Macroevolution of panicoid inflorescences a history of contingency and order of trait acquisition
Background and Aims Inflorescence forms of panicoid grasses [Panicoideae s.s.] are remarkably diverse and they look very labile to human eyes; however, when performing a close inspection one can identify just a small subset of inflorescence types among a huge morphospace of possibilities. Consequently, some evolutionary constraints have restricted, to some extent, the diversification of their inflorescence. Developmental and genetic mechanisms, the photosynthetic type and plant longevity have been postulated as candidate constraints for angiosperms and panicoids in particular; however, it is not clear how these factors operate and which of these have played a key role during the grass inflorescence evolution. To gain insight into this matter the macroevolutionary aspects of panicoid inflorescences are investigated. Methods The inflorescence aspect [lax versus condensed], homogenization, truncation of the terminal spikelet, plant longevity and photosynthetic type were the traits selected for this study. Maximum likelihood and Bayesian Markov chain Monte Carlo methods were used to test different models of evolution and to evaluate the existence of evolutionary correlation among the traits. Both, models and evolutionary correlation were tested and analysed in a phylogenetic context by plotting the characters on a series of trees. For those cases in which the correlation was confirmed, test of contingency and order of trait acquisition were preformed to explore further the patterns of such co-evolution. Key Results The data reject the independent model of inflorescence trait evolution and confirmed the existence of evolutionary contingency. The results support the general trend of homogenization being a prerequisite for the loss of the terminal spikelet of the main axis. There was no evidence for temporal order in the gain of homogenization and condensation; consequently, the homogenization and condensation could occur simultaneously. The correlation between inflorescence traits with plant longevity and photosynthetic type is not confirmed. Conclusions The findings indicate that the lability of the panicoid inflorescence is apparent, not real. The results indicate that the history of the panicoids inflorescence is a combination of inflorescence trait contingency and order of character acquisition. These indicate that developmental and genetic mechanisms may be important constraints that have limited the diversification of the inflorescence form in panicoid grasses.
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Subjects: | EVOLUTION, INFLORESCENCE, MORPHOLOGY, PANICOIDEAE, PANICOIDS, POACEAE, COEVOLUTION, CONDENSATION, DEVELOPMENTAL BIOLOGY, GENETIC ANALYSIS, GRASS, HOMOGENEITY, LONGEVITY, MARKOV CHAIN, MONTE CARLO ANALYSIS, NUMERICAL MODEL, PHOTOSYNTHESIS, PHYLOGENETICS, TEMPORAL ANALYSIS, , |
Online Access: | http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46890 |
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EVOLUTION INFLORESCENCE MORPHOLOGY PANICOIDEAE PANICOIDS POACEAE COEVOLUTION CONDENSATION DEVELOPMENTAL BIOLOGY GENETIC ANALYSIS GRASS HOMOGENEITY LONGEVITY MARKOV CHAIN MONTE CARLO ANALYSIS NUMERICAL MODEL PHOTOSYNTHESIS PHYLOGENETICS TEMPORAL ANALYSIS EVOLUTION INFLORESCENCE MORPHOLOGY PANICOIDEAE PANICOIDS POACEAE COEVOLUTION CONDENSATION DEVELOPMENTAL BIOLOGY GENETIC ANALYSIS GRASS HOMOGENEITY LONGEVITY MARKOV CHAIN MONTE CARLO ANALYSIS NUMERICAL MODEL PHOTOSYNTHESIS PHYLOGENETICS TEMPORAL ANALYSIS |
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EVOLUTION INFLORESCENCE MORPHOLOGY PANICOIDEAE PANICOIDS POACEAE COEVOLUTION CONDENSATION DEVELOPMENTAL BIOLOGY GENETIC ANALYSIS GRASS HOMOGENEITY LONGEVITY MARKOV CHAIN MONTE CARLO ANALYSIS NUMERICAL MODEL PHOTOSYNTHESIS PHYLOGENETICS TEMPORAL ANALYSIS EVOLUTION INFLORESCENCE MORPHOLOGY PANICOIDEAE PANICOIDS POACEAE COEVOLUTION CONDENSATION DEVELOPMENTAL BIOLOGY GENETIC ANALYSIS GRASS HOMOGENEITY LONGEVITY MARKOV CHAIN MONTE CARLO ANALYSIS NUMERICAL MODEL PHOTOSYNTHESIS PHYLOGENETICS TEMPORAL ANALYSIS Reinheimer, R. Vegetti, Abelardo C. Rua, Gabriel Hugo Macroevolution of panicoid inflorescences a history of contingency and order of trait acquisition |
