 The flowers are often green or pale coloured and heavily scented often with fruity or spicy aromas but sometimes with odours of decaying organic matter Some like the giant water lily include traps designed to retain the beetles in contact with the reproductive parts for longer periods 16 Unspecialised flies with short proboscides are found visiting primitive flowers with readily accessible nectar More specialised flies like syrphids and Tabanids can visit more advanced blooms but their purpose is to nourish themselves and any transfer of pollen from one flower to another happens haphazardly The small size of many flies is often made up for by their abundance however they are unreliable pollinators as they may bear incompatible pollen and lack of suitable breeding habitats may limit their activities Some Pterostylis orchids are pollinated by midges unique to each species Due to mutual specialisation pollinators are highly dependent on floral diversity Therefore losses in plant diversity such as those carried on by increasing land use may be linked to extinctions of pollinators 17 A decline for whatever reason to one side of this partnership can be catastrophic for the other 18 Flowers pollinated by bees and wasps vary in shape colour and size Yellow or blue plants are often visited and flowers may have ultra violet nectar guides that help the insect to find the nectary Some flowers like sage or pea have lower lips that will only open when sufficiently heavy insects such as bees land on them With the lip depressed the anthers may bow down to deposit pollen on the insect s back Other flowers like tomato may only liberate their pollen by buzz pollination a technique in which a bumblebee will cling on to a flower while vibrating its flight muscles and this dislodges the pollen Because bees care for their brood they need to collect more food than just to maintain themselves and therefore are important pollinators 18 Other bees are nectar thieves and bite their way through the corolla in order to raid the nectary in the process bypassing the reproductive structures 11 Ants are not well adapted to pollination but they have been shown to perform this function in Polygonum cascadense and in certain desert plants with small blossoms near the ground with little fragrance or visual attraction small quantities of nectar and limited quantities of sticky pollen 18 Plant insect pairings edit nbsp The bee orchid mimics bees in appearance and scent implying close coevolution of a species of flower and a species of insect Some plant species co evolved with a particular pollinator species such as the bee orchid The species is almost exclusively self pollinating in its northern ranges but is pollinated by the solitary bee Eucera in the Mediterranean area The plant attracts these insects by producing a scent that mimics the scent of the female bee In addition the lip acts as a decoy as the male bee confuses it with a female that is visiting a pink flower Pollen transfer occurs during the ensuing pseudocopulation 19 nbsp Cross section of a Ficus glomerata fig fruit showing the syconium with pollinating fig wasps inside Figs in the genus Ficus have a mutualistic arrangement with certain tiny agaonid wasps In the common fig the inflorescence is a syconium formed by an enlarged fleshy hollow receptacle with multiple ovaries on the inner surface A female wasp enters through a narrow aperture fertilizes these pistillate flowers and lays its eggs in some ovaries with galls being formed by the developing larvae In due course staminate flowers develop inside the syconium Wingless male wasps hatch and mate with females in the galls before tunnelling their way out of the developing fruit The winged females now laden with pollen follow flying off to find other receptive syconia at the right stage of development Most species of fig have their own unique commensal species of wasp 20 Etymology editThe word is artificially derived from the Greek entomo entomo 21 cut in pieces segmented hence insect and filh phile loved Taxonomic range editWind pollination is the reproductive strategy adopted by the grasses sedges rushes and catkin bearing plants Other flowering plants are mostly pollinated by insects or birds or bats which seems to be the primitive state and some plants have secondarily developed wind pollination Some plants that are wind pollinated have vestigial nectaries and other plants like common heather that are regularly pollinated by insects produce clouds of pollen and some wind pollination is inevitable The hoary plantain is primarily wind pollinated but is also visited by insects which pollinate it 14 In general showy colourful fragrant flowers like sunflowers orchids and