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List of banana cultivars

February 16, 2024

The following is a list of banana cultivars and the groups into which they are classified. Almost all modern cultivated varieties (cultivars) of edible bananas and plantains are hybrids and polyploids of two wild, seeded banana species, Musa acuminata and Musa balbisiana. Cultivated bananas are almost always seedless (parthenocarpic) and hence sterile, so they are propagated vegetatively (cloned). They are classified into groups according to a genome-based system introduced by Ernest Cheesman, Norman Simmonds, and Ken Shepherd, which indicates the degree of genetic inheritance from the two wild parents and the number of chromosomes (ploidy). Cultivars derived from Musa acuminata are more likely to be used as dessert bananas, while those derived from Musa balbisiana and hybrids of the two are usually plantains or cooking bananas.[1][2][3]

Left to right: plantains, Red, Latundan, and Cavendish bananas.

Classification of cultivars edit

Banana plants were originally classified by Linnaeus into two species, which he called Musa paradisiaca – those used as cooking bananas (plantains), and M. sapientum – those used as dessert bananas. The primary center of diversity of cultivated bananas is Southeast Asia. Botanical exploration of this area led to many more species being named, along with subspecies and varieties. However, this approach proved inadequate to deal with the large number of cultivated varieties (cultivars) which were discovered, and many of the names later proved to be synonyms.[1] Furthermore, it was discovered that most cultivated bananas are actually hybrids between two wild species, M. acuminata and M. balbisiana, both first described in 1820 by the Italian botanist Luigi Aloysius Colla,[4] and that Linnaeus' two "species" were both this hybrid, which is now called M. × paradisiaca.[5] Unlike the wild species, which have seeds, cultivated bananas are almost always seedless (parthenocarpic) and hence sterile, so they have to be propagated vegetatively.

In 1955, researchers Norman Simmonds and Ken Shepherd proposed abandoning traditional Latin-based botanical names for cultivated bananas.[3] This approach foreshadowed the International Code of Nomenclature for Cultivated Plants which, in addition to using Latin names based on the International Code of Nomenclature for algae, fungi, and plants, gives cultivars names in a currently spoken language, enclosed in single quotes, and organizes them into "cultivar groups", also not given Latin names.[6]

Banana cultivars derived from M. acuminata and M. balbisiana can be classified into cultivar groups using two criteria. The first is the number of chromosomes: whether the plant is diploid, triploid or tetraploid. The second is relationship to the two ancestral species, which may be determined by genetic analysis or by a scoring system devised by Simmonds and Shepherd. A cultivar is scored on 15 characters, chosen because they differ between the two species. Each character is given a score between one and five according to whether it is typical of M. acuminata or of M. babisiana or is in between. Thus the total score for a cultivar will range from 15 if all characters agree with M. acuminata to 75 if all characters agree with M. balbisiana. Intermediate scores suggest mixed ancestry: for example, 45 would be expected for diploids with equal genetic contributions from both species.[7]

Groups are then named using a combination of the letters "A" and "B". The number of letters shows the ploidy; the proportion of As and Bs the contributions of the ancestral species. The AAB Group, for example, comprises triploid cultivars with more genetic inheritance from M. acuminata than M. balbisiana. A character score of around 35 is expected for members of this group. Within groups, cultivars may be divided into subgroups and then given a cultivar name, e.g. Musa AAA Group (Cavendish Subgroup) 'Robusta'.[7]

Characters used to classify banana cultivars derived from M. acuminata and M. balbisiana[7]
Character M. acuminata M. balbisiana
Color of pseudostem Black or grey-brown spots Unmarked or slightly marked
Petiole canal Erect edge, with scarred inferior leaves, not against the pseudostem Closed edge, without leaves, against the pseudostem
Stalk Covered with fine hair Smooth
Pedicels Short Long
Ovum Two regular rows in the locule Four irregular rows in the locule
Elbow of the bract Tall (< 0.28) Short (> 0.30)
Bend of the bract The bract wraps behind the opening The bract raises without bending behind the opening
Form of the bract Lance- or egg-shaped, tapering markedly after the bend Broadly egg-shaped
Peak of the bract Acute Obtuse
Color of the bract Dark red or yellow on the outside, opaque purple or yellow on the inside Brown-purple on the outside, crimson on the inside
Discoloration The inside of the bract is more bright toward the base The inside of the bract is uniform
Scarification of the bract Prominent Not prominent
Free tepal of the male flower Corrugated under the point Rarely corrugated
Color of the male flower White or cream Pink
Color of the markings Orange or bright yellow Cream, yellow, or pale pink

