Seleção de famílias e clones de Saccharum spp. para obtenção de cana energia
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2021 |
| Tipo de documento: | Tese |
| Idioma: | por |
| Título da fonte: | Biblioteca Digital de Teses e Dissertações da UFRPE |
| Texto Completo: | http://www.tede2.ufrpe.br:8080/tede2/handle/tede2/9500 |
Resumo: | Sugarcane biomass has gained attention due to its versatility in uses and is seen as a sustainable source of energy, highlighting the generation of energy by burning sugarcane bagasse and fuel ethanol, which together represent 17.5% of the energy consumed in Brazil. Sugarcane biomass is considered one of the most profitable for generating electricity, reducing the use of fossil fuels and the emission of greenhouse gases. However, the development of varieties of energy cane has not yet reached large scale by producers and large improvement programs. Given this reality, the objective of this work was to identify the best combinations of parents and optimize the process of early selection of energy cane clones and select clones with high fiber contents to introduce them into the active germplasm bank. Twenty-seven crossings were performed, nine of which were biparental, nine were crossroads and nine were self-made. Comparison studies were carried out between methods and obtaining, planting and conducting seedlings. Genotypic values and variance components of families and individuals were estimated from the main production components and agro-industrial characteristics, using the mixed model methodologies REML / BLUPIS and BLUP-seq as a genetic-statistical tool. Correlation studies were also developed using the Spearman and Pearson methods, and the Hamblin and Zimmermann coincidence index estimates to verify the efficiency of early selection. It was verified that: the height of the plants can be used as a parameter for early selection of the best families still in the seedlings production phase; conducting populations by the classical method favors the growth and greater uniformity of the plants; in the SA method, plants are more vulnerable to competition for space, water, light and nutrients. However, it allows greater use of area, seeds and greater exploitation of genetic variability; the crossroads with the female parents IN 84-58 (C14) and PRBIO 371 (C13), as well as the two-parent crossings PRBIO 353 x PRBIO 273 (C8) and PRBIO 264 x PRBIO 182 (C7) are the most indicated among those studied for new sugarcane crossing campaigns. The indirect selection to increase the fiber contents via soluble solids content is not efficient; there was little difference between the genotypic expression of the variables evaluated in the classical methods and the advance selection; there was little difference between the genotypic expression of the families evaluated between the classic methods and the advance selection; there is an indication of greater genetic gains from the previous selection of families and subsequent individual selection; the grouped planting of seedlings in the advance selection method favors the selection of a larger number of individuals within families in the same physical space; the C1, C2, C4, C5, C7, C10, C12, C15 and C16 families are the most suitable for genotypic selection to increase fiber levels; the accessions Co285, PRBIO150, PRBIO163, PRBIO215, PRBIO221, PRBIO273, PRBIO298, PRBIO353, PRBIO371 and PRBIO392 are the most suitable for genotypic selection to increase fiber levels, and may have their combinations repeated and / or recombined among themselves. |
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SILVA, Gheysa CoelhoSIMÕES NETO, Djalma EuzébioCALSA JUNIOR, Tercíliohttp://lattes.cnpq.br/7463324800432835RAMOS, Robson da Silva2024-02-15T21:06:08Z2021-02-26RAMOS, Robson da Silva. Seleção de famílias e clones de Saccharum spp. para obtenção de cana energia. 2021. 