Bulbophyllum

Plants in the genus Bulbophyllum are epiphytic or lithophytic sympodial herbs with thread-like or fibrous roots that creep over the surface on which they grow. The stem consists of a rhizome and a pseudobulb, the latter with one or two usually fleshy or leathery leaves. The flowers are arranged on an unbranched raceme that emerges from the pseudobulb, usually from its base. The dorsal sepal is free from the lateral sepals which themselves may be free or fused to each other. The petals are also free from each other and smaller than the lateral sepals. The labellum is often fleshy, curved and hinged to the base of the column.{{cite web |last1=Weston |first1=Peter H. |title=Genus Bulbophyllum |url=http://plantnet.rbgsyd.nsw.gov.au/cgi-bin/NSWfl.pl?page=nswfl&showsyn=&dist=&constat=&lvl=gn&name=Bulbophyllum |publisher=Royal Botanic Garden Sydney |access-date=5 December 2018}}{{cite web |last1=Groeneveld |first1=Zoe P. |last2=Jones |first2=David L. |title=Bulbophyllum |url=https://profiles.ala.org.au/opus/foa/profile/Bulbophyllum |access-date=12 May 2023}}

The center of diversity of this genus is in the montane forests of Papua New Guinea (more than 600 species) which seems to be the evolutionary homeland,{{cite book|author=Emly S. Siegerist|title=Bulbophyllums and their allies: a grower's guide |publisher=Timber Press|location=Portland (OR)|year=2001|url= https://books.google.com/books?id=HnzJ2ss_SQ8C&q=Bulbophyllums+and+their+allies|isbn= 978-0-88192-506-7}} though the genus is pantropical and widespread, occurring in Australia, Southeast Asia (with over 200 species in Borneo), India, Madagascar (with 135 species, some endemic), Africa and in tropical central and South America.

The erect to pendent inflorescence arises laterally from the base of the pseudobulb. The flower form has a basic structural blueprint that serves to identify this genus. But this form can be very diverse: compound or single, with few to many flowers, with the resupinate flowers arranged spirally or in two vertical ranks. The sepals and the petals can also be very varied : straight or turned down, without footstalk or with a long claw at the base. They are often hairy or callous. There are two to four hard and waxy pollinia with stipes present or absent. The fruits are beakless capsules.

The genus Bulbophyllum was first formally described in 1822 by Louis-Marie Aubert du Petit-Thouars in his book Histoire particulière des plantes orchidées recueillies sur les trois Iles Australes d'Afrique, de France, de Bourbon et de Madagascar in which he described eighteen species of ''Bulbophyllum.{{cite book |last1=Thouars |first1=Louis-Marie |title=Histoire particulière des plantes orchidées recueillies sur les trois Iles Australes d'Afrique, de France, de Bourbon et de Madagascar |date=1822 |location=Paris |pages=93–110 |url=https://www.biodiversitylibrary.org/item/9881#page/137/mode/1up |access-date=5 December 2018 |doi=10.5962/bhl.title.492}}

There are now more than 2,800 records (accepted names and synonyms) for this genus. This large number and the great variety of its forms make the genus a considerable challenge for taxonomists: 120 sections and subgenera have been listed.{{cite book|title=The Orchids, Natural History and Classification|last=Dressler|first=Robert L.|isbn=0-674-87526-5|year=1990|publisher=Harvard University Press }}

The genus name (Bulbophyllum) is derived from the Greek bolbos meaning 'bulb' and phyllon, 'a leaf', referring to the pseudobulbs on top of which the leaf grows.{{cite book |last1=Quattrocchi |first1=Umberto |title=CRC world dictionary of plant names : common names, scientific names, eponyms, synonyms, and etymology |date=2000 |publisher=CRC Press |location=Boca Raton, Florida |isbn=0849326753 |page=372}}

