A mechanism of propagule release from unilocular reproductive structures in brown algae

Abstract

The structure of unilocular sporangia inP. littoralis was investigated along with several other species of brown algae in order to study the mechanism by which propagules are released from unilocular reproductive structures. Unilocular sporangia inP. littoralis are composed of a spherical cell wall of two distinct layers and contain a number of zoospores. The mass of spores is surrounded and permeated by mucilaginous carbohydrates. It is suggested that the production of these carbohydrates generates the necessary pressure to weaken the sporangial wall. In addition, ultrastructural observations indicate that further weakening seems to occur due to digestion of the inner wall layer. Walls of sporangia were mechanically broken just prior to normal spore release in order to investigate whether internal pressure exists, and if it can effect spore discharge. Results show that an internal pressure does exist prior to normal spore discharge and that this pressure is not generated by turgor pressure of the spores themselves or by a semi-permeable wall osmoticum system. The discharge of spores seems to occur when the carbohydrate around the spores swells. The adsorption of water when plants are immersed by the incoming tide thus seems a likely mechanism of spore discharge. The similarities of unilocular reproductive structures and spore release in several brown algal species suggests common mechanisms of propagule discharge for members of thePhaeophyta.