In practice, the scoring system and the associated grouping is not as straightforward as the Simmonds and Shepherd naming system implies. For example, a member of the AAB Group should have a score about one third of the way between M. acuminata and M. balbisiana (i.e. about 35) if one third of its chromosomes come from M. balbisiana. However, the cultivars 'Silk' and 'Pome', both classified in the AAB Group, scored 26 and 46 respectively. The cultivar 'Pelipita' is placed in the ABB group, so should have 11 of its 33 chromosomes derived from M. acuminata. However, a technique called "genomic in situ hybridization" (GISH) showed that actually only 8 chromosomes were of this origin. Other lines of evidence suggest a more complex genome structure is present in other banana cultivars, so the group names should not be taken at face value.[8]

Cultivars edit

The total number of cultivars of bananas and plantains has been estimated to be anything from around 300 to more than 1000. Names are highly confused, even within a single country. Many common names do not refer to a single cultivar or clone; for example 'Lady's Finger' or 'Lady Finger' has been used as the name for members of different genome groups, including AA and AAB. Many other names are synonyms of cultivars grown in the same or different countries.[9] Attempts have been made to create lists of synonyms. In 2000, Valmayor et al. listed equivalent local names for 68 cultivars across five Southeast Asian countries (the Philippines, Malaysia, Indonesia, Thailand and Vietnam), together with their internationally used names. They considered a further 81 cultivars to be unique to one country.[1] In 2007, Ploetz et al. listed more cultivar names and synonyms, with an emphasis on those grown in the islands of the Pacific, but including some grown in areas such as India, Africa and South America. As an example, for the widely grown cultivar 'Dwarf Cavendish', they gave 58 synonyms from 29 countries or geographical areas.[9] ProMusa has created a checklist of banana cultivar names based on available literature.[10]

A recent development is the use of "somaclones" in banana cultivation. Micropropagation involves growing plants from very small amounts of source tissue, sometimes even a single cell, under sterile conditions using artificial techniques to induce growth from mitochondrial relief systems. The purpose of micropropagation is often to produce a large number of genetically identical offspring in the manner of Shannon et al. However, by inducing mutations through various means, it is possible to produce plants which differ slightly from the "parent" plant and from each other ("somaclonal variations"). By growing on these somaclones and selecting those with desirable features, new cultivars can be produced which are very similar to an existing cultivar, but differ in one or two features, such as disease resistance. Somaclones may only be distinguishable by genetic analysis.[11]

Musa section edit

Musa × paradisiaca is the name for hybrids between Musa acuminata (A) and Musa balbisiana (B), both in Musa section Musa.

AA Group edit

Diploid Musa acuminata, both wild banana plants and cultivars

AAA Group edit

Triploid Musa acuminata, both wild banana plants and cultivars

AAAA Group edit

Tetraploid Musa acuminata, both wild bananas and cultivars

  • Bodles Altafort banana
  • Golden Beauty banana

AAAB Group edit

Tetraploid cultivars of Musa × paradisiaca

AAB Group edit

Triploid cultivars of Musa × paradisiaca. This group contains the Plantain subgroup, composed of "true" plantains or African Plantains. The AAB Group's centre of diversity is Central and West Africa, where a large number of cultivars were domesticated following the introduction of ancestral Plantains from Asia, possibly 2000–3000 years ago.[15]

The Iholena and Maoli-Popo'ulu subgroups are referred to as Pacific plantains.[9]

