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Registro Completo |
Biblioteca(s): |
Embrapa Amapá. |
Data corrente: |
11/09/2008 |
Data da última atualização: |
11/10/2022 |
Tipo da produção científica: |
Folder/Folheto/Cartilha |
Autoria: |
MELEM JUNIOR, N. J. |
Afiliação: |
NAGIB JORGE MELEM JUNIOR, CPAF-AP. |
Título: |
Cultivares e recomendações para o cultivo de coco no Estado Amapá. |
Ano de publicação: |
2001 |
Fonte/Imprenta: |
Macapá: Embrapa Amapá, 2001. |
Descrição Física: |
1 Folder. |
Idioma: |
Português |
Conteúdo: |
Cultivares recomendadas.; Principais tecnologias recomendadas para o cultivo de coco no Estado do Amapá; Plantio; Espaçamento; manejo e tratos culturais; Coqueiro jovem; Coqueiro adulto; Calagem e adubação do coqueiro. |
Palavras-Chave: |
Amapá; Cultivo. |
Thesagro: |
Coco. |
Categoria do assunto: |
K Ciência Florestal e Produtos de Origem Vegetal |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/doc/352847/1/Cultivares-e-recomendacoes-para-o-cultivo-de-coco-no-estado-do-amapa.pdf
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Marc: |
LEADER 00623nam a2200157 a 4500 001 1352847 005 2022-10-11 008 2001 bl uuuu u0uu1 u #d 100 1 $aMELEM JUNIOR, N. J. 245 $aCultivares e recomendações para o cultivo de coco no Estado Amapá. 260 $aMacapá: Embrapa Amapá$c2001 300 $c1 Folder. 520 $aCultivares recomendadas.; Principais tecnologias recomendadas para o cultivo de coco no Estado do Amapá; Plantio; Espaçamento; manejo e tratos culturais; Coqueiro jovem; Coqueiro adulto; Calagem e adubação do coqueiro. 650 $aCoco 653 $aAmapá 653 $aCultivo
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Embrapa Amapá (CPAF-AP) |
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Registro Completo
Biblioteca(s): |
Embrapa Gado de Leite. |
Data corrente: |
16/02/2017 |
Data da última atualização: |
30/01/2023 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 2 |
Autoria: |
PERIPOLLI, E.; MUNARI, D. P.; SILVA, M. V. G. B.; LIMA, A. L.; IRGANG, R.; BALDI, F. |
Afiliação: |
E. Peripolli, UNESP; D. P. MUNARI, UNESP; MARCOS VINICIUS GUALBERTO B SILVA, CNPGL; A. L. LIMA, UFSC; R. IRGANG, UFSC; F. BALDI, UNESP. |
Título: |
Runs of homozygosity: current knowledge and applications in livestock. |
Ano de publicação: |
2017 |
Fonte/Imprenta: |
Animal Genetics, v. 48, n. 3, p. 255-271, 2017. |
DOI: |
10.1111/age.12526 |
Idioma: |
Inglês |
Notas: |
Publicado online em 1 dez. 2016. |
Conteúdo: |
This review presents a broader approach to the implementation and study of runs of homozygosity (ROH) in animal populations, focusing on identifying and characterizing ROH and their practical implications. ROH are continuous homozygous segments that are common in individuals and populations. The ability of these homozygous segments to give insight into a population's genetic events makes them a useful tool that can provide information about the demographic evolution of a population over time. Furthermore, ROH provide useful information about the genetic relatedness among individuals, helping to minimize the inbreeding rate and also helping to expose deleterious variants in the genome. The frequency, size and distribution of ROH in the genome are influenced by factors such as natural and artificial selection, recombination, linkage disequilibrium, population structure, mutation rate and inbreeding level. Calculating the inbreeding coefficient from molecular information from ROH (FROH ) is more accurate for estimating autozygosity and for detecting both past and more recent inbreeding effects than are estimates from pedigree data (FPED ). The better results of FROH suggest that FROH can be used to infer information about the history and inbreeding levels of a population in the absence of genealogical information. The selection of superior animals has produced large phenotypic changes and has reshaped the ROH patterns in various regions of the genome. Additionally, selection increases homozygosity around the target locus, and deleterious variants are seen to occur more frequently in ROH regions. Studies involving ROH are increasingly common and provide valuable information about how the genome's architecture can disclose a population's genetic background. By revealing the molecular changes in populations over time, genome-wide information is crucial to understanding antecedent genome architecture and, therefore, to