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Background and Aims Inflorescence forms of panicoid grasses [Panicoideae s.s.] are remarkably diverse and they look very labile to human eyes; however, when performing a close inspection one can identify just a small subset of inflorescence types among a huge morphospace of possibilities. Consequently, some evolutionary constraints have restricted, to some extent, the diversification of their inflorescence. Developmental and genetic mechanisms, the photosynthetic type and plant longevity have been postulated as candidate constraints for angiosperms and panicoids in particular; however, it is not clear how these factors operate and which of these have played a key role during the grass inflorescence evolution. To gain insight into this matter the macroevolutionary aspects of panicoid inflorescences are investigated. Methods The inflorescence aspect [lax versus condensed], homogenization, truncation of the terminal spikelet, plant longevity and photosynthetic type were the traits selected for this study. Maximum likelihood and Bayesian Markov chain Monte Carlo methods were used to test different models of evolution and to evaluate the existence of evolutionary correlation among the traits. Both, models and evolutionary correlation were tested and analysed in a phylogenetic context by plotting the characters on a series of trees. For those cases in which the correlation was confirmed, test of contingency and order of trait acquisition were preformed to explore further the patterns of such co-evolution. Key Results The data reject the independent model of inflorescence trait evolution and confirmed the existence of evolutionary contingency. The results support the general trend of homogenization being a prerequisite for the loss of the terminal spikelet of the main axis. There was no evidence for temporal order in the gain of homogenization and condensation; consequently, the homogenization and condensation could occur simultaneously. The correlation between inflorescence traits with plant longevity and photosynthetic type is not confirmed. Conclusions The findings indicate that the lability of the panicoid inflorescence is apparent, not real. The results indicate that the history of the panicoids inflorescence is a combination of inflorescence trait contingency and order of character acquisition. These indicate that developmental and genetic mechanisms may be important constraints that have limited the diversification of the inflorescence form in panicoid grasses. |
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EVOLUTION INFLORESCENCE MORPHOLOGY PANICOIDEAE PANICOIDS POACEAE COEVOLUTION CONDENSATION DEVELOPMENTAL BIOLOGY GENETIC ANALYSIS GRASS HOMOGENEITY LONGEVITY MARKOV CHAIN MONTE CARLO ANALYSIS NUMERICAL MODEL PHOTOSYNTHESIS PHYLOGENETICS TEMPORAL ANALYSIS |
author |
Reinheimer, R. Vegetti, Abelardo C. Rua, Gabriel Hugo |
author_facet |
Reinheimer, R. Vegetti, Abelardo C. Rua, Gabriel Hugo |
author_sort |
Reinheimer, R. |
title |
Macroevolution of panicoid inflorescences a history of contingency and order of trait acquisition |
title_short |
Macroevolution of panicoid inflorescences a history of contingency and order of trait acquisition |
title_full |
Macroevolution of panicoid inflorescences a history of contingency and order of trait acquisition |
title_fullStr |
Macroevolution of panicoid inflorescences a history of contingency and order of trait acquisition |
title_full_unstemmed |
Macroevolution of panicoid inflorescences a history of contingency and order of trait acquisition |
title_sort |
macroevolution of panicoid inflorescences a history of contingency and order of trait acquisition |
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http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46890 |
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AT reinheimerr macroevolutionofpanicoidinflorescencesahistoryofcontingencyandorderoftraitacquisition AT vegettiabelardoc macroevolutionofpanicoidinflorescencesahistoryofcontingencyandorderoftraitacquisition AT ruagabrielhugo macroevolutionofpanicoidinflorescencesahistoryofcontingencyandorderoftraitacquisition |
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1777661066107420672 |
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KOHA-OAI-AGRO:468902023-09-14T13:03:12Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46890AAGMacroevolution of panicoid inflorescences a history of contingency and order of trait acquisitionReinheimer, R.Vegetti, Abelardo C.Rua, Gabriel Hugotextengapplication/pdfBackground and Aims Inflorescence forms of panicoid grasses [Panicoideae s.s.] are remarkably diverse and they look very labile to human eyes; however, when performing a close inspection one can identify just a small subset of inflorescence types among a huge morphospace of possibilities. Consequently, some evolutionary constraints have restricted, to some extent, the diversification of their inflorescence. Developmental and genetic mechanisms, the photosynthetic type and plant longevity have been postulated as candidate constraints