Abstract
Grama-tio-pedro (Paspalum oteroi Swallen) is a rare stoloniferous grass of the Plicatula group of Paspalum, well adapted to continuous grazing in areas subject to seasonal flooding in the Pantanal region, in central western Brazil. The species is a facultative apomictic (asexual reproduction by seed) tetraploid, sporadically cultivated on Pantanal farms, propagated either by cuttings or seed. Due to its potential for extensive cultivation and forage quality, Grama-tio-pedro appears as a candidate for genetic improvement within the Plicatula group through plant breeding. We used a colchicine-induced sexual autotetraploid genotype of P. plicatulum Michx. to obtain interspecific hybrids using the apomictic species, P. oteroi, as pollen donor. The very similar meiotic chromosome behavior observed in both parents, with main quadrivalent and bivalent associations, suggested that P. oteroi is a natural autotetraploid. The hybrids showed less irregular meiotic behavior with fewer quadrivalents and more bivalents than either parent. Fertility among interspecific hybrids varied from complete sterility in some of them to seed productions in others that were approximately twice as much as for either parent. The great variability of seed set performance may well be a drastic genetic consequence of joining two homologous chromosome sets of P. plicatulum together with two homologous sets of P. oteroi that, in turn, have some homeology between them. Most hybrids reproduce by sexual means, thus, they could be used as female parents in backcrosses and in crosses with other species of the Plicatula group for interspecific gene transferring in breeding programs.
Highlights
The grass genus Paspalum L. is the most important forage constituent in natural pasturelands in South America
In spite of the fact that the general morphological appearance suggested that all individuals originated by hybridization, a progeny test with random amplified polymorphic deoxyribonucleic acid (RAPD) markers was carried out to ensure that none of them originated by unexpected occasional selfpollination
All of these individuals amplified some of the specific bands of the male parent, P. oteroi, indicating that all of them originated by hybridization between the 4PT strain of P. plicatulum and the accession A&V 1332 of P. oteroi
Summary
The grass genus Paspalum L. is the most important forage constituent in natural pasturelands in South America. Known by the popular name of grama-tio-pedro, its cultivation on Pantanal farms, in paddocks, headquarter lawns, and airstrips, propagated either by cuttings or seed, was reported long ago (Otero, 1937). It is a tetraploid species with 2n = 40 chromosomes (Pagliarini et al, 2001). The main obstacle for plant breeding is the total absence of completely sexual individuals within polyploid apomictic populations This obstacle may be overcome by doubling the number of chromosomes of diploid plants to produce sexual tetraploids (Forbes and Burton, 1961; Sartor et al, 2009). This study aimed to hybridize sexual tetraploid P. plicatulum with apomictic tetraploid P. oteroi to establish their cytogenetic relationship and to determine the reproductive behavior and fertility of the hybrids in order to explore the possibility of gene exchange in breeding programs of these species
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