126 f. Tese (Programa de Pós-Graduação em Melhoramento Genético de Plantas) - Universidade Federal Rural de Pernambuco, Recife.http://www.tede2.ufrpe.br:8080/tede2/handle/tede2/9500Sugarcane biomass has gained attention due to its versatility in uses and is seen as a sustainable source of energy, highlighting the generation of energy by burning sugarcane bagasse and fuel ethanol, which together represent 17.5% of the energy consumed in Brazil. Sugarcane biomass is considered one of the most profitable for generating electricity, reducing the use of fossil fuels and the emission of greenhouse gases. However, the development of varieties of energy cane has not yet reached large scale by producers and large improvement programs. Given this reality, the objective of this work was to identify the best combinations of parents and optimize the process of early selection of energy cane clones and select clones with high fiber contents to introduce them into the active germplasm bank. Twenty-seven crossings were performed, nine of which were biparental, nine were crossroads and nine were self-made. Comparison studies were carried out between methods and obtaining, planting and conducting seedlings. Genotypic values and variance components of families and individuals were estimated from the main production components and agro-industrial characteristics, using the mixed model methodologies REML / BLUPIS and BLUP-seq as a genetic-statistical tool. Correlation studies were also developed using the Spearman and Pearson methods, and the Hamblin and Zimmermann coincidence index estimates to verify the efficiency of early selection. It was verified that: the height of the plants can be used as a parameter for early selection of the best families still in the seedlings production phase; conducting populations by the classical method favors the growth and greater uniformity of the plants; in the SA method, plants are more vulnerable to competition for space, water, light and nutrients. However, it allows greater use of area, seeds and greater exploitation of genetic variability; the crossroads with the female parents IN 84-58 (C14) and PRBIO 371 (C13), as well as the two-parent crossings PRBIO 353 x PRBIO 273 (C8) and PRBIO 264 x PRBIO 182 (C7) are the most indicated among those studied for new sugarcane crossing campaigns. The indirect selection to increase the fiber contents via soluble solids content is not efficient; there was little difference between the genotypic expression of the variables evaluated in the classical methods and the advance selection; there was little difference between the genotypic expression of the families evaluated between the classic methods and the advance selection; there is an indication of greater genetic gains from the previous selection of families and subsequent individual selection; the grouped planting of seedlings in the advance selection method favors the selection of a larger number of individuals within families in the same physical space; the C1, C2, C4, C5, C7, C10, C12, C15 and C16 families are the most suitable for genotypic selection to increase fiber levels; the accessions Co285, PRBIO150, PRBIO163, PRBIO215, PRBIO221, PRBIO273, PRBIO298, PRBIO353, PRBIO371 and PRBIO392 are the most suitable for genotypic selection to increase fiber levels, and may have their combinations repeated and / or recombined among themselves.A biomassa da cana-de-açúcar tem ganhado atenção pela sua versatilidade em usos como matéria prima e é vista como fonte sustentável de energia, destacando-se a geração de energia pela queima do bagaço e o etanol combustível, que juntos representam 17,5% da energia consumida no Brasil. A biomassa da cana-de-açúcar é apontada como uma das mais rentáveis para geração de energia elétrica, possibilitando a redução da utilização de combustíveis fósseis e, consequentemente, a diminuição da emissão de gases geradores do efeito estufa. Entretanto, o desenvolvimento de variedades de cana-energia, ainda não tem alcance em larga escala pelos grandes programas de melhoramento e, consequentemente, pelos produtores. Diante dessa realidade, objetivou-se identificar as melhores famílias e otimizar a seleção de clones de cana-energia. Foram realizados 27 cruzamentos, sendo 8 biparentais, 10 policruzamentos e 9 autofecundações. Foram realizados estudos de comparação entre métodos e obtenção, plantio e condução de seedlings. Foram estimados – a partir dos componentes principais de produção e das características agroindustriais – os valores genotípicos e os parâmetros genéticos das famílias, utilizando como ferramenta genético-estatística as metodologias de modelos mistos REML/BLUPIS e BLUP-seq. Também foram desenvolvidos estudos de correlação pelos métodos de Spearman e Pearson, e as estimativas do índice de coincidência de Hamblin e Zimmermann para verifica a eficiência da seleção antecipada. Foi verificado que: o caráter altura das plantas pode ser utilizado como parâmetro para seleção