  • Iholena subgroup - subgroup of cooking bananas domesticated in the Pacific region[16]
  • Maoli-Popo'ulu subgroup - subgroup of cooking bananas domesticated in the Pacific region[16]
    • Maqueño banana
    • Popoulu banana
  • Mysore subgroup - cooking and dessert bananas[17]
    • Mysore banana
  • Pisang Raja subgroup
    • Pisang Raja banana
  • Plantain subgroup[15]
  • Pome subgroup
    • Pome banana
    • Prata-anã banana (Dwarf Brazilian banana, Dwarf Prata)
  • Silk subgroup
  • Others
    • Pisang Seribu banana[13]
    • Plu banana

AABB Group edit

Tetraploid cultivars of Musa × paradisiaca

AB Group edit

Diploid cultivars of Musa × paradisiaca

  • Ney Poovan banana

ABB Group edit

Triploid cultivars of Musa × paradisiaca

  • Blue Java banana (Ice Cream banana, Ney mannan, Ash plantain, Pata hina, Dukuru, Vata)
  • Bluggoe Subgroup
  • Bluggoe banana (also known as orinoco and "burro")[18]
  • Silver Bluggoe banana
  • Pelipita banana (Pelipia, Pilipia)
  • Saba Subgroup

ABBB Group edit

Tetraploid cultivars of Musa × paradisiaca

  • Tiparot banana

BB Group edit

Diploid Musa balbisiana, wild bananas

Callimusa section edit

Cultivars of Musa lolodensis, Musa maclayi and Musa peekelii belong in Musa section Callimusa.

See also edit

References edit

  1. ^ a b c Valmayor, Ramón V.; Jamaluddin, S.H.; Silayoi, B.; Kusumo, S.; Danh, L.D.; Pascua, O.C. & Espino, R.R.C. (2000). (PDF). Los Baños, Philippines: International Network for Improvement of Banana and Plantain – Asia and the Pacific Office. ISBN 978-971-91751-2-4. Archived from the original (PDF) on 2013-05-30. Retrieved 2013-01-08.
  2. ^ Constantine, David R. (2008). . Archived from the original on 2012-10-08. Retrieved 2013-01-08.
  3. ^ a b Porcher, Michel H. "Sorting Musa names". The University of Melbourne. Retrieved 2013-01-08.
  4. ^ Constantine, D.R. (2003). "Musa paradisiaca". Retrieved 2014-07-23.
  5. ^ "Musa paradisiaca". World Checklist of Selected Plant Families. Royal Botanic Gardens, Kew. Retrieved 2013-01-06.
  6. ^ Brickell, C.D. et al. (eds) (2009). (PDF). Vol. 10 (8th ed.). International Society of Horticultural Science. pp. 1–184. ISBN 978-0-643-09440-6. Archived from the original (PDF) on 2011-08-13. Retrieved 2013-01-08. {{cite book}}: |first= has generic name (help); |journal= ignored (help)
  7. ^ a b c "Nomenclature system for cultivated bananas". Promusa, Bioversity International. Retrieved 2013-01-08. {{cite web}}: External link in |publisher= (help)
  8. ^ De Langhe, Edmond; Hřibová, Eva; Carpentier, Sebastien; Doležel, Jaroslav & Swennen, Rony (2010). "Did backcrossing contribute to the origin of hybrid edible bananas?". Annals of Botany. 106 (6): 849–857. doi:10.1093/aob/mcq187. PMC 2990659. PMID 20858591.
  9. ^ a b c Ploetz, R.C.; Kepler, A.K.; Daniells, J. & Nelson, S.C. (2007). "Banana and Plantain: An Overview with Emphasis on Pacific Island Cultivars". In Elevitch, C.R (ed.). Species Profiles for Pacific Island Agroforestry (PDF). Hōlualoa, Hawai'i: Permanent Agriculture Resources (PAR). Retrieved 2013-01-10.
  10. ^ "Banana cultivar checklist".
  11. ^ Bidabadi, Siamak Shirani; Meon, Sariah; Wahab, Zakaria & Mahmood, Maziah (2010). "Study of Genetic and Phenotypic Variability among Somaclones Induced by BAP and TDZ in Micropropagated Shoot Tips of Banana (Musa spp.) Using RAPD Markers". Journal of Agricultural Science. 2 (3): 49–60. doi:10.5539/jas.v2n3P49.
  12. ^ FS dela Cruz Jr.; LS Gueco; OP Damasco; VC Huelgas; FM dela Cueva; TO Dizon; MLJ Sison; IG Banasihan; VO Sinohin & AB Molina, Jr. (2008). (PDF). Bioversity International. ISBN 9789719175186. Archived from the original (PDF) on 2014-07-14. Retrieved 2013-01-17.
  13. ^ a b c d e f g Molina, A.B.; Roa, V.N. (2000). Advancing Banana and Plantain R and D in Asia and the Pacific. International Plant Genetic Resources Institute. p. 3. ISBN 978-971-91751-3-1. Retrieved 2021-12-08.
  14. ^ Hasan Pinar; Mustafa Unlu; Mustafa Bircan; Filiz Baysal; Gulsemin Savas Tuna; Metin Tuna; Sezai Ercisli (2015). "Genetic characterization of banana clones grown in Turkey based on nuclear DNA content and SRAP markers". Journal of Applied Botany and Food Quality. 88 (2015): 222–227. doi:10.5073/JABFQ.2015.088.032.
  15. ^ a b "Plantain subgroup".
  16. ^ a b "Iholena subgroup".
  17. ^ C. Rajamanickam. K. Rajmohan - Genetic Diversity in Banana (Musa spp.)[permanent dead link]
  18. ^ "Musa Orinoco". Bananas Wiki. 28 December 2021. Retrieved 2021-12-28.

