蝙蝠传粉系统的多样性及其演化研究进展

doi:10.16829/j.slxb.150960

摘要/Abstract

摘要： 蝙蝠是一类善于飞行的夜行性哺乳动物。植食性蝙蝠与其传粉植物之间的相互作用，为人们认识种间互作、适应与分化提供了独特的研究系统。本文整合了蝙蝠传粉系统多样性，以及传粉蝙蝠与蝙蝠媒植物互作的演化关系。从视觉-花色、嗅觉-气味、回声定位-花形、身体结构-花部结构以及营养需求-报酬5个角度展开讨论，概述了传粉蝙蝠与植物之间存在的适应特征；进一步提出蝙蝠传粉的生态和演化意义，旨在为蝙蝠及与植物互作的深入研究提供参考。

关键词: 蝙蝠媒植物, 传粉蝙蝠, 传粉综合征, 适应特征, 种间互作

Abstract: Bats, as proficient night-flying mammals, are effective pollinators for flowering plants in diverse lineages in tropical regions. The interactions between frugivorous/nectarivorous bats and their foraging flowers provide a valuable system for studying interspecific interactions, adaptation, and diversification. In this review, we firstly summarize the diversity of bat pollination systems, and then construct the evolutionary relationship between bats and bat-pollinated plants. To outline the adaptive characteristics of the chiropterophilous pollination system, five aspects are discussed: bat vision and flower color, olfactory and flower fragrance, echolocation and flower shape, body and flower mechanical fit (morphological match), nutritional requirements and floral rewards. Perspectives of ecology and evolution in bats and some issues worthy of further exploration are proposed.

Key words: Bat-pollinated plant, Bat pollinator, Pollination syndrome, Adaptive traits, Interspecific interactions

中图分类号:

Q958.1

胡纯略, 童泽宇, 焦恒武, 黄双全. 蝙蝠传粉系统的多样性及其演化研究进展[J]. 兽类学报, 2025, 45(2): 152-164.

HU Chunlue, TONG Zeyu, JIAO Hengwu, HUANG Shuangquan. Research progress in the diversity and evolution of bat pollination systems[J]. ACTA THERIOLOGICA SINICA, 2025, 45(2): 152-164.

