Bryozoan colonies are composed of zooids, which can differ in structure and function. Autozooids supply heteromorphic zooids with nutrients, which are usually unable to feed. To date, the ultrastructure of the tissues providing nutrient transfer is almost unexplored. Here, we present a detailed description of the colonial system of integration (CSI) and the different types of pore plates in Dendrobeania fruticosa. All cells of the CSI are joined by tight junctions that isolate its lumen. The lumen of the CSI is not a single structure, but a dense network of small interstices filled with a heterogeneous matrix. In autozooids, the CSI is composed of two types of cells: elongated and stellate. Elongated cells form the central part of the CSI, including two main longitudinal cords and several main branches to the gut and pore plates. Stellate cells compose the peripheral part of the CSI, which is a delicate mesh starting from the central part and reaching various structures of autozooids. Autozooids have two tiny muscular funiculi, which start from the caecum apex and run to the basal wall. Each funiculus includes a central cord of extracellular matrix and two longitudinal muscle cells; together they are enveloped with a layer of cells. The rosette complexes of all types of pore plates in D. fruticosa display a similar cellular composition: a cincture cell and a few special cells; limiting cells are absent. Special cells have bidirectional polarity in interautozooidal and avicularian pore plates. This is probably due to the need for bidirectional transport of nutrients during degeneration–regeneration cycles. Cincture cells and epidermal cells of pore plates contain microtubules and inclusions resembling dense‐cored vesicles, which are typical of neurons. Probably, cincture cells are involved in the signal transduction from one zooid to another and can be a part of the colony‐wide nervous system.
An amorphous Fe-Mo-Si-B alloy has been investigated to establish the crystallization behaviour as a function of temperature. Techniques of x-ray diffraction and Mössbauer spectroscopy are applied to identify and characterize various phases produced as a result of heat treatment. Stable phases Fe 2 B and α-Fe(Mo, Si) and metastable phase Fe 3 B have been identified at 500˚C by both techniques. The metastable phase transforms to stable α-Fe(Mo, Si) solid solution and Fe 2 B after 600˚C. The distribution of Si and Mo atoms in the solution is found to be of short-range order and it changes with temperature.
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