'NARITA 10'
Left to right: ‘NARITA 10’, its female parent 917K-2 and its female grandparent ‘Enzirabahima’
3x
Synthetic hybrid
12477S-13
‘Enzirabahima’ (AAA), Musa acuminata ssp. burmannica (Calcutta 4), 'Sinwobogi' (AA), 'Tjau Lagada' (AA), Musa acuminata ssp. malaccensis and 'Guyod' Pisang Lilin’ (AA)’ (AA)
'NARITA 10' is a high-yielding and disease-resistant hybrid that is related, through its female grandparent, to a group of cooking and beer bananas called East African highland bananas (EAHB). ‘NARITA 10’ is named after NARO and IITA, the institutes that jointly developed tthe NARITA hybrids1 .
Two crosses were performed to obtain ‘NARITA 10’. The triploid EAHB cultivar ‘Enzirabahima’ was crossed with a wild source of disease resistance to produce a tetraploid. This tetraploid was then crossed with an improved diploid to produce the triploid hybrid ‘NARITA 10’ (see Breeding strategy below).
‘NARITA 10’ has been tested on station in Uganda2 and is being evaluated in a broader range of end-users environments (including farmers’ fields), to assess its potential for adoption by farmers and consumers3 . Its primary use is as a juice type.
Breeding strategy
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Breeding scheme for 'NARITA 10'
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‘NARITA 10’ is a secondary triploid obtained by crossing a disease-resistant tetraploid (917K-2) with an improved diploid developed by FHIA (SH3217)4 .
The tetraploid female parent 917K-2 was obtained by crossing the triploid EAHB cultivar ‘Enzirabahima’ and Calcutta 4, a genebank accession of the diploid wild species Musa acuminata ssp. burmannica, which provided a copy of the so-called A genome. Calcutta 4 provided the resistance to black leaf streak.
The diploid male parent SH3217 was the product of a cross between two improved diploids: SH2095 and SH2766. The parents of SH2095 were the products of a cross between 'Sinwobogi' (AA) and 'Tjau Lagada' (AA) and of a cross between Musa acuminata ssp. malaccensis and 'Guyod' (AA). The parents of the improved diploid SH2766 were 'Tjau Lagada' (AA) and the product of a cross between Musa acuminata ssp. malaccensis and 'Guyod' (AA).
Agronomic performance
The following agronomic data were collected during a preliminary yield trial carried out by IITA and NARO at Namulonge in Central Uganda4 :
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Traits
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NARITA 10*
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|---|---|
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Plant height at flowering (cm)
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302.7
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Pseudostem girth at flowering (cm)
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53.3
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Time from flowering to harvest (days)
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157.5
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Bunch weight (kg)
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19.8
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Number of hands
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9.2
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Number of fingers
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181.9
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Fruit circumference (cm)
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11.9
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Fruit length (cm)
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17.7
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Number of functional leaves at flowering
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8.1
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Number of functional leaves at harvest
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0.4
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Height of tallest sucker at flowering (cm)
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250.2
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Height of tallest sucker at harvest (cm)
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298.3
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Youngest leaf spotted at flowering
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6.2
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Youngest leaf spotted at harvest
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1.2
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Survival rate (%)
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80
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Reaction to diseases and pests
The scores for number of functional leaves and youngest leaf spotted at flowering and harvest indicate low resistance to black leaf streak.
References
See also on this website
- BITA-2
- BITA-3
- BRS Platina
- CRBP-39
- FHIA-01
- FHIA-02
- FHIA-03
- FHIA-17
- FHIA-18
- FHIA-20
- FHIA-21
- FHIA-23
- FHIA-25
- FLHORBAN 916
- FLHORBAN 920
- Formosana
- GCTCV-105
- GCTCV-119
- GCTCV-218
- Goldfinger
- Kabana 6H
- Kiwangaazi
- M9
- NARITA 1
- NARITA 10
- NARITA 11
- NARITA 12
- NARITA 13
- NARITA 14
- NARITA 15
- NARITA 16
- NARITA 17
- NARITA 18
- NARITA 19
- NARITA 2
- NARITA 20
- NARITA 21
- NARITA 22
- NARITA 23
- NARITA 24
- NARITA 25
- NARITA 26
- NARITA 27
- NARITA 3
- NARITA 4
- NARITA 5
- NARITA 6
- NARITA 7
- NARITA 8
- NARITA 9
External links
Official website of Uganda's National Agricultural Research Organization, NARO and its banana research program