参考文献

Acharya P R, Racey P A, Sotthibandhu S, Bumrungsri S. 2015.Home-range and foraging areas of the dawn bat Eonycteris spe laea in agricultural areas of Thailand. Acta Chiropterologica, 17(2):307-319.
Aguirre L F, Herrel A, van Damme R, Matthysen E. 2002. Ecomor phological analysis of trophic niche partitioning in a tropical sa vannah bat community. Proceedings of the Royal Society B, Bio logical Sciences, 269 (1497):1271-1278.
Almeida F C, Simmons N B, Giannini N P. 2020. A species-level phy logeny of Old-World fruit bats with a new higher-level classifica tion of the family Pteropodidae. American Museum Novitates, 2020 (3950):1-24.American Society of Mammalogists (ASM). 2024. ASM:Mammal Diversity Database[EB/OL]. https://www. mammaldiversity. org/index. html.
Anta A A, Vaugbn J B, Thomas M E. 1967. Food habits of certain Co lombian bats. Journal of Mammalogy, 48 (1):653-655.
Ayala S C, Alessandro A O. 1973. Insect feeding behavior of some Colombian fruit-eating bats. Journal of Mammalogy, 54 (1):266-267.
Aziz S A, Clements G R, McConkey K R. 2017. Pollination by the lo cally endangered island flying fox (Pteropus hypomelanus) en hances fruit production of the economically important durian (Du rio zibethinus). Ecology and Evolution, 7 (21):8670-8684.
Baker R J, Solari S A C, Simmons N B. 2016. Higher level classifica tion of phyllostomid bats with a summary of DNA synapomor phies. Acta Chiropterologica, 18 (1):1-38.
Baqi A, Lim V C, Yazid H, Khan F A A, Lian C J, Nelson B R, Seelan J S S, Appalasamy S, Mokhtar S I, Kumaran J V. 2022. A review of durian plant-bat pollinator interactions. Journal of Plant Inter actions, 17 (1):105-126.
Barclay R. 2002. Do plants pollinated by flying fox bats (Megachirop tera) provide an extra calcium reward in their nectar? Biotropica, 34 (1):168-171.
Baron G. 1973. Volumetrischer Vergleich sensorischer Hirnstrukturen bei FledermaČusen. Periodicum Biologorum, 75 (1):47-53.
Bestmann H J, Winkler L, von Helversen O. 1997. Headspace analy sis of volatile flower scent constituents of bat-pollinated plants.Phytochemistry, 29 (7):1359-1387.
Bhatnagar K P, Kallen F C. 1974. Cribriform plate of ethnoid, olfac tory bulb and olfactory acuity in forty species of bats. Journal of Morphology, 142 (1):71-90.
Bhatnagar K P, Kallen F C. 1975. Quantitative observations on the na sal epithelia and olfactory innervation in bats. Acta Anatomica Si nica, 91 (1):272-282.
Brokaw A F. 2021. Olfactory tracking behavior of bats. Ph. D thesis.Texas A&M University.
Bumrungsri S, Harbit A, Benzie C, Carmouche K, Sridith K, Racey P. 2008. The pollination ecology of two species of Parkia (Mimosa ceae) in southern Thailand. Journal of Tropical Ecology, 24 (5):467-475.
Bumrungsri S, Lang D, Harrower C, Sripaoraya E, Kitpipit K, Racey P A. 2013. The dawn bat, Eonycteris spelaea Dobson (Chiroptera:Pteropodidae) feeds mainly on pollen of economically important food plants in Thailand. Acta Chiropterologica, 15 (1):95-104.
Bumrungsri S, Sripaoraya E, Chongsiri T, Kitichate S, Racey P A. 2009. The pollination ecology of durian (Durio zibethinus, Bom bacaceae) in southern Thailand. Journal of Tropical Ecology, 25(1):85-92.
Burck W. 1892. Wandelingen door den Botanischen Tuin. T Treub's Lands Plantentuin te Buitenzorg. Leipzig:Batavia.
Burgin C J, Colella J P, Kahn P L, Upham N S. 2018. How many spe cies of mammals are there? Journal of Mammalogy, 99 (1):1-14.
Carter G G, Ratcliffe J M, Galef B G. 2010. Flower bats (Glos sophaga soricina) and fruit bats (Carollia perspicillata) rely on spatial cues over shapes and scents when relocating food. PLoS ONE, 5 (5). DOI:10. 1371/journal. pone. 0010808.
