Alternative Evolutionary Pathways in IPaspalum/I Involving Allotetraploidy, Sexuality, and Varied Mating Systems

The genetic systems of Paspalum species have not been extensively studied. We analyzed the ploidy, reproductive mode, mating system, and fertility of four Paspalum species—Paspalum durifolium, Paspalum ionanthum, Paspalum regnellii, and Paspalum urvillei. An analysis of 378 individuals from 20 popul...

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Veröffentlicht in:	Genes 2023-05, Vol.14 (6)
Hauptverfasser:	Schedler, Mara, Reutemann, Anna Verena, Hojsgaard, Diego Hernán, Zilli, Alex Leonel, Brugnoli, Elsa Andrea, Galdeano, Florencia, Acuña, Carlos Alberto, Honfi, Ana Isabel, Martínez, Eric Javier
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Schlagworte:	Analysis Evolution Sex (Psychology)
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container_title	Genes
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description	The genetic systems of Paspalum species have not been extensively studied. We analyzed the ploidy, reproductive mode, mating system, and fertility of four Paspalum species—Paspalum durifolium, Paspalum ionanthum, Paspalum regnellii, and Paspalum urvillei. An analysis of 378 individuals from 20 populations of northeastern Argentina was conducted. All populations of the four Paspalum species were pure tetraploid and had a sexual and stable reproductive mode. However, some populations of P. durifolium and P. ionanthum showed low levels of apospory. Populations of P. durifolium and P. ionanthum had low seed sets under self-pollination but were fertile under open pollination, showing that self-incompatibility likely caused self-sterility. In contrast, populations of P. regnellii or P. urvillei showed no evidence of apospory, and seed sets in both self- and open pollination conditions were high, suggesting that they are self-compatible due to the absence of pollen–pistil molecular incompatibility mechanisms. The evolutionary origin of the four Paspalum species could explain these differences. This study supplies valuable insights into the genetic systems of Paspalum species, which could have implications for their conservation and management.
doi_str_mv	10.3390/genes14061137
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title	Alternative Evolutionary Pathways in IPaspalum/I Involving Allotetraploidy, Sexuality, and Varied Mating Systems
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