Watermelon general and specific combining ability.

Watermelon general and specific combining ability.

The combining ability of six watermelon genotypes was estimated in a diallel cross scheme (6x6), including genotypes JNY (1), ?ORA? (2), ?KOD? (3), ?SOL? (4), ?CHG? (5), ?PEA? (6) and all possible hybrids between them. A randomized complete block design (RCB) was used, with 36 treatments, three blocks, and plots with five plants. The following traits were evaluated: days before female flower anthesis, main branch length, fruit mass, number of fruits per plant, yield, fruit length, fruit width, pulp firmness, soluble solids content, average rind thickness, seed length, seed width, and seed mass. The data obtained were submitted to analysis of variance, and a diallel analysis was performed according to Griffing?s experimental method I. According to the general combining ability estimates obtained, genotypes ?KOD? (3) and ?JNY? (1) were the most likely ones to produce hybrids with smaller-sized fruits and smaller seeds. The reciprocal effects confirmed that the results indicate that these genotypes should be used as pollen donors and pollen recipients, respectively. On the other hand, genotypes ?ORA? (2) and ?CHG? (5) can be used for the commercial exploitation of sliced watermelons. According to the specific combining ability estimates obtained, the combinations ?ORA? (2) x ?PEA? (6), ?ORA? (2) x ?JNY? (1), ?CHG? (5) x ?KOD? (3), ?PEA? (6) x ?KOD? (3), and ?CHG? (5) x ?SOL? (4) stood out as being the genotypes most likely to produce the smallest fruits and smallest seeds.