Carter G G, Stewart A B. 2015. The floral bat lure dimethyl disul phide does not attract the palaeotropical Dawn bat. Journal of Pollination Ecology, 17:129-131.
Casotti G, Mancina C A, Braun E J. 2006. Relationships between re nal morphology and diet in 26 species of new world bats (subor der Microchiroptera). Zoology, 109 (3):196-207.
Cruden R W. 1972. Pollinators in high-elevation ecosystems:relative effectiveness of birds and bees. Science, 176 (4042):1439-1440.
Dellinger A S, Pérez-Barrales R, Michelangeli F A, Penneys D S, Fernández-Fernández D M, Schönenberger J. 2021. Low bee visitation rates explain pollinator shifts to vertebrates in tropical mountains. New Phytologist, 231 (2):864-877.
Domingos M A, Brito V L G, Sersic A N, Cocucci A A, Lunau K, Machado C. 2021. Shining bright in the dusk:How do batpollinated flowers reflect light? Ecology, 102 (9). DOI:10. 1002/
ecy. 3416.
Eguiarte L E, Jiménez Barrón O A, Aguirre-Planter E, Scheinvar E, Gámez N, Gasca-Pineda J, Castellanos-Morales G, Moreno-Letelier A, Souza V. 2021. Evolutionary ecology of Agave:distribution patterns, phylogeny, and coevolution (an hom age to Howard S. Gentry). American Journal of Botany, 108 (2):216-235.
Endress P K. 1996. Diversity and Evolutionary Biology of Tropical Flowers. New York:Cambridge University Press.
Faegri K, van der Pijl L. 1979. The Principles of Pollination Ecology. 3rd edition. Toronto:Pergamon Press.
Ferrarezzi H, Gimenez E D A. 1996. Systematic patterns and the evo lution of feeding habits in Chiroptera (Archonta:Mammalia).Journal of Comparative Biology, 1 (3):75-94.
Fleming T H, Geiselman C, Kress W J. 2009. The evolution of bat pollination:a phylogenetic perspective. Annals of Botany, 104(6):1017-1043.
Fleming T H, Hooper E T, Wilson D E. 1972. Three central American bat communities:structure reproductive cycles, and movement patterns. Ecology, 53 (1):653-670.
Fleming T H, Muchhala N. 2008. Nectar-feeding bird and bat niches in two worlds:pantropical comparisons of vertebrate pollination systems. Journal of Biogeography, 35 (5):764-780.
Flores-Abreu I N, Trejo-Salazar R E, Sánchez-Reyes L L, Good S V, Magallón S, García-Mendoza A, Eguiarte L E. 2019. Tempo and mode in coevolution of Agave sensu lato (Agavoideae, Asparaga ceae) and its bat pollinators, Glossophaginae (Phyllostomidae).
Molecular Phylogenetics and Evolution, 133:176-188.
Freeman P W. 1995. Nectarivorous feeding mechanisms in bats. Bio logical Journal of the Linnean Society, 56 (3):439-463.
Freeman P W. 1998. Form, function, and evolution in skulls and teeth of bats. In:Kunz T H, Racey P A eds. Bat Biology and Conservation. Washington DC:Smithsonian Institution Press, 140-156.
GBIF. org. 2024. GBIF Home Page[EB/OL]. https://www. gbif. org.
Geiselman C K, Mori S A, Blanchard F. 2004. Database of neotropi cal bat/plant interactions[OB/EL]. http://www. nybg. org/botany/tlobova/mori/batsplants/database/dbase_frameset. html.
Giannini N P, Simmons N B. 2005. Conflict and congruence in a com bined DNA-morphology analysis of megachiropteran bat relation ships (Mammalia:Chiroptera:Pteropodidae). Cladistics, 21 (5):411-437.
Gonzalez-Terrazas T P, Martel C, Milet-Pinheiro P, Ayasse M, Kalko E K V, Tschapka M. 2016. Finding flowers in the dark:nectarfeeding bats integrate olfaction and echolocation while foraging for nectar. Royal Society Open Science, 3 (8). DOI:10. 1098/rsos. 160199.
Göttlinger T, Schwerdtfeger M, Tiedge K, Lohaus G. 2019. What do nectarivorous bats like? nectar composition in Bromeliaceae with special emphasis on bat-pollinated species. Frontiers in Plant Sci ence, 10 (1):205.