antecipada das melhores famílias ainda na fase de produção de seedlings; conduzir populações pelo método clássico favorece o crescimento e maior uniformidade das plantas; no método Seleção Antecipado as plantas são mais vulneráveis à competição por espaço, água, luz e nutrientes. Porém, permite maior aproveitamento de área, das sementes e maior exploração da variabilidade genética; os policruzamentos com os genitores femininos IN 84-58 (C14) e PRBIO 371 (C13), bem como os cruzamentos biparentais PRBIO 353 x PRBIO 273 (C8) e PRBIO 264 x PRBIO 182 (C7) são os mais indicados entre os estudados para novas campanhas de cruzamentos de cana-energia. A seleção indireta antecipada para elevação dos teores de fibra via teor de sólidos solúveis não se mostra eficiente; houve pouca diferença entre a expressão genotípica das variáveis avaliadas nos métodos clássico e a seleção antecipada; houve pouca diferença entre a expressão genotípica das famílias avaliadas entre os métodos clássico e a seleção antecipada; há indicativo de maiores ganhos genéticos pela seleção prévia de famílias e posterior seleção individual; o planto agrupado dos seedlings no método de seleção antecipada favorece a seleção de maior quantitativo de indivíduos dentro das famílias no mesmo espaço físico; as famílias C1, C2, C4, C5, C7, C10, C12, C15 e C16 são as mais indicadas para seleção genotípica para elevação dos teores de fibra; os acessos Co285, PRBIO150, PRBIO163, PRBIO215, PRBIO221, PRBIO273, PRBIO298, PRBIO353, PRBIO371 e PRBIO392 são os mais indicados para seleção genotípica para elevação dos teores de fibra, podendo ter suas combinações repetidas e/ou recombinadas entre si.Submitted by (ana.araujo@ufrpe.br) on 2024-02-15T21:06:08Z No. of bitstreams: 1 Robson da Silva Ramos.pdf: 1130452 bytes, checksum: 8a8982609cacb19c956f80996a6361da (MD5)Made available in DSpace on 2024-02-15T21:06:08Z (GMT). No. of bitstreams: 1 Robson da Silva Ramos.pdf: 1130452 bytes, checksum: 8a8982609cacb19c956f80996a6361da (MD5) Previous issue date: 2021-02-26Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPESapplication/pdfporUniversidade Federal Rural de PernambucoPrograma de Pós-Graduação em Melhoramento Genético de PlantasUFRPEBrasilDepartamento de AgronomiaCana-de-açúcarMelhoramento genéticoBiomassaBioenergiaFITOTECNIA::MELHORAMENTO VEGETALSeleção de famílias e clones de Saccharum spp. para obtenção de cana energiainfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesis-6234655866848882505600600600600-680055387997222920526156072994701319672075167498588264571info:eu-repo/semantics/openAccessreponame:Biblioteca Digital de Teses e Dissertações da UFRPEinstname:Universidade Federal Rural de Pernambuco (UFRPE)instacron:UFRPEORIGINALRobson da Silva Ramos.pdfRobson da Silva Ramos.pdfapplication/pdf1130452http://www.tede2.ufrpe.br:8080/tede2/bitstream/tede2/9500/2/Robson+da+Silva+Ramos.pdf8a8982609cacb19c956f80996a6361daMD52LICENSElicense.txtlicense.txttext/plain; charset=utf-82165http://www.tede2.ufrpe.br:8080/tede2/bitstream/tede2/9500/1/license.txtbd3efa91386c1718a7f26a329fdcb468MD51tede2/95002024-02-15 18:06:08.266oai:tede2: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Biblioteca Digital de Teses e Dissertaçõeshttp://www.tede2.ufrpe.br:8080/tede/PUBhttp://www.tede2.ufrpe.br:8080/oai/requestbdtd@ufrpe.br ||bdtd@ufrpe.bropendoar:2024-05-28T12:38:21.374223Biblioteca Digital de Teses e Dissertações da UFRPE - Universidade Federal Rural de Pernambuco (UFRPE)false |
| dc.title.por.fl_str_mv |
Seleção de famílias e clones de Saccharum spp. para obtenção de cana energia |
| title |
Seleção de famílias e clones de Saccharum spp. para obtenção de cana energia |
| spellingShingle |
Seleção de famílias e clones de Saccharum spp. para obtenção de cana energia RAMOS, Robson da Silva Cana-de-açúcar Melhoramento genético Biomassa Bioenergia FITOTECNIA::MELHORAMENTO VEGETAL |
| title_short |
Seleção de famílias e clones de Saccharum spp. para obtenção de cana energia |
| title_full |
Seleção de famílias e clones de Saccharum spp. para obtenção de cana energia |
| title_fullStr |
Seleção de famílias e clones de Saccharum spp. para obtenção de cana energia |
| title_full_unstemmed |
Seleção de famílias e clones de Saccharum spp. para obtenção de cana energia |
| title_sort |
Seleção de famílias e clones de Saccharum spp. para obtenção de cana energia |
| author |
RAMOS, Robson da Silva |
| author_facet |
RAMOS, Robson da Silva |
