Hybrid Vigor and Heritability Estimates in Tomato Crosses Involving Solanum lycopersicum × S. pimpinellifolium under Cool Tropical Monsoon Climate

High humidity is a major constraint to increased tomato fruit production in a cool tropical monsoon climate. However, the genetic variation observed in Solanum pimpinellifolium makes it a good gene donor for breeding tomato cultivars capable of thriving under high humidity. The objective of this stu...

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Published inInternational Journal of Agronomy Vol. 2023; pp. 1 - 17
Main Authors Ene, Chikezie Onuora, Abtew, Wosene Gebreselassie, Oselebe, Happiness Ogba, Ozi, Friday Ugadu, Ogah, Onwuchekwa, Okechukwu, Emeka Chibuzor, Chukwudi, Uchechukwu Paschal
Format Journal Article
LanguageEnglish
Published New York Hindawi 25.01.2023
John Wiley & Sons, Inc
Hindawi Limited
Subjects
Adaptability
Agricultural production
Autosomal dominant inheritance
Climate
Crop diseases
Crop production
Crop yield
Crop yields
Cultivars
Divergence
Flowers & plants
Fruits
Genetic aspects
Genetic diversity
Genotype & phenotype
Genotypes
Heritability
Heterosis
Humidity
Hybrid vigor
Hybridization
Hybrids
Monsoons
Ovaries
Plant breeding
Pollen
Solanum pimpinellifolium
Tomatoes
Vegetable industry
Wind
Nigeria
Ethiopia
India
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Abstract High humidity is a major constraint to increased tomato fruit production in a cool tropical monsoon climate. However, the genetic variation observed in Solanum pimpinellifolium makes it a good gene donor for breeding tomato cultivars capable of thriving under high humidity. The objective of this study was to estimate heterosis, heritability for higher yield, and to assess the adaptability of the genotypes to humid conditions. Genotypes were raised from five morphologically divergent parents, viz., wild parent (W)–“LA2093,” “CLN2498D” (D), “CLN2417H” (H), “Tima” (T), and “UC Dan INDIA” (U). The F1s were generated by biparental mating design using “LA2093” as a common pollen donor that was selfed to produce F2s and backcrossed to both parents to obtain BC1s and BC2s. The trial was laid out in a randomized complete block design with three replicates. Data were collected on selected yield-influencing traits and analyzed. “D × W” and “U × W” hybrids showed significant positive better parent heterosis for fruit weight per plant (30.4% and 35.5%) and total fruit yield (48.6% and 26.9%), respectively. The additive variance was higher than dominance variance for all the traits, including total fruit yield in all hybrids viz., “H × W,” “D × W,” “T × W,” and “U × W.” High narrow sense heritability estimate of ≥60% was observed in “D × W” and “U × W” hybrids for the majority of the floral and fruit traits including total fruit yield. This makes the improvement of “D × W” and “U × W” hybrids by direct selection advantageous. Hence, the adoption of selection for the affected traits in subsequent tomato breeding programs would enhance fruit yield and adaptability to humid environments.
AbstractList High humidity is a major constraint to increased tomato fruit production in a cool tropical monsoon climate. However, the genetic variation observed in Solanum pimpinellifolium makes it a good gene donor for breeding tomato cultivars capable of thriving under high humidity. The objective of this study was to estimate heterosis, heritability for higher yield, and to assess the adaptability of the genotypes to humid conditions. Genotypes were raised from five morphologically divergent parents, viz., wild parent (W)–“LA2093,” “CLN2498D” (D), “CLN2417H” (H), “Tima” (T), and “UC Dan INDIA” (U). The F1s were generated by biparental mating design using “LA2093” as a common pollen donor that was selfed to produce F2s and backcrossed to both parents to obtain BC1s and BC2s. The trial was laid out in a randomized complete block design with three replicates. Data were collected on selected yield-influencing traits and analyzed. “D × W” and “U × W” hybrids showed significant positive better parent heterosis for fruit weight per plant (30.4% and 35.5%) and total fruit yield (48.6% and 26.9%), respectively. The additive variance was higher than dominance variance for all the traits, including total fruit yield in all hybrids viz., “H × W,” “D × W,” “T × W,” and “U × W.” High narrow sense heritability estimate of ≥60% was observed in “D × W” and “U × W” hybrids for the majority of the floral and fruit traits including total fruit yield. This makes the improvement of “D × W” and “U × W” hybrids by direct selection advantageous. Hence, the adoption of selection for the affected traits in subsequent tomato breeding programs would enhance fruit yield and adaptability to humid environments.
High humidity is a major constraint to increased tomato fruit production in a cool tropical monsoon climate. However, the genetic variation observed in Solanum pimpinellifolium makes it a good gene donor for breeding tomato cultivars capable of thriving under high humidity. The objective of this study was to estimate heterosis, heritability for higher yield, and to assess the adaptability of the genotypes to humid conditions. Genotypes were raised from five morphologically divergent parents, viz., wild parent (W)-“LA2093,” “CLN2498D” (D), “CLN2417H” (H), “Tima” (T), and “UC Dan INDIA” (U). The F[sub.1]s were generated by biparental mating design using “LA2093” as a common pollen donor that was selfed to produce F[sub.2]s and backcrossed to both parents to obtain BC[sub.1]s and BC[sub.2]s. The trial was laid out in a randomized complete block design with three replicates. Data were collected on selected yield-influencing traits and analyzed. “D×W” and “U×W” hybrids showed significant positive better parent heterosis for fruit weight per plant (30.4% and 35.5%) and total fruit yield (48.6% and 26.9%), respectively. The additive variance was higher than dominance variance for all the traits, including total fruit yield in all hybrids viz., “H×W,” “D×W,” “T×W,” and “U×W.” High narrow sense heritability estimate of ≥60% was observed in “D×W” and “U×W” hybrids for the majority of the floral and fruit traits including total fruit yield. This makes the improvement of “D×W” and “U×W” hybrids by direct selection advantageous. Hence, the adoption of selection for the affected traits in subsequent tomato breeding programs would enhance fruit yield and adaptability to humid environments.
Audience Academic
Author Chukwudi, Uchechukwu Paschal
Ozi, Friday Ugadu
Ene, Chikezie Onuora
Abtew, Wosene Gebreselassie
Oselebe, Happiness Ogba
Okechukwu, Emeka Chibuzor
Ogah, Onwuchekwa
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Snippet High humidity is a major constraint to increased tomato fruit production in a cool tropical monsoon climate. However, the genetic variation observed in Solanum...
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SubjectTerms Adaptability
Agricultural production
Autosomal dominant inheritance
Climate
Crop diseases
Crop production
Crop yield
Crop yields
Cultivars
Divergence
Flowers & plants
Fruits
Genetic aspects
Genetic diversity
Genotype & phenotype
Genotypes
Heritability
Heterosis
Humidity
Hybrid vigor
Hybridization
Hybrids
Monsoons
Ovaries
Plant breeding
Pollen
Solanum pimpinellifolium
Tomatoes
Vegetable industry
Wind
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Title Hybrid Vigor and Heritability Estimates in Tomato Crosses Involving Solanum lycopersicum × S. pimpinellifolium under Cool Tropical Monsoon Climate
URI https://dx.doi.org/10.1155/2023/3003355
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https://doaj.org/article/f76d9d464a184a52b2065def49d03f07
Volume 2023
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