Graham G L. 2001. Bats of the World. New York:Golden Press.
Heithaus E. 1982. Coevolution between bats and plants. In:Kunz T H ed. Ecology of Bats. Boston, MA:Springer US, 327-367.
Hernández Montero J R, Sosa V J. 2016. Reproductive biology of Pachira aquatica Aubl. (Malvaceae:Bombacoideae):a tropical tree pollinated by bats, sphingid moths and honey bees. Plant Species Biology, 31 (2):125-134.
Jones G, Teeling E C. 2006. The evolution of echolocation in bats.Trends in Ecology & Evolution, 21 (3):149-156.
Jones K E, Bininda-Emonds O R P, Gittleman J L. 2005. Bats, clocks, and rocks:diversification patterns in Chiroptera. Evolution, 59(10):2243-2255.
Kevan P G, Baker H G. 1983. Insects as flower visitors and pollina tors. Annual Review of Entomology, 28 (1):407-453.
Knudsen J T, Eriksson R, Gershenzon J, Ståhl B. 2006. Diversity and distribution of floral scent. Botanical Reviews, 72 (1):1-120.
Korine C, Kalko E K V. 2005. Fruit detection and discrimination by small fruit-eating bats (Phyllostomidae):echolocation call design and olfaction. Behavioral Ecology and Sociobiology, 59 (1):12-23.
Lassen K M, Ræbild A, Hansen H, Brødsgaard C J, Eriksen E N. 2012. Bats and bees are pollinating Parkia biglobosa in The Gambia. Agroforestry Systems, 85:465-475.
Li J, Li L M, Jiang H Y, Yuan L H, Zhang L B, Ma J E, Zhang X J, Cheng M H, Chen J P. 2018. Fecal bacteriome and mycobiome in bats with diverse diets in South China. Current Microbiology, 75 (10):1352-1361.
Li Y C, Jiao H W, Sin S Y W, Wang R Q, Rossiter S J, Zhao H B. 2023. Common ancestors of bats were omnivorous suggested by resurrection of ancestral sweet receptors. Science Bulletin, 68:1748-1751.
Luckow M, Hopkins H C F. 1995. A cladistic analysis of Parkia (Le guminosae:Mimosoideae). American Journal of Botany, 82 (10):1300-1320.
Martén-Rodríguez S, Charles B F. 2008. Pollination ecology and breeding systems of five Gesneria species from Puerto Rico. An nals of Botany, 102 (1):23-30.
Montgomery S. 2001. Encyclopedia Britannica'Bat-loving Flowers'[EB/OL]. (2001-12-17)[2024-1-4]. https://www. britan nica.com/topic/Bat-loving-Flowers-1688510.
Moseley H N. 1870. Notes by a Naturalist on the Challenger. Lon don:Macmillan.
Muchhala N, Patricio M V, Luis A V. 2005. A new species of Anoura(Chiroptera:Phyllostomidae) from the Ecuadorian Andes. Jour nal of Mammalogy, 86 (3):457-461.
Muchhala N, Serrano D. 2015. The complexity of background clutter affects nectar bat use of flower odor and shape cues. PLoS ONE, 10 (10). DOI:10. 1371/journal. pone. 0136657.
Muchhala N, Thomson J D. 2009. Going to great lengths:selection for long corolla tubes in an extremely specialized bat-flower mutu alism. Proceedings of the Royal Society B, Biological Sciences, 276 (1665):2147-2152.
Muchhala N, Tschapka M. 2020. The ecology and evolution of nectar feeders. In:Leming T H, Mavalos L eds. Phyllostomid Bats:A Unique Mammalian Radiation. Chicago:University of Chicago Press, 273-294.
Muchhala N. 2006. Nectar bat stows huge tongue in its rib cage. Na ture, 444 (7120):701-702.
Müller B, Glösmann M, Peichl L, Knop G C, Hagemann C, Am mermüller J. 2009. Bat eyes have ultraviolet-sensitive cone pho toreceptors. PLoS ONE, 4 (7). DOI:10. 1371/journal.
pone. 0006390.
Newman E, Govender K, van Niekerk S, Johnson S D. 2021. The functional ecology of bat pollination in the African sausage tree Kigelia africana (Bignoniaceae). Biotropica, 53 (2):477-486.
Ng W, Mohd-Azlan J, Wong S. 2020. Floral biology and pollination strategy of Durio (Malvaceae) in Sarawak. Malaysian Borneo.Biodiversitas, 21 (12):5579-5594.
