POLLEN TUBE‐SYNERGID INTERACTIONS IN PROBOSCIDEA LOUISIANICA (MARTINEACEAE)

Abstract

The ultrastructure of the synergids of Proboscidea louisianica was investigated from just before fertilization until 48 hr after pollination. It was found that the cytoplasm of one synergid consistently begins to degenerate before arrival of the pollen tube at the embryo sac, and that it is always this synergid which receives the pollen tube tip and its discharge. The other synergid (persistent synergid) remained unchanged throughout the study period. Polysaccharide vesicles of pollen tube origin were observed fusing with the pollen tube wall as well as contributing to cell wall formation of the degenerate synergid. In one ovule (48 hr after pollination) two pollen tubes had entered and grown the length of the micropyle, but only the first tube penetrated the degenerate synergid and discharged normally. The second pollen tube was abutting against the persistent synergid, but had not entered or discharged. In another exceptional case (18 hr after pollination), a pollen tube had grown the length of the micropyle, but did not discharge, or enter either synergid. Both synergids of this ovule were observed to be completely intact. It is concluded that synergid and pollen tube cytoplasmic degeneration is the result of a very specific interaction between these two cells and that this degeneration is probably a prerequisite for normal pollen tube entrance and discharge into the embryo sac, and for male gamete transfer to the egg and central cell.