Relationships Of Seed Banks To Plant Distribution Patterns In A Freshwater Tidal Wetland

TLDR: Study of seed banks, field seedling emergence, and survival of macrophytes in four zones along transects perpendicular to a stream channel in a freshwater tidal wetland showed that many species are widely distributed and importance of a species relative to the rest of the vegetation may change with time.

Abstract: A B S T R A C T Study of seed banks, field seedling emergence, and survival of macrophytes in four zones (steep bank-SB; gentle bank-GB; midbank-MB; high marsh-HM) along transects perpendicular to a stream channel in a freshwater tidal wetland showed that many species are widely distributed. Ofthe 35 species in the seed bank, 50% were common to all zones; ofthe 20 species emerging in the field, 77% were observed in all zones. Density of seeds, seedlings, and mature plants of most species, however, varied significantly with habitat. The seed bank of each zone reflected the dominant vegetation of that zone. Most species, even those with high potential for water dispersal, were not evenly distributed. Reciprocal transplants and survival persistence data of dominants corresponded with their habitat preferences. Seed bank densities differed from zone to zone (SB 1,717 m-2; GB 1,645; MB 2,730; HM 3,620). In all zones the maximum field seedling density was less than the comparable seed bank one (SB 38% less; GB 33%; MB 46%; and HM 10%). These data, coupled with the higher proportion of the total seed bank and total field seedlings occurring in the HM, suggest that the stream channel sites were more stressful early in the growing season than the HM. Because of differential establishment and survival, importance of a species relative to the rest ofthe vegetation may change with time and occurrence of a species in the vegetation may greatly outweigh its importance in the seed bank or even the seedling stage. Although seeds of annual species were numerous with seven species making up 85% of the seed bank, annual species comprised only about half of the species recorded in the seed bank of each zone. It is not possible at our present level of understanding of seed banks in the freshwater tidal marsh to predict vegetation change. Various combinations of species attributes contribute to the zonation patterns observed in the freshwater tidal wetland.