Further reading edit

  • Australian Government (2008). (PDF). Dept. of Health & Ageing - Office of the Gene Technology Regulator. Archived from the original (PDF) on 2012-12-03. Retrieved 2013-01-08.

External links edit

  • Information portal on banana cultivars

February 16, 2024
list, banana, cultivars, this, list, incomplete, help, adding, missing, items, february, 2011, following, list, banana, cultivars, groups, into, which, they, classified, almost, modern, cultivated, varieties, cultivars, edible, bananas, plantains, hybrids, pol. This list is incomplete you can help by adding missing items February 2011 The following is a list of banana cultivars and the groups into which they are classified Almost all modern cultivated varieties cultivars of edible bananas and plantains are hybrids and polyploids of two wild seeded banana species Musa acuminata and Musa balbisiana Cultivated bananas are almost always seedless parthenocarpic and hence sterile so they are propagated vegetatively cloned They are classified into groups according to a genome based system introduced by Ernest Cheesman Norman Simmonds and Ken Shepherd which indicates the degree of genetic inheritance from the two wild parents and the number of chromosomes ploidy Cultivars derived from Musa acuminata are more likely to be used as dessert bananas while those derived from Musa balbisiana and hybrids of the two are usually plantains or cooking bananas 1 2 3 Left to right plantains Red Latundan and Cavendish bananas Contents 1 Classification of cultivars 2 Cultivars 2 1 Musa section 2 1 1 AA Group 2 1 2 AAA Group 2 1 3 AAAA Group 2 1 4 AAAB Group 2 1 5 AAB Group 2 1 6 AABB Group 2 1 7 AB Group 2 1 8 ABB Group 2 1 9 ABBB Group 2 1 10 BB Group 2 2 Callimusa section 3 See also 4 References 5 Further reading 6 External linksClassification of cultivars editBanana plants were originally classified by Linnaeus into two species which he called Musa paradisiaca those used as cooking bananas plantains and M sapientum those used as dessert bananas The primary center of diversity of cultivated bananas is Southeast Asia Botanical exploration of this area led to many more species being named along with subspecies and varieties However this approach proved inadequate to deal with the large number of cultivated varieties cultivars which were discovered and many of the names later proved to be synonyms 1 Furthermore it was discovered that most cultivated bananas are actually hybrids between two wild species M acuminata and M balbisiana both first described in 1820 by the Italian botanist Luigi Aloysius Colla 4 and that Linnaeus two species were both this hybrid which is now called M paradisiaca 5 Unlike the wild species which have seeds cultivated bananas are almost always seedless parthenocarpic and hence sterile so they have to be propagated vegetatively In 1955 researchers Norman Simmonds and Ken Shepherd proposed abandoning traditional Latin based botanical names for cultivated bananas 3 This approach foreshadowed the International Code of Nomenclature for Cultivated Plants which in addition to using Latin names based on the International Code of Nomenclature for algae fungi and plants gives cultivars names in a currently spoken language enclosed in single quotes and organizes them into cultivar groups also not given Latin names 6 Banana cultivars derived from M acuminata and M balbisiana can be classified into cultivar groups using two criteria The first is the number of chromosomes whether the plant is diploid triploid or tetraploid The second is relationship to the two ancestral species which may be determined by genetic analysis or by a scoring system devised by Simmonds and Shepherd A cultivar is scored on 15 characters chosen because they differ between the two species Each character is given a score between one and five according