for angiosperms and panicoids in particular; however, it is not clear how these factors operate and which of these have played a key role during the grass inflorescence evolution. To gain insight into this matter the macroevolutionary aspects of panicoid inflorescences are investigated. Methods The inflorescence aspect [lax versus condensed], homogenization, truncation of the terminal spikelet, plant longevity and photosynthetic type were the traits selected for this study. Maximum likelihood and Bayesian Markov chain Monte Carlo methods were used to test different models of evolution and to evaluate the existence of evolutionary correlation among the traits. Both, models and evolutionary correlation were tested and analysed in a phylogenetic context by plotting the characters on a series of trees. For those cases in which the correlation was confirmed, test of contingency and order of trait acquisition were preformed to explore further the patterns of such co-evolution. Key Results The data reject the independent model of inflorescence trait evolution and confirmed the existence of evolutionary contingency. The results support the general trend of homogenization being a prerequisite for the loss of the terminal spikelet of the main axis. There was no evidence for temporal order in the gain of homogenization and condensation; consequently, the homogenization and condensation could occur simultaneously. The correlation between inflorescence traits with plant longevity and photosynthetic type is not confirmed. Conclusions The findings indicate that the lability of the panicoid inflorescence is apparent, not real. The results indicate that the history of the panicoids inflorescence is a combination of inflorescence trait contingency and order of character acquisition. These indicate that developmental and genetic mechanisms may be important constraints that have limited the diversification of the inflorescence form in panicoid grasses.Background and Aims Inflorescence forms of panicoid grasses [Panicoideae s.s.] are remarkably diverse and they look very labile to human eyes; however, when performing a close inspection one can identify just a small subset of inflorescence types among a huge morphospace of possibilities. Consequently, some evolutionary constraints have restricted, to some extent, the diversification of their inflorescence. Developmental and genetic mechanisms, the photosynthetic type and plant longevity have been postulated as candidate constraints for angiosperms and panicoids in particular; however, it is not clear how these factors operate and which of these have played a key role during the grass inflorescence evolution. To gain insight into this matter the macroevolutionary aspects of panicoid inflorescences are investigated. Methods The inflorescence aspect [lax versus condensed], homogenization, truncation of the terminal spikelet, plant longevity and photosynthetic type were the traits selected for this study. Maximum likelihood and Bayesian Markov chain Monte Carlo methods were used to test different models of evolution and to evaluate the existence of evolutionary correlation among the traits. Both, models and evolutionary correlation were tested and analysed in a phylogenetic context by plotting the characters on a series of trees. For those cases in which the correlation was confirmed, test of contingency and order of trait acquisition were preformed to explore further the patterns of such co-evolution. Key Results The data reject the independent model of inflorescence trait evolution and confirmed the existence of evolutionary contingency. The results support the general trend of homogenization being a prerequisite for the loss of the terminal spikelet of the main axis. There was no evidence for temporal order in the gain of homogenization and condensation; consequently, the homogenization and condensation could occur simultaneously. The correlation between inflorescence traits with plant longevity and photosynthetic type is not confirmed. Conclusions The findings indicate that the lability of the panicoid inflorescence is apparent, not real. The results indicate that the history of the panicoids inflorescence is a combination of inflorescence trait contingency and order of character acquisition. These indicate that developmental and genetic mechanisms may be important constraints that have limited the diversification of the inflorescence form in panicoid grasses.EVOLUTIONINFLORESCENCEMORPHOLOGYPANICOIDEAEPANICOIDSPOACEAECOEVOLUTIONCONDENSATIONDEVELOPMENTAL BIOLOGYGENETIC ANALYSISGRASSHOMOGENEITYLONGEVITYMARKOV CHAINMONTE CARLO ANALYSISNUMERICAL MODELPHOTOSYNTHESISPHYLOGENETICSTEMPORAL ANALYSISAnnals of Botany |