Characterization of Paspalum genotypes for turfgrass cultivars development.

Characterization of Paspalum genotypes for turfgrass cultivars development.

Show other versions (1)

The characterization of genetic resources is essential to carry out a breeding program. This study aimed to characterize Paspalum genotypes with potential use as soil surface covering to support breeding programs on the development of turf cultivars. Forty-three Paspalum genotypes, comprising 11 species, were evaluated. The embryo-sacs structure was determined by cleared ovaries analysis and eight accessions were classified as sexual, 15 as apomictic, and 20 presenting facultative apomixis. Most of the genotypes have 40 chromosomes, with the exception of one accession of Paspalum vaginatum, two of Paspalum indecorum, one of Paspalum modestum, and two of Paspalum notatum that have 20 and one accession of Paspalum jesuiticum and one of Paspalum mandiocanum that have 60 chromosomes. DNA content was determined by flow cytometry, ranging from 1.35 to 4.00 pg of DNA, with most of the accessions corresponding to tetraploidy, but also diploidy and hexaploidy were found, corroborating chromosome counts. High genetic variability was found among the 43 accessions based on 11 microsatellite markers and their use to estimate Jaccard similarity coefficients and Bayesian analysis, forming six different genetic groups. Considering only the P. notatum accessions, great variability was observed with four distinct groups formed. The results presented in this work reveal the possibility to obtain assertive crosses between compatible parents, aiming to explore the genetic variability between and within species of this genus.

