A morphological and electron-microprobe study of the inorganic composition of the mineralized secretory products of the calciferous gland and chloragogenous tissue of the earthworm,Lumbricus terrestris L. |
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Authors: | Dr A J Morgan |
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Institution: | (1) Department of Zoology, University College, Cardiff, Wales, UK;(2) Department of Zoology, University College, CF1 1XL Cardiff, Wales, UK |
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Abstract: | Summary The two pairs of lobes of the calciferous gland of the earthworm Lumbricus terrestris are specialized oesophageal diverticulae that secrete spherites ranging from 0.5–7.0 m in diameter. Correlative transmission and scanning electron microscopy indicated that the spherites (which are predominantly CaCO3) are formed extracellularly in distinctive bays bounded by secretory-cell processes, and are mobilized anteriorly from the gland lumina to the lumen of a non-secretory pouch, where the majority coalesce and undergo phase transformation to concretions 0.5–1.0 mm in diameter consisting of a mass of cuboidal crystals with facets up to 40 m. The distribution of Sr (0.1 ml 5 % SrCl2 injected into the posterior coelomic cavity) was monitored in the mineralized secretory products of the calciferous glands by X-ray microanalysis of 10 m — thick air-dried cryostat sections in a SEM. Strontium was not detected in chloragosomes at 2 h and 24 h post-injection. Strontium was transported anteriorly and specifically incorporated into gland spherites (detectable within 2h). This technique of Sr localization afforded sufficient structural and analytical resolutions to provide a confirmation of the sequence of extracellular changes in the gland/pouch system. In addition we were able to distinguish a population of growing spherites from the vast majority of mature spherites; size alone was a singularly poor indication of spherite growth.The major element constituents of the chloragosomes were P, Ca and Zn (Ca: P ranging from 0.4 to 1.0; Zn: P from about 0.05 to 0.45). Analysis of individual spherites showed that Ca was probably bound to P or P-containing matrix components, whilst Zn was probably linked to one or more different but unknown constituents. |
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Keywords: | Calciferous gland Chloragosomes Mineralization Strontium Electron microprobe |
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