to whether it is typical of M acuminata or of M babisiana or is in between Thus the total score for a cultivar will range from 15 if all characters agree with M acuminata to 75 if all characters agree with M balbisiana Intermediate scores suggest mixed ancestry for example 45 would be expected for diploids with equal genetic contributions from both species 7 Groups are then named using a combination of the letters A and B The number of letters shows the ploidy the proportion of As and Bs the contributions of the ancestral species The AAB Group for example comprises triploid cultivars with more genetic inheritance from M acuminata than M balbisiana A character score of around 35 is expected for members of this group Within groups cultivars may be divided into subgroups and then given a cultivar name e g Musa AAA Group Cavendish Subgroup Robusta 7 Characters used to classify banana cultivars derived from M acuminata and M balbisiana 7 Character M acuminata M balbisianaColor of pseudostem Black or grey brown spots Unmarked or slightly markedPetiole canal Erect edge with scarred inferior leaves not against the pseudostem Closed edge without leaves against the pseudostemStalk Covered with fine hair SmoothPedicels Short LongOvum Two regular rows in the locule Four irregular rows in the loculeElbow of the bract Tall lt 0 28 Short gt 0 30 Bend of the bract The bract wraps behind the opening The bract raises without bending behind the openingForm of the bract Lance or egg shaped tapering markedly after the bend Broadly egg shapedPeak of the bract Acute ObtuseColor of the bract Dark red or yellow on the outside opaque purple or yellow on the inside Brown purple on the outside crimson on the insideDiscoloration The inside of the bract is more bright toward the base The inside of the bract is uniformScarification of the bract Prominent Not prominentFree tepal of the male flower Corrugated under the point Rarely corrugatedColor of the male flower White or cream PinkColor of the markings Orange or bright yellow Cream yellow or pale pinkIn practice the scoring system and the associated grouping is not as straightforward as the Simmonds and Shepherd naming system implies For example a member of the AAB Group should have a score about one third of the way between M acuminata and M balbisiana i e about 35 if one third of its chromosomes come from M balbisiana However the cultivars Silk and Pome both classified in the AAB Group scored 26 and 46 respectively The cultivar Pelipita is placed in the ABB group so should have 11 of its 33 chromosomes derived from M acuminata However a technique called genomic in situ hybridization GISH showed that actually only 8 chromosomes were of this origin Other lines of evidence suggest a more complex genome structure is present in other banana cultivars so the group names should not be taken at face value 8 Cultivars editThe total number of cultivars of bananas and plantains has been estimated to be anything from around 300 to more than 1000 Names are highly confused even within a single country Many common names do not refer to a single cultivar or clone for example Lady s Finger or Lady Finger has been used as the name for members of different genome groups including AA and AAB Many other names are synonyms of cultivars grown in the same or different countries 9 Attempts have been made to create lists of synonyms In 2000 Valmayor et al listed equivalent local names for 68 cultivars across five Southeast Asian countries the Philippines Malaysia Indonesia Thailand and Vietnam together with their internationally used names They considered a further 81 cultivars to be unique to one country 1 In 2007 Ploetz et al listed more cultivar names and synonyms with an emphasis on those grown in the islands of the Pacific but including some grown in areas such as India Africa