Saved in:
Bibliographic Details
Main Authors: MATTA, F. de P., FAVERO, A. P., VIGNA, B. B. Z., CAVALLARI, M. M., ALVES, F., OLIVEIRA, F. A. de, SOUZA, A. P. de, POZZOBON, M. T., AZEVEDO, A. L. S., GUSMAO, M. R.
Other Authors: FREDERICO DE PINA MATTA, CPPSE
Format: Artigo de periódico biblioteca
Language:eng
Published: 2024-04-12
Subjects:Variabilidade genética, Grama, Gramínea, Genetic variation,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1163536
http://doi.org/10.1002/csc2.21233
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-alice-doc-1163536
record_format koha
spelling dig-alice-doc-11635362024-04-12T11:34:05Z Characterization of Paspalum genotypes for turfgrass cultivars development. MATTA, F. de P. FAVERO, A. P. VIGNA, B. B. Z. CAVALLARI, M. M. ALVES, F. OLIVEIRA, F. A. de SOUZA, A. P. de POZZOBON, M. T. AZEVEDO, A. L. S. GUSMAO, M. R. FREDERICO DE PINA MATTA, CPPSE ALESSANDRA PEREIRA FAVERO, CPPSE BIANCA BACCILI ZANOTTO VIGNA, CPPSE MARCELO MATTOS CAVALLARI, CPPSE FABIO ALVES, UNIVERSIDADE ESTADUAL DE CAMPINAS FERNANDA ANCELMO DE OLIVEIRA, UNIVERSIDADE ESTADUAL DE CAMPINAS ANETE PEREIRA DE SOUZA, UNIVERSIDADE ESTADUAL DE CAMPINAS MARISA TONIOLO POZZOBON, CENARGEN ANA LUISA SOUSA AZEVEDO, CNPGL MARCOS RAFAEL GUSMAO, CPPSE. Variabilidade genética Grama Gramínea Genetic variation The characterization of genetic resources is essential to carry out a breeding program. This study aimed to characterize Paspalum genotypes with potential use as soil surface covering to support breeding programs on the development of turf cultivars. Forty-three Paspalum genotypes, comprising 11 species, were evaluated. The embryo-sacs structure was determined by cleared ovaries analysis and eight accessions were classified as sexual, 15 as apomictic, and 20 presenting facultative apomixis. Most of the genotypes have 40 chromosomes, with the exception of one accession of Paspalum vaginatum, two of Paspalum indecorum, one of Paspalum modestum, and two of Paspalum notatum that have 20 and one accession of Paspalum jesuiticum and one of Paspalum mandiocanum that have 60 chromosomes. DNA content was determined by flow cytometry, ranging from 1.35 to 4.00 pg of DNA, with most of the accessions corresponding to tetraploidy, but also diploidy and hexaploidy were found, corroborating chromosome counts. High genetic variability was found among the 43 accessions based on 11 microsatellite markers and their use to estimate Jaccard similarity coefficients and Bayesian analysis, forming six different genetic groups. Considering only the P. notatum accessions, great variability was observed with four distinct groups formed. The results presented in this work reveal the possibility to obtain assertive crosses between compatible parents, aiming to explore the genetic variability between and within species of this genus. First online. 2024-04-12T11:34:05Z 2024-04-12T11:34:05Z 2024-04-12 2024 Artigo de periódico Crop Science, 2024. http://www.alice.cnptia.embrapa.br/alice/handle/doc/1163536 http://doi.org/10.1002/csc2.21233 eng openAccess
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 eng
topic Variabilidade genética
Grama
Gramínea
Genetic variation
Variabilidade genética
Grama
Gramínea
Genetic variation
spellingShingle Variabilidade genética
Grama
Gramínea
Genetic variation
Variabilidade genética
Grama
Gramínea
Genetic variation
MATTA, F. de P.
FAVERO, A. P.
VIGNA, B. B. Z.
CAVALLARI, M. M.
ALVES, F.
OLIVEIRA, F. A. de
SOUZA, A. P. de
POZZOBON, M. T.
AZEVEDO, A. L. S.
GUSMAO, M. R.
Characterization of Paspalum genotypes for turfgrass cultivars development.
description The characterization of genetic resources is essential to carry out a breeding program. This study aimed to characterize Paspalum genotypes with potential use as soil surface covering to support breeding programs on the development of turf cultivars. Forty-three Paspalum genotypes, comprising 11 species, were evaluated. The embryo-sacs structure was determined by cleared ovaries analysis and eight accessions were classified as sexual, 15 as apomictic, and 20 presenting facultative apomixis. Most of the genotypes have 40 chromosomes, with the exception of one accession of Paspalum vaginatum, two of Paspalum indecorum, one of Paspalum modestum, and two of Paspalum notatum that have 20 and one accession of Paspalum jesuiticum and one of Paspalum mandiocanum that have 60 chromosomes. DNA content was determined by flow cytometry, ranging from 1.35 to 4.00 pg of DNA, with most of the accessions corresponding to tetraploidy, but also diploidy and hexaploidy were found, corroborating chromosome counts. High genetic variability was found among the 43 accessions based on 11 microsatellite markers and their use to estimate Jaccard similarity coefficients and Bayesian analysis, forming six different genetic groups. Considering only the P. notatum accessions, great variability was observed with four distinct groups formed. The results presented in this work reveal the possibility to obtain assertive crosses between compatible parents, aiming to explore the genetic variability between and within species of this genus.
author2 FREDERICO DE PINA MATTA, CPPSE
author_facet FREDERICO DE PINA MATTA, CPPSE
MATTA, F. de P.
FAVERO, A. P.
VIGNA, B. B. Z.
CAVALLARI, M. M.
ALVES, F.
OLIVEIRA, F. A. de
SOUZA, A. P. de
POZZOBON, M. T.
AZEVEDO, A. L. S.
GUSMAO, M. R.
format Artigo de periódico
topic_facet Variabilidade genética
Grama
Gramínea
Genetic variation
author MATTA, F. de P.
FAVERO, A. P.
VIGNA, B. B. Z.
CAVALLARI, M. M.
ALVES, F.
OLIVEIRA, F. A. de
SOUZA, A. P. de
POZZOBON, M. T.
AZEVEDO, A. L. S.
GUSMAO, M. R.
author_sort MATTA, F. de P.
title Characterization of Paspalum genotypes for turfgrass cultivars development.
title_short Characterization of Paspalum genotypes for turfgrass cultivars development.
title_full Characterization of Paspalum genotypes for turfgrass cultivars development.
title_fullStr Characterization of Paspalum genotypes for turfgrass cultivars development.
title_full_unstemmed Characterization of Paspalum genotypes for turfgrass cultivars development.
title_sort characterization of paspalum genotypes for turfgrass cultivars development.
publishDate 2024-04-12
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1163536
http://doi.org/10.1002/csc2.21233
work_keys_str_mv AT mattafdep characterizationofpaspalumgenotypesforturfgrasscultivarsdevelopment
AT faveroap characterizationofpaspalumgenotypesforturfgrasscultivarsdevelopment
AT vignabbz characterizationofpaspalumgenotypesforturfgrasscultivarsdevelopment
AT cavallarimm characterizationofpaspalumgenotypesforturfgrasscultivarsdevelopment
AT alvesf characterizationofpaspalumgenotypesforturfgrasscultivarsdevelopment
AT oliveirafade characterizationofpaspalumgenotypesforturfgrasscultivarsdevelopment
AT souzaapde characterizationofpaspalumgenotypesforturfgrasscultivarsdevelopment
AT pozzobonmt characterizationofpaspalumgenotypesforturfgrasscultivarsdevelopment
AT azevedoals characterizationofpaspalumgenotypesforturfgrasscultivarsdevelopment
AT gusmaomr characterizationofpaspalumgenotypesforturfgrasscultivarsdevelopment
_version_ 1798159786142859264

Similar Items