maintaining diversity and fitness in endangered livestock breeds. MenosThis review presents a broader approach to the implementation and study of runs of homozygosity (ROH) in animal populations, focusing on identifying and characterizing ROH and their practical implications. ROH are continuous homozygous segments that are common in individuals and populations. The ability of these homozygous segments to give insight into a population's genetic events makes them a useful tool that can provide information about the demographic evolution of a population over time. Furthermore, ROH provide useful information about the genetic relatedness among individuals, helping to minimize the inbreeding rate and also helping to expose deleterious variants in the genome. The frequency, size and distribution of ROH in the genome are influenced by factors such as natural and artificial selection, recombination, linkage disequilibrium, population structure, mutation rate and inbreeding level. Calculating the inbreeding coefficient from molecular information from ROH (FROH ) is more accurate for estimating autozygosity and for detecting both past and more recent inbreeding effects than are estimates from pedigree data (FPED ). The better results of FROH suggest that FROH can be used to infer information about the history and inbreeding levels of a population in the absence of genealogical information. The selection of superior animals has produced large phenotypic changes and has reshaped the ROH patterns in various regions of the genome. Additionally, selection in... Mostrar Tudo |
Palavras-Chave: |
Autozygosity; Genetic diversity. |
Thesaurus NAL: |
homozygosity; inbreeding; livestock. |
Categoria do assunto: |
L Ciência Animal e Produtos de Origem Animal |
Marc: |
LEADER 02754naa a2200265 a 4500 001 2064504 005 2023-01-30 008 2017 bl uuuu u00u1 u #d 024 7 $a10.1111/age.12526$2DOI 100 1 $aPERIPOLLI, E. 245 $aRuns of homozygosity$bcurrent knowledge and applications in livestock.$h[electronic resource] 260 $c2017 500 $aPublicado online em 1 dez. 2016. 520 $aThis review presents a broader approach to the implementation and study of runs of homozygosity (ROH) in animal populations, focusing on identifying and characterizing ROH and their practical implications. ROH are continuous homozygous segments that are common in individuals and populations. The ability of these homozygous segments to give insight into a population's genetic events makes them a useful tool that can provide information about the demographic evolution of a population over time. Furthermore, ROH provide useful information about the genetic relatedness among individuals, helping to minimize the inbreeding rate and also helping to expose deleterious variants in the genome. The frequency, size and distribution of ROH in the genome are influenced by factors such as natural and artificial selection, recombination, linkage disequilibrium, population structure, mutation rate and inbreeding level. Calculating the inbreeding coefficient from molecular information from ROH (FROH ) is more accurate for estimating autozygosity and for detecting both past and more recent inbreeding effects than are estimates from pedigree data (FPED ). The better results of FROH suggest that FROH can be used to infer information about the history and inbreeding levels of a population in the absence of genealogical information. The selection of superior animals has produced large phenotypic changes and has reshaped the ROH patterns in various regions of the genome. Additionally, selection increases homozygosity around the target locus, and deleterious variants are seen to occur more frequently in ROH regions. Studies involving ROH are increasingly common and provide valuable information about how the genome's architecture can disclose a population's genetic background. By revealing the molecular changes in populations over time, genome-wide information is crucial to understanding antecedent genome architecture and, therefore, to maintaining diversity and fitness in endangered livestock breeds. 650 $ahomozygosity 650 $ainbreeding 650 $alivestock 653 $aAutozygosity 653 $aGenetic diversity 700 1 $aMUNARI, D. P. 700 1 $aSILVA, M. V. G. B. 700 1 $aLIMA, A. L. 700 1 $aIRGANG, R. 700 1 $aBALDI, F. 773 $tAnimal Genetics$gv. 48, n. 3, p. 255-271, 2017.
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