In 2014, Alec Pridgeon and others proposed merging the genus Drymoda with Bulbophyllum in the Genera Orchidacearum and the change is accepted by Plants of the World Online and the World Checklist of Selected Plant Families.{{cite web |title=Drymoda |url=https://powo.science.kew.org/taxon/urn:lsid:ipni.org:names:29354-1 |publisher=Plants of the World Online |access-date=18 July 2021}}{{cite web |title=Drymoda |url=https://wcsp.science.kew.org/namedetail.do?name_id=64710 |publisher=World Checklist of Selected Plant Families |access-date=18 July 2021}}{{cite journal |last1=Chase |first1=Mark W. |last2=Cameron |first2=Kenneth M. |last3=Freudenstein |first3=John V. |last4=Pridgeon |first4=Alec M. |last5=Salazar |first5=Gerardo |last6=van den Berg |first6=Cássio |last7=Schuiteman |first7=André |title=An updated classification of Orchidaceae |journal=Botanical Journal of the Linnean Society |date=2015 |volume=177 |issue=2 |pages=151–174 |doi=10.1111/boj.12234|doi-access=free }} The former species of Drymoda included D. digitata (now B. digitatum),{{cite web |title=Drymoda digitata |url=https://powo.science.kew.org/results?q=Drymoda+digitata |publisher=Plants of the World Online |access-date=18 July 2021}} D. gymnopus (now B. gymnopus),{{cite web |title=Drymoda gymnopus |url=http://powo.science.kew.org/results?q=Drymoda+gymnopus |publisher=Plants of the World Online |access-date=18 July 2021}} D. latisepala (now B. capillipes),{{cite web |title=Drymoda latisepala |url=https://powo.science.kew.org/results?q=Drymoda+latisepala |publisher=Plants of the World Online |access-date=18 July 2021}} D. picta (the type species of Drymoda, now B. drymoda),{{cite web |title=Drymoda picta |url=https://powo.science.kew.org/results?q=Drymoda+latisepala |publisher=Plants of the World Online |access-date=18 July 2021}} and D. siamensis (now B. ayuthayense).{{cite web |title=Drymoda siamensis |url=http://powo.science.kew.org/results?q=Drymoda+siamensis|publisher=Plants of the World Online |access-date=18 July 2021}}

Molecular phylogenetic studies place the origin of the orchid genus Bulbophyllum into the early Miocene. Biogeographic analyses and ancestral area reconstructions identified the Asia-Pacific region as the ancestral area of Bulbophyllum and suggest an early-to-late Miocene scenario of 'out-of-Asia-Pacific' origin and progressive (east-to-west) dispersal-mediated diversification, resulting in three additional radiations in Madagascar, Africa and the Neotropics, respectively.Gamisch, A., Comes, H.P. Clade-age-dependent diversification under high species turnover shapes species richness disparities among tropical rainforest lineages of Bulbophyllum (Orchidaceae). BMC Evol Biol 19, 93 (2019). https://doi.org/10.1186/s12862-019-1416-1

In 2019 Bulbophyllum were separated into four clades Neotropics, Africa, Madagascar, and the Asia-Pacific.{{cite journal | last1=Gamisch | first1=Alexander | last2=Comes | first2=Hans Peter | title=Clade-age-dependent diversification under high species turnover shapes species richness disparities among tropical rainforest lineages of Bulbophyllum (Orchidaceae) | journal=BMC Evolutionary Biology | publisher=Springer Science and Business Media LLC | volume=19 | issue=1 | date=2019-04-24 | issn=1471-2148 | doi=10.1186/s12862-019-1416-1 | page=93| pmid=31014234 | pmc=6480529 | doi-access=free | bibcode=2019BMCEE..19...93G }}{{cite journal | last1=Smidt | first1=Eric C. | last2=Borba | first2=Eduardo L. | last3=Gravendeel | first3=Barbara | last4=Fischer | first4=Gunter A. | last5=van den Berg | first5=Cássio | title=Molecular phylogeny of the Neotropical sections of Bulbophyllum (Orchidaceae) using nuclear and plastid spacers | journal=Taxon | publisher=Wiley | volume=60 | issue=4 | year=2011 | issn=0040-0262 | doi=10.1002/tax.604009 | pages=1050–1064}}

