| Abstract: | Detailed studies of the growth patterns of modern siliceous sponges are restricted to demosponges and theoretical models. It is generally assumed that sponge growth is essentially incremental, with completion of one arbitrary unit being followed by external addition. All recent species are thick-walled, but Lower Palaeozoic sponges are dominated by thin-walled hexactinellids, with most Cambrian taxa consisting of a single spicule layer. Large populations of a primitive dictyospongiid have allowed the reconstruction of the growth patterns of their spicules and body morphology. The results indicate that growth occurred through continuous expansion of the globose body, accompanied by continuous enlargement of existing spicules, with a spicule size limit being reached only during the lifetime of a few individuals. It is noted that this skeletal growth pattern is otherwise restricted to deuterostomes. Consecutive appearance of successive spicule size orders appears to have maintained a maximum inhalant pore area. Comparisons with more limited data from two acanthose hexactinellids and a hazeliid demosponge indicate that an identical growth pattern operated in these species. The subsequent evolution of growth patterns is discussed, with various mechanisms producing the later thick-walled morphologies of hexactinellids and demosponges. The implications of these observations are discussed with reference to identification and systematics, since spicule size and arrangement are shown to vary during growth. |