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Main Authors: NASCIMENTO, T. L. do, SOUZA, F. de F., DIAS, R. de C. S., SILVA, E. F. da
Other Authors: TIAGO LIMA DO NASCIMENTO, UFPE; FLAVIO DE FRANCA SOUZA, CPATSA; RITA DE CASSIA SOUZA DIAS, CPATSA; EDSON FERREIRA DA SILVA, UFPE.
Format: Artigo de periódico biblioteca
Language:Ingles
English
Published: Comunicata Scientiae, v. 10, n. 1, p. 132-140, 2019. 2022-10-11
Subjects:Análise dialélica, Melhoramento de plantas, Melancia, Citrullus Lanatus, Genótipo, Watermelons, Diallel analysis, Plant breeding,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1147292
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spelling dig-alice-doc-11472922022-10-11T18:08:40Z Watermelon general and specific combining ability. NASCIMENTO, T. L. do SOUZA, F. de F. DIAS, R. de C. S. SILVA, E. F. da TIAGO LIMA DO NASCIMENTO, UFPE; FLAVIO DE FRANCA SOUZA, CPATSA; RITA DE CASSIA SOUZA DIAS, CPATSA; EDSON FERREIRA DA SILVA, UFPE. Análise dialélica Melhoramento de plantas Melancia Citrullus Lanatus Genótipo Watermelons Diallel analysis Plant breeding The combining ability of six watermelon genotypes was estimated in a diallel cross scheme (6x6), including genotypes JNY (1), ?ORA? (2), ?KOD? (3), ?SOL? (4), ?CHG? (5), ?PEA? (6) and all possible hybrids between them. A randomized complete block design (RCB) was used, with 36 treatments, three blocks, and plots with five plants. The following traits were evaluated: days before female flower anthesis, main branch length, fruit mass, number of fruits per plant, yield, fruit length, fruit width, pulp firmness, soluble solids content, average rind thickness, seed length, seed width, and seed mass. The data obtained were submitted to analysis of variance, and a diallel analysis was performed according to Griffing?s experimental method I. According to the general combining ability estimates obtained, genotypes ?KOD? (3) and ?JNY? (1) were the most likely ones to produce hybrids with smaller-sized fruits and smaller seeds. The reciprocal effects confirmed that the results indicate that these genotypes should be used as pollen donors and pollen recipients, respectively. On the other hand, genotypes ?ORA? (2) and ?CHG? (5) can be used for the commercial exploitation of sliced watermelons. According to the specific combining ability estimates obtained, the combinations ?ORA? (2) x ?PEA? (6), ?ORA? (2) x ?JNY? (1), ?CHG? (5) x ?KOD? (3), ?PEA? (6) x ?KOD? (3), and ?CHG? (5) x ?SOL? (4) stood out as being the genotypes most likely to produce the smallest fruits and smallest seeds. 2022-10-11T18:08:32Z 2022-10-11T18:08:32Z 2022-10-11 2019 Artigo de periódico http://www.alice.cnptia.embrapa.br/alice/handle/doc/1147292 10.14295/CS.v10i1.2899 Ingles en openAccess Comunicata Scientiae, v. 10, n. 1, p. 132-140, 2019.
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language Ingles
English
topic Análise dialélica
Melhoramento de plantas
Melancia
Citrullus Lanatus
Genótipo
Watermelons
Diallel analysis
Plant breeding
Análise dialélica
Melhoramento de plantas
Melancia
Citrullus Lanatus
Genótipo
Watermelons
Diallel analysis
Plant breeding
spellingShingle Análise dialélica
Melhoramento de plantas
Melancia
Citrullus Lanatus
Genótipo
Watermelons
Diallel analysis
Plant breeding
Análise dialélica
Melhoramento de plantas
Melancia
Citrullus Lanatus
Genótipo
Watermelons
Diallel analysis
Plant breeding
NASCIMENTO, T. L. do
SOUZA, F. de F.
DIAS, R. de C. S.
SILVA, E. F. da
Watermelon general and specific combining ability.
description The combining ability of six watermelon genotypes was estimated in a diallel cross scheme (6x6), including genotypes JNY (1), ?ORA? (2), ?KOD? (3), ?SOL? (4), ?CHG? (5), ?PEA? (6) and all possible hybrids between them. A randomized complete block design (RCB) was used, with 36 treatments, three blocks, and plots with five plants. The following traits were evaluated: days before female flower anthesis, main branch length, fruit mass, number of fruits per plant, yield, fruit length, fruit width, pulp firmness, soluble solids content, average rind thickness, seed length, seed width, and seed mass. The data obtained were submitted to analysis of variance, and a diallel analysis was performed according to Griffing?s experimental method I. According to the general combining ability estimates obtained, genotypes ?KOD? (3) and ?JNY? (1) were the most likely ones to produce hybrids with smaller-sized fruits and smaller seeds. The reciprocal effects confirmed that the results indicate that these genotypes should be used as pollen donors and pollen recipients, respectively. On the other hand, genotypes ?ORA? (2) and ?CHG? (5) can be used for the commercial exploitation of sliced watermelons. According to the specific combining ability estimates obtained, the combinations ?ORA? (2) x ?PEA? (6), ?ORA? (2) x ?JNY? (1), ?CHG? (5) x ?KOD? (3), ?PEA? (6) x ?KOD? (3), and ?CHG? (5) x ?SOL? (4) stood out as being the genotypes most likely to produce the smallest fruits and smallest seeds.
author2 TIAGO LIMA DO NASCIMENTO, UFPE; FLAVIO DE FRANCA SOUZA, CPATSA; RITA DE CASSIA SOUZA DIAS, CPATSA; EDSON FERREIRA DA SILVA, UFPE.
author_facet TIAGO LIMA DO NASCIMENTO, UFPE; FLAVIO DE FRANCA SOUZA, CPATSA; RITA DE CASSIA SOUZA DIAS, CPATSA; EDSON FERREIRA DA SILVA, UFPE.
NASCIMENTO, T. L. do
SOUZA, F. de F.
DIAS, R. de C. S.
SILVA, E. F. da
format Artigo de periódico
topic_facet Análise dialélica
Melhoramento de plantas
Melancia
Citrullus Lanatus
Genótipo
Watermelons
Diallel analysis
Plant breeding
author NASCIMENTO, T. L. do
SOUZA, F. de F.
DIAS, R. de C. S.
SILVA, E. F. da
author_sort NASCIMENTO, T. L. do
title Watermelon general and specific combining ability.
title_short Watermelon general and specific combining ability.
title_full Watermelon general and specific combining ability.
title_fullStr Watermelon general and specific combining ability.
title_full_unstemmed Watermelon general and specific combining ability.
title_sort watermelon general and specific combining ability.
publisher Comunicata Scientiae, v. 10, n. 1, p. 132-140, 2019.
publishDate 2022-10-11
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1147292
work_keys_str_mv AT nascimentotldo watermelongeneralandspecificcombiningability
AT souzafdef watermelongeneralandspecificcombiningability
AT diasrdecs watermelongeneralandspecificcombiningability
AT silvaefda watermelongeneralandspecificcombiningability
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