CITOEMBRIOLOGÍA Y COMPORTAMIENTO REPRODUCTIVO DE UN CITOTIPO DIPLOIDE DE PASPALUM HYDROPHILUM Y SUS HÍBRIDOS CON P. PALUSTRE (POACEAE, PANICEAE)
ERIC J. MARTÍNEZ & CAMILO L. QUARÍN
Instituto de Botánica del Nordeste, Facultad de Ciencias Agrarias, Universidad Nacional del Nordeste (UNNE), Casilla de Correo 209, 3400 Corrientes, Argentina
ABSTRACT: Martínez, E. J. & Quarín, C. L. 1999. Cytoembryology and reproductive behavior of diploid Paspalum hydrophilum and its hybrids with P. palustre (Poaceae, Paniceae). Darwiniana 37(3-4): 243-251.
Paspalum hydrophilum Henrard is a tetraploid, facultative apomictic, pseudogamous and self-compatible species for which occasional diploid and triploid plants have also been found. Three new plant collections from Mato Grosso, Brasil, were cytologically and embryologically surveyed. All three accessions were diploid (2n = 2 x = 20), sexual, and allogamous due to self-incompatibility. Reciprocal crosses concerning two diploid P. hydrophilum accessions and one plant of diploid P. palustre Mez produced several interspecific hybrids. Crossability, the number of hybrids obtained for every 100 pollinated spikelets, ranged from approximately 8% to 28%. The hybrids showed regular meiotic behaviour with 10 bivalent chromosome associations at meiosis, indicating a high chromosome homology among these species. The F1 hybrids inherited self-incompatibility from both parents, attributable to pollen-pistil interactions that arrested pollen tube growth at the central axis of the stigma. Low seed fertility was observed under open pollination. Seed performance ranged up to approximately 23% when parental pollen was dusted on hybrids. This performance may allow to transfer genes among these species. Our results showed a close phylogenetic relationship between P. hydrophilum and P. palustre and indicate the feasibility of interspecific genetic exchange. Though the distribution area of P. palustre overlaps the more extensive area of P. hydrophilum, natural hybridization was not observed. Allopatry of the diploid cytotypes of these species may account for lack of natural hydrization.
Key words: Paspalum hydrophilum, Paspalum palustre, Interspecific hybrids, Genomic relationships, Breeding system.