and South America As an example for the widely grown cultivar Dwarf Cavendish they gave 58 synonyms from 29 countries or geographical areas 9 ProMusa has created a checklist of banana cultivar names based on available literature 10 A recent development is the use of somaclones in banana cultivation Micropropagation involves growing plants from very small amounts of source tissue sometimes even a single cell under sterile conditions using artificial techniques to induce growth from mitochondrial relief systems The purpose of micropropagation is often to produce a large number of genetically identical offspring in the manner of Shannon et al However by inducing mutations through various means it is possible to produce plants which differ slightly from the parent plant and from each other somaclonal variations By growing on these somaclones and selecting those with desirable features new cultivars can be produced which are very similar to an existing cultivar but differ in one or two features such as disease resistance Somaclones may only be distinguishable by genetic analysis 11 Musa section edit Musa paradisiaca is the name for hybrids between Musa acuminata A and Musa balbisiana B both in Musa section Musa AA Group edit Diploid Musa acuminata both wild banana plants and cultivars Chingan banana Lacatan banana Lady Finger banana Sugar banana Pisang jari buaya Crocodile fingers banana Senorita banana Monkoy Arnibal banana Cuarenta dias Carinosa Pisang Empat Puluh Hari Pisang Lampung 12 Sinwobogi banana Pisang Lilin 13 Pisang Muli 13 Pisang Kapas 13 AAA Group edit Triploid Musa acuminata both wild banana plants and cultivars Cavendish Subgroup Dwarf Cavendish Giant Cavendish Williams Formosana GCTCV 218 a variant with some resistance to Fusarium wilt TR4 Grand Nain Chiquita Masak Hijau Robusta Azman 14 grown in Turkey Red Dacca Dwarf Red banana Flhorban 920 Gros Michel banana East African Highland bananas AAA EA subgroup Pisang Susu Kluai Nam Nom 13 Pisang Ampyang 13 Pisang Palembang 13 AAAA Group edit Tetraploid Musa acuminata both wild bananas and cultivars Bodles Altafort banana Golden Beauty bananaAAAB Group edit Tetraploid cultivars of Musa paradisiaca Atan banana Goldfinger bananaAAB Group edit Triploid cultivars of Musa paradisiaca This group contains the Plantain subgroup composed of true plantains or African Plantains The AAB Group s centre of diversity is Central and West Africa where a large number of cultivars were domesticated following the introduction of ancestral Plantains from Asia possibly 2000 3000 years ago 15 The Iholena and Maoli Popo ulu subgroups are referred to as Pacific plantains 9 Iholena subgroup subgroup of cooking bananas domesticated in the Pacific region 16 Maoli Popo ulu subgroup subgroup of cooking bananas domesticated in the Pacific region 16 Maqueno banana Popoulu banana Mysore subgroup cooking and dessert bananas 17 Mysore banana Pisang Raja subgroup Pisang Raja banana Plantain subgroup 15 French plantain Cooking banana Green French banana Horn plantain amp Rhino Horn banana Nendran banana Pink French banana Tiger banana Pome subgroup Pome banana Prata ana banana Dwarf Brazilian banana Dwarf Prata Silk subgroup Latundan banana Silk banana Apple banana Pisang Raja Sereh Others Pisang Seribu banana 13 Plu bananaAABB Group edit Tetraploid cultivars of Musa paradisiaca Kalamagol banana Pisang Awak Ducasse banana AB Group edit Diploid cultivars of Musa paradisiaca Ney Poovan bananaABB Group edit Triploid cultivars of Musa paradisiaca Blue Java banana Ice Cream banana Ney mannan Ash plantain Pata hina Dukuru Vata Bluggoe SubgroupBluggoe banana also known as orinoco and burro 18 Silver Bluggoe bananaPelipita banana Pelipia Pilipia Saba SubgroupSaba banana Cardaba Dippig Cardaba banana Benedetta bananaABBB Group edit Tetraploid cultivars of Musa paradisiaca Tiparot