Nyffeler R, Baum D A. 2001. Systematics and character evolution in Durio s. lat. (Malvaceae/Helicteroideae/Durioneae or Bombacaceae-Durioneae). Organisms Diversity & Evolution, 1(3):165-178.
Ollerton J, Alarcon R, Waser N M, Price M V, Watts S, Cranmer L, Hingston A, Peter C I, Rotenberry J. 2009. A global test of the pollination syndrome hypothesis. Annals of Botany, 103 (9):1471-1480.
Ollerton J. 2017. Pollinator diversity:Distribution, ecological func tion, and conservation. Annual Review of Ecology, Evolution and Systematics, 48 (1):353-376.
Ollerton J. 2021. Pollinators & Pollination:Nature and Society. Ex eter, UK:Pelagic Publishing.
Orbach D N, Veselka N, Dzal Y, Lazure L, Fenton M B. 2010. Drink ing and flying:does alcohol consumption affect the flight and echolocation performance of phyllostomid bats? PLoS ONE, 5(2). DOI:10. 1371/journal. pone. 0008993.
Pettersson S, Ervik F, Knudsen J T. 2004. Floral scent of batpollinated species:West Africa vs the New World. Biological Journal of the Linnean Society, 82 (2):161-168.
Piechowski D, Dötterl S, Gottsberger G. 2010. Pollination biology and floral scent chemistry of the Neotropical chiropterophilous Parkia pendula. Plant Biology, 12 (1):172-182.
Pinto C M, Marchán-Rivadeneira M R, Tapia E E, Carrera J P, Baker R J. 2013. Distribution, abundance and roosts of the fruit bat Arti beus fraterculus (Chiroptera:Phyllostomidae). Acta Chiroptero logica, 15 (1):85-94.
Raymond E, Paul A, Herbert G. 1974. Bat activity and pollination of Bauhinia pauletia:plant-pollinator coevolution. Ecology, 55 (2):412-419.
Reeder D A M, Helgen K M, Wilson D E. 2007. Global trends and bi ases in new mammal species discoveries. Occasional Papers, Mu seum of Texas Tech University, 269:1-35.
Renner S S, Robert E R. 1995. Dioecy and its correlates in the flower ing plants. American Journal of Botany, 82 (5):596-606.
Rojas D, Vale A, Ferrero V, Navarro L. 2011. When did plants be come important to leafnosed bats? Diversification of feeding hab its in the family Phyllostomidae. Molecular Ecology, 20 (10):2217-2228.
Rojas D, Warsi O M, Dávalos L M. 2016. Bats (Chiroptera:Noctil ionoidea) challenge a recent origin of extant neotropical diversity.Systematic Biology, 65 (3):432-448.
Rose A, Kolar M, Tschapka M, Knörnschild M. 2016. Learning where to feed:the use of social information in flower-visiting Pallas'long-tongued bats (Glossophaga soricina). Animal Cognition, 19:251-262.
Sánchez-Losada M, Mancina C A. 2019. Diet segregation between sexes by a gregarious greater Antillean bat, Phyllonycteris poeyi(Chiroptera:Phyllostomidae). Acta Chiropterologica, 21 (2):385-393.
Simmons N B, Voss R S. 1998. The mammals of Paracou, French Guiana, a Neotropical lowland rainforest fauna. Part 1, Bats. Bul letin of the American Museum of Natural History, 237 (1):1-219
Simmons N B. 2006. Mammal Species of the World:A Taxonomic and Geographic Reference. Baltimore, Maryland:Johns Hopkins Uni versity Press.
Simon R, Holderied M, Koch C. 2011. Floral acoustics:conspicuous echoes of a dish-shaped leaf attract bat pollinators. Science, 333(6042):631-633.
Sritongchuay T. 2016. Plant-pollinator networks in mixed fruit or chards in Southern Thailand. Ph. D thesis. Prince of Songkla University.
Stewart A, Dudash M. 2016. Differential pollen placement on an oldworld nectar bat increases pollination efficiency. Annals of Botany, 117 (1):145-152.
Stroo A. 2000. Pollen morphological evolution in bat-pollinated plants. Plant Systematics and Evolution, 222:225-242.