| author_role |
author |
| dc.contributor.advisor1.fl_str_mv |
SILVA, Gheysa Coelho |
| dc.contributor.advisor-co1.fl_str_mv |
SIMÕES NETO, Djalma Euzébio |
| dc.contributor.advisor-co2.fl_str_mv |
CALSA JUNIOR, Tercílio |
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http://lattes.cnpq.br/7463324800432835 |
| dc.contributor.author.fl_str_mv |
RAMOS, Robson da Silva |
| contributor_str_mv |
SILVA, Gheysa Coelho SIMÕES NETO, Djalma Euzébio CALSA JUNIOR, Tercílio |
| dc.subject.por.fl_str_mv |
Cana-de-açúcar Melhoramento genético Biomassa Bioenergia |
| topic |
Cana-de-açúcar Melhoramento genético Biomassa Bioenergia FITOTECNIA::MELHORAMENTO VEGETAL |
| dc.subject.cnpq.fl_str_mv |
FITOTECNIA::MELHORAMENTO VEGETAL |
| description |
Sugarcane biomass has gained attention due to its versatility in uses and is seen as a sustainable source of energy, highlighting the generation of energy by burning sugarcane bagasse and fuel ethanol, which together represent 17.5% of the energy consumed in Brazil. Sugarcane biomass is considered one of the most profitable for generating electricity, reducing the use of fossil fuels and the emission of greenhouse gases. However, the development of varieties of energy cane has not yet reached large scale by producers and large improvement programs. Given this reality, the objective of this work was to identify the best combinations of parents and optimize the process of early selection of energy cane clones and select clones with high fiber contents to introduce them into the active germplasm bank. Twenty-seven crossings were performed, nine of which were biparental, nine were crossroads and nine were self-made. Comparison studies were carried out between methods and obtaining, planting and conducting seedlings. Genotypic values and variance components of families and individuals were estimated from the main production components and agro-industrial characteristics, using the mixed model methodologies REML / BLUPIS and BLUP-seq as a genetic-statistical tool. Correlation studies were also developed using the Spearman and Pearson methods, and the Hamblin and Zimmermann coincidence index estimates to verify the efficiency of early selection. It was verified that: the height of the plants can be used as a parameter for early selection of the best families still in the seedlings production phase; conducting populations by the classical method favors the growth and greater uniformity of the plants; in the SA method, plants are more vulnerable to competition for space, water, light and nutrients. However, it allows greater use of area, seeds and greater exploitation of genetic variability; the crossroads with the female parents IN 84-58 (C14) and PRBIO 371 (C13), as well as the two-parent crossings PRBIO 353 x PRBIO 273 (C8) and PRBIO 264 x PRBIO 182 (C7) are the most indicated among those studied for new sugarcane crossing campaigns. The indirect selection to increase the fiber contents via soluble solids content is not efficient; there was little difference between the genotypic expression of the variables evaluated in the classical methods and the advance selection; there was little difference between the genotypic expression of the families evaluated between the classic methods and the advance selection; there is an indication of greater genetic gains from the previous selection of families and subsequent individual selection; the grouped planting of seedlings in the advance selection method favors the selection of a larger number of individuals within families in the same physical space; the C1, C2, C4, C5, C7, C10, C12, C15 and C16 families are the most suitable for genotypic selection to increase fiber levels; the accessions Co285, PRBIO150, PRBIO163, PRBIO215, PRBIO221, PRBIO273, PRBIO298, PRBIO353, PRBIO371 and PRBIO392 are the most suitable for genotypic selection to increase fiber levels, and may have their combinations repeated and / or recombined among themselves. |
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2021 |
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2021-02-26 |
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RAMOS, Robson da Silva. Seleção de famílias e clones de Saccharum spp. para obtenção de cana energia. 2021. 126 f. Tese (Programa de Pós-Graduação em Melhoramento Genético de Plantas) - Universidade Federal Rural de Pernambuco, Recife. |
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