Many Bulbophyllum species have the typical odor of rotting carcasses, and the flies they attract assist in their reproduction through pollination. Nevertheless, some species with mild and pleasant floral fragrance attract Dacini fruit flies (particularly Bactrocera and Zeugodacus species) via methyl eugenol, raspberry ketone or zingerone that also act as floral reward during pollination.{{cite journal|doi=10.1023/A:1005477926244|year=2000|last1=Tan|first1=Keng-Hong|journal=Journal of Chemical Ecology|volume=26|issue=2|pages=533–546|last2=Nishida|first2=Ritsuo|title=Mutual reproductive benefits between a wild orchid, Bulbophyllum patens, and Bactrocera fruit flies via a floral synomone|s2cid=24971928}}{{cite journal |last1=Tan |first1=Keng-Hong |last2=Nishida |first2=R |title=Synomone or kairomone?--Bulbophyllum apertum flower releases raspberry ketone to attract Bactrocera fruit flies. |journal=Journal of Chemical Ecology |date=March 2005 |volume=31 |issue=3 |pages=497–507 |pmid=15898497|doi=10.1007/s10886-005-2023-8 |bibcode=2005JCEco..31..497K |s2cid=39173699 }}{{cite journal |last1=Tan |first1= Keng Hong|last2=Tan |first2=Lin Tze |last3=Nishida |first3=Ritsuo |title=Floral Phenylpropanoid Cocktail and Architecture of Bulbophyllum vinaceum Orchid in Attracting Fruit Flies for Pollination |journal=Journal of Chemical Ecology |date=3 November 2006 |volume=32 |issue=11 |pages=2429–2441 |doi=10.1007/s10886-006-9154-4|pmid=17082990 |bibcode= 2006JCEco..32.2429T|s2cid= 15812115}}{{cite journal|last=Tan|first=K.H.|year=2009|title=Fruit fly pests as pollinators of wild orchids|journal=Orchid Digest|volume=73|issue=3|pages=180–187}}{{cite journal |last1=Nakahira |first1=Masataka |last2=Ono |first2=Hajime |last3=Wee |first3=Suk Ling |last4=Tan |first4=Keng Hong |last5=Nishida |first5=Ritsuo |title=Floral synomone diversification of Bulbophyllum sibling species (Orchidaceae) in attracting fruit fly pollinators |journal=Biochemical Systematics and Ecology |date=December 2018 |volume=81 |pages=86–95 |doi=10.1016/j.bse.2018.10.002|bibcode=2018BioSE..81...86N |hdl=2433/235528 |s2cid=91933950 |hdl-access=free }}

To facilitate pollinarium removal and pollinia deposition, this group of orchids, particularly those that attract Dacini fruit flies, possesses a highly modified dynamic lip mechanism - either hinged or see-saw or spring lip (kept either in a close- or open-position depending on resupinate or non-resupinate flower, respectively). When an attracted fly has aligned itself to the opened lip, further probing, feeding and movement towards the lip base result in the lip to snap close, thereby, forcibly tipping the fly in to the column cavity to initiate pollinarium removal or pollinia deposition.Tan, K. H. 2009. Fruit fly pests as pollinators of wild orchids. Orchid Digest, 73(3): 180-187.Tan, K.H. and Nishida R, 2015 Pollination of bactrocerophilous Bulbophyllum Orchids. pp. 273-279. Proceedings of the 20th World Orchid Conference, Singapore, 2011. Singapore Botanic Gardens.Tan, K.H. and Tan, L.T. (2018) Movements of floral parts and roles of the tooth on column wall of Bulbophyllum praetervisum (Orchidaceae) flower for pollination by Dacini fruit flies (Diptera: Tephritidae). Journal of Pollination Ecology, 24(17): 157-163.