Suthers R, Chase J, Braford B. 1969. Visual form discrimination by echolocating bats. The Biological Bulletin, 137 (3):535-546.
Teeling E C, Springer M S, Madsen O, Bates P, O'brien S J, Murphy W J. 2005. A molecular phylogeny for bats illuminates biogeog raphy and the fossil record. Science, 307 (5709):580-584.
Thavry H, Cappelle J, Bumrungsri S, Thona L, Furey N M. 2017. The diet of the cave nectar bat (Eonycteris spelaea Dobson) suggests it pollinates economically and ecologically significant plants in Southern Cambodia. Zoological Studies, 56. DOI:10. 6620/ZS. 2017. 56-17.
The Angiosperm Phylogeny Group. 2016. An update of the angio sperm phylogeny group classification for the orders and families of flowering plants:APG IV. Botanical Journal of the Linnean Society, 181 (1):1-20.
The Bat Eco-Interactions Team. 2021. Bat Eco-Interactions[EB/OL]. https://www. batbase. org/
Thomas H K. 2013. Ecology of Bats. New York and London:Plenum Press.
Tong Z Y, Wu L Y, Feng H H, Zhang M, Armbruster W S, Renner S S, Huang S Q. 2023. New calculations indicate that 90% of flower ing plant species are animal-pollinated. National Science Review, 10 (10). DOI:10. 1093/nsr/nwad219.
Tremlett C J, Moore M, Chapman M A, Zamora-Gutierrez V, Peh K S H. 2020. Pollination by bats enhances both quality and yield of a major cash crop in Mexico. Journal of Applied Ecology, 57 (3):450-459.
Tremlett C J, Peh K S H, Zamora-Gutierrez V, Schaafsma M. 2021.Value and benefit distribution of pollination services provided by bats in the production of cactus fruits in central Mexico. Ecosys tem Services, 47. DOI:10. 1016/j. ecoser. 2020. 101197.
Tschapka M, Dressler S. 2004. Chiropterophily:On bat-flowers and flower-bats. Curtis's Botanical Magazine, 19 (2):114-125.
Tschapka M, Terrazas T P, Knörnschild M. 2015. Nectar uptake in bats using a pumping-tongue mechanism. Science Advances, 1(8). DOI:10. 1126/sciadv. 1500525.van der Pijl L. 1957. The dispersal of plants by bats (Chiroptero chory). Acta Botanica Neerlandica, 6 (3):291-315.
Villalobos F, Arita H T. 2010. The diversity field of New World leaf-nosed bats (Phyllostomidae). Global Ecology and Biogeogra phy, 19 (2):200-211.
Vogel S. 1969. Chiropterophilie in der neotrophischen Rora. Neue Mitt. II. III. Flora Abt. B. 158:185-222, 289-323.
von Helversen D V, Holderied M W, von Helversen O. 2003. Echoes of bat-pollinated bell-shaped flowers:conspicuous for nectar feed ing bats? Journal of Experimental Biology, 206 (6):1025-1034.
von Helversen D, von Helversen O. 1999. Acoustic guide in a batpollinated flower. Nature, 398 (29):759-760.
von Helversen O, Winkler L, Bestmann H J. 2000. Sulphurcontaining perfumes attract flower-visiting bats. Journal of Com parative Physiology A, 186 (1):143-153.
von Helversen O, Winter Y. 2003. Glossophagine bats and their flowers:costs and benefits for plants and pollinators. In:Kunz T H, Fenton B M eds. Bat Ecology. Chicago, IL:University of Chi cago Press, 346-397.
Wilson D E, Mittermeier R A. 2019. Handbook of the Mammals of the World. Volume 9:Bats. Barcelona:Lynx Edicions.
Zubaid A, Gary F M, Thomas H K. 2006. Functional and Evolution ary Ecology of Bats. Oxford:Oxford University Press.
朱光剑, 唐占辉, 梁冰, 张信文. 2007. 海口地区犬蝠冬季食性及栖宿地类型. 动物学杂志, 51 (4):22-27.
刘爱忠, 李德铢, 王红. 2001. 西双版纳先锋植物野芭蕉的传粉生态学研究. 植物学报, 43 (3):319-322.
唐占辉, 梁冰, 曹敏, 盛连喜, 张树义. 2005. 西双版纳地区犬蝠和棕果蝠食性的初步研究. 兽类学报, 25 (4):367-372.
黄双全, 郭友好. 2000. 传粉生物学的研究进展. 科学通报, 45 (3):225-237.
谭梁静, 孙云霄, 刘奇, 彭兴文, 张琴, 刘会, 梁捷, 彭真, 何向阳, 张礼标. 2017. 云南西双版纳蝙蝠咬合力及生态位分化. 兽类学报, 37 (2):139-145.
谭梁静, 周善义, 刘奇, 陈毅, 沈琪琦, 赵娇, 张礼标. 2013. 狐蝠科 3 种蝙蝠舌长度及结构比较. 动物学杂志, 48 (3):338-344.

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