Buddleja are insect pollinated The only entomophilous plants that are not seed plants are the dung mosses of the family Splachnaceae 22 See also editList of crop plants pollinated by beesReferences edit Mustajarvi Kaisa Siikamaki Pirkko Rytkonen Saara Lammi Antti 2001 Consequences of plant population size and density for plant pollinator interactions and plant performance Plant pollinator interactions Journal of Ecology 89 1 80 87 doi 10 1046 j 1365 2745 2001 00521 x a b c Peris David Perez de la Fuente Ricardo Penalver Enrique Delclos Xavier Barron Eduardo Labandeira Conrad C March 2017 False Blister Beetles and the Expansion of Gymnosperm Insect Pollination Modes before Angiosperm Dominance Current Biology 27 6 897 904 Bibcode 2017CBio 27 897P doi 10 1016 j cub 2017 02 009 hdl 2445 163381 ISSN 0960 9822 PMID 28262492 S2CID 3967504 Zhao Xiangdong Wang Bo Bashkuev Alexey S Aria Cedric Zhang Qingqing Zhang Haichun et al March 2020 Mouthpart homologies and life habits of Mesozoic long proboscid scorpionflies Science Advances 6 10 eaay1259 Bibcode 2020SciA 6 1259Z doi 10 1126 sciadv aay1259 PMC 7056314 PMID 32181343 Labandeira Conrad C Yang Qiang Santiago Blay Jorge A Hotton Carol L Monteiro Antonia Wang Yong Jie Goreva Yulia Shih ChungKun Siljestrom Sandra Rose Tim R Dilcher David L 2016 02 10 The evolutionary convergence of mid Mesozoic lacewings and Cenozoic butterflies Proceedings of the Royal Society B Biological Sciences 283 1824 20152893 doi 10 1098 rspb 2015 2893 ISSN 0962 8452 PMC 4760178 PMID 26842570 Liu Qing Lu Xiumei Zhang Qingqing Chen Jun Zheng Xiaoting Zhang Weiwei Liu Xingyue Wang Bo 2018 09 17 High niche diversity in Mesozoic pollinating lacewings Nature Communications 9 1 3793 Bibcode 2018NatCo 9 3793L doi 10 1038 s41467 018 06120 5 ISSN 2041 1723 PMC 6141599 PMID 30224679 Khramov Alexander V Yan Evgeny Kopylov Dmitry S December 2019 Nature s failed experiment Long proboscid Neuroptera Sisyridae Paradoxosisyrinae from Upper Cretaceous amber of northern Myanmar Cretaceous Research 104 104180 Bibcode 2019CrRes 10404180K doi 10 1016 j cretres 2019 07 010 S2CID 199111088 Penalver Enrique Arillo Antonio Perez de la Fuente Ricardo Riccio Mark L Delclos Xavier Barron Eduardo Grimaldi David A July 2015 Long Proboscid Flies as Pollinators of Cretaceous Gymnosperms Current Biology 25 14 1917 1923 Bibcode 2015CBio 25 1917P doi 10 1016 j cub 2015 05 062 PMID 26166781 S2CID 13022302 Khramov Alexander V Lukashevich Elena D 2019 A Jurassic dipteran pollinator with an extremely long proboscis Gondwana Research 71 210 215 Bibcode 2019GondR 71 210K doi 10 1016 j gr 2019 02 004 S2CID 134847380 Cai Chenyang Escalona Hermes E Li Liqin Yin Ziwei Huang Diying Engel Michael S September 2018 Beetle Pollination of Cycads in the Mesozoic Current Biology 28 17 2806 2812 e1 Bibcode 2018CBio 28E2806C doi 10 1016 j cub 2018 06 036 PMID 30122529 S2CID 52038878 McGhee George R 2011 Convergent Evolution Limited Forms Most Beautiful MIT Press pp 118 120 ISBN 978 0 262 01642 1 a b c d Kimsey L Pollinators We Never Talk About University of California Davis College of Agricultural and Environmental Sciences Archived from the original on 10 April 2016 Retrieved 25 March 2016 Wragg Peter D Johnson Steven D September 2011 Transition from wind pollination to insect pollination in sedges experimental evidence and functional traits New Phytologist vol 191 no 4 pp 1128 1140 doi 10 1111 j 1469 8137 2011 03762 x ISSN 0028 646X retrieved 2024 05 30 Kohler Andreas Suhs Rafael Barbizan Somavilla Alexandre 2010 11 11 Entomofauna associated to the floration of Schinus terebinthifolius Raddi Anacardiaceae in the Rio Grande do Sul State Brazil Entomofauna associada a floracao de Schinus terebinthifolius Raddi Anacardiaceae no Estado do Rio Grande do Sul Brasil Somavilla Bioscience Journal 26 6 Retrieved 18 April 2014 a b Faegri K Van Der Pijl L 2013 Principles of Pollination Ecology Elsevier pp 34 36 ISBN 978 1 4832 9303 5 Oliveira P E Gibbs P E Barbosa A A 2004 Moth pollination of woody species in the Cerrados of Central Brazil a case of so much owed to so few Plant Systematics and Evolution 245 1 2 41 54 doi 10 1007 s00606 003 0120 0 S2CID 21936259 Prance Ghillean T 1996 The Earth Under Threat A Christian Perspective Wild Goose Publications p 14 ISBN 978 0 947988 80 7 Frund Jochen Linsenmair Karl Eduard Bluthgen Nico 2010 09 14 Pollinator diversity and specialization in relation to flower diversity Oikos 119 10 1581 1590 Bibcode 2010Oikos 119 1581F doi 10 1111 j 1600 0706 2010 18450 x ISSN 0030 1299 a b c Faegri K Van Der Pijl L 2013 Principles of Pollination Ecology Elsevier pp 102 110 ISBN 978 1 4832 9303 5 Fenster Charles B Marten 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