bananaBB Group edit Diploid Musa balbisiana wild bananas Callimusa section edit Cultivars of Musa lolodensis Musa maclayi and Musa peekelii belong in Musa section Callimusa Fe i bananaSee also editLists of cultivars Musa genus True plantainsReferences edit a b c Valmayor Ramon V Jamaluddin S H Silayoi B Kusumo S Danh L D Pascua O C amp Espino R R C 2000 Banana cultivar names and synonyms in Southeast Asia PDF Los Banos Philippines International Network for Improvement of Banana and Plantain Asia and the Pacific Office ISBN 978 971 91751 2 4 Archived from the original PDF on 2013 05 30 Retrieved 2013 01 08 Constantine David R 2008 Musa home Archived from the original on 2012 10 08 Retrieved 2013 01 08 a b Porcher Michel H Sorting Musa names The University of Melbourne Retrieved 2013 01 08 Constantine D R 2003 Musa paradisiaca Retrieved 2014 07 23 Musa paradisiaca World Checklist of Selected Plant Families Royal Botanic Gardens Kew Retrieved 2013 01 06 Brickell C D et al eds 2009 International Code of Nomenclature for Cultivated Plants PDF Vol 10 8th ed International Society of Horticultural Science pp 1 184 ISBN 978 0 643 09440 6 Archived from the original PDF on 2011 08 13 Retrieved 2013 01 08 a href Template Cite book html title Template Cite book cite book a first has generic name help journal ignored help a b c Nomenclature system for cultivated bananas Promusa Bioversity International Retrieved 2013 01 08 a href Template Cite web html title Template Cite web cite web a External link in code class cs1 code publisher code help De Langhe Edmond Hribova Eva Carpentier Sebastien Dolezel Jaroslav amp Swennen Rony 2010 Did backcrossing contribute to the origin of hybrid edible bananas Annals of Botany 106 6 849 857 doi 10 1093 aob mcq187 PMC 2990659 PMID 20858591 a b c Ploetz R C Kepler A K Daniells J amp Nelson S C 2007 Banana and Plantain An Overview with Emphasis on Pacific Island Cultivars In Elevitch C R ed Species Profiles for Pacific Island Agroforestry PDF Hōlualoa Hawai i Permanent Agriculture Resources PAR Retrieved 2013 01 10 Banana cultivar checklist Bidabadi Siamak Shirani Meon Sariah Wahab Zakaria amp Mahmood Maziah 2010 Study of Genetic and Phenotypic Variability among Somaclones Induced by BAP and TDZ in Micropropagated Shoot Tips of Banana Musa spp Using RAPD Markers Journal of Agricultural Science 2 3 49 60 doi 10 5539 jas v2n3P49 FS dela Cruz Jr LS Gueco OP Damasco VC Huelgas FM dela Cueva TO Dizon MLJ Sison IG Banasihan VO Sinohin amp AB Molina Jr 2008 Farmers Handbook on Introduced and Local Banana Cultivars in the Philippines PDF Bioversity International ISBN 9789719175186 Archived from the original PDF on 2014 07 14 Retrieved 2013 01 17 a b c d e f g Molina A B Roa V N 2000 Advancing Banana and Plantain R and D in Asia and the Pacific International Plant Genetic Resources Institute p 3 ISBN 978 971 91751 3 1 Retrieved 2021 12 08 Hasan Pinar Mustafa Unlu Mustafa Bircan Filiz Baysal Gulsemin Savas Tuna Metin Tuna Sezai Ercisli 2015 Genetic characterization of banana clones grown in Turkey based on nuclear DNA content and SRAP markers Journal of Applied Botany and Food Quality 88 2015 222 227 doi 10 5073 JABFQ 2015 088 032 a b Plantain subgroup a b Iholena subgroup C Rajamanickam K Rajmohan Genetic Diversity in Banana Musa spp permanent dead link Musa Orinoco Bananas Wiki 28 December 2021 Retrieved 2021 12 28 Further reading editAustralian Government 2008 The Biology of Musa L banana PDF Dept of Health amp Ageing Office of the Gene Technology Regulator Archived from the original PDF on 2012 12 03 Retrieved 2013 01 08 External links editInformation portal on banana cultivars Retrieved from https en wikipedia org w index php title List of banana cultivars amp oldid 1183132805, wikipedia, wiki, book, books, library,

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