Bulbophyllum (abbreviated Bulb. in the horticultural trade)[https://www.rhs.org.uk/plants/pdfs/plant-registration-forms/orchid-name-abbreviations-list.pdf Alphabetical List of Standard Abbreviations for Natural and Hybrid Generic Names], Royal Horticultural Society, 2017. includes species that have been the focus of orchid collectors for over a century. The plants require high humidity combined with good air movement and most of them are ever-blooming - flowering continuously throughout the year. They grow best at moderate light levels, but do not thrive in deep shade. They are considered moderate-to-difficult to cultivate, and require a controlled growing environment to achieve some degree of success. They are not typically suitable as houseplants, and most will not thrive in a Wardian case unless they receive adequate air movement.

The plants' growth habit produces widely spaced pseudobulbs along cord-like rhizome sections, and most of these plants are best accommodated on plaques. Some species in this genus can get very large, but most are small to medium-sized epiphytes from warm, moist, humid tropical forests. They can grow continuously year round with no apparent dormancy period if they are kept warm, are moderate feeders in cultivation, and must be kept moist all the time. They can tolerate dryness for short periods, but they have fine root systems which require moist conditions all the time.Illustrated Encyclopedia of Orchids {{ISBN|0-88192-267-6}}

Some of the smaller species do well in pots with small-diameter bark substrate. The plants produce very fine roots generally, and the roots are easily damaged. The plants react poorly to disturbance of their roots. They are easy to maintain once a good environment is established with high humidity and a fresh, buoyant, lightly circulating atmosphere being critical. Most of these species cannot tolerate cold temperatures or freezing.

The flowers produce various odors resembling sap, urine, blood, dung, carrion, and, in some species, fragrant fruity aromas. Most are fly-pollinated, and attract hordes of flies. Bulbophyllum beccarii in bloom has been likened to smelling like a herd of dead elephants and both this species and Bulbophyllum fletcherianum are variously described as making it difficult to walk into a greenhouse in which they are being cultivated if the plants are in bloom because of their overpowering floral odors.

{{Main|List of Bulbophyllum species}}

Some species are known for their extreme vegetative and floral forms:

• Bulbophyllum beccarii
• Bulbophyllum barbigerum
• Bulbophyllum falcatum
• Bulbophyllum santosii
• Bulbophyllum macphersonii
• Bulbophyllum medusae

Some Bulbophyllum species are threatened with extinction, and are recognised as such by the World Conservation Union (IUCN):

• Bulbophyllum bifarium (vulnerable)
• Bulbophyllum filiforme (critically endangered)
• Bulbophyllum gravidum (vulnerable)
• Bulbophyllum jaapii (vulnerable)
• Bulbophyllum kupense (critically endangered)
• Bulbophyllum modicum (endangered)
• Bulbophyllum nigericum (vulnerable)
• Bulbophyllum pandanetorum (endangered)
• Bulbophyllum rubrolabellum (endangered)
• Bulbophyllum tokioi (endangered)

Image:Bulbophyllum baileyi var alba.jpg|B. baileyi var. alba

Image:Bulbophyllum_falcatum.jpg|B. falcatum

Image:Bulbophyllum-lepidum.jpg|B. flabellum-veneris

Image:Bulbophyllum-putidum.jpg|B. putidum

Image:Bulbophyllum-pectenveneris.jpg|B. pectenveneris

Image:B.translucidum.jpg |B.translucidum

{{Reflist}}

• J.J. Vermeulen : Orchid Monographs Vol. 7 (1993), A taxonomic revision of Bulbophyllum, sections Adelopetalum, Lepanthanthe, Macrouris, Pelma, Peltopus, and Uncifera (Orchidaceae). iv + 324 pp., 25 text-figs. + 116 full-page line drawings, 6 pp. colour plates. {{ISBN|90-71236-17-X}}
• Siegerist E.S.: - Bulbophyllums and their allies Timber Press, 2001, 77 colour photos, 296 pp {{ISBN|0-88192-506-3}} - devoted solely to Bulbophyllums, it is an introductory guide for amateur and advanced orchid growers.

{{Commons}}

• [http://www.bulbophyllum.at/index.php?l=english Bulbophyllum page]
• [http://bulbophyllum-checklist.bulbophyllum.at/ The Bulbophyllum - Checklist]

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Category:Dendrobieae genera

Category:Epiphytic orchids