• Title/Summary/Keyword: Pardosa astrigera

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Electron Microscopic Study on the Hemocytes of the Wolf Spider, Pardosa astrigera (별늑대거미(Pardosa astrigera L. Koch) 혈구의 전자현미경적 연구)

  • Chang, Byung-Soo;Yoe, Sung-Moon
    • Applied Microscopy
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    • v.25 no.2
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    • pp.29-38
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    • 1995
  • The fine structure of the hemocytes in Wolf spider, Pardosa astrigera, is discribed and compared with that of similar cells in other spider species and insects. Five hemocyte types are identified in the hemolymph: prohemocyte, plasmatocyte, granulocyte, spherulocyte and adipohemocyte. Prohemocytes are small with a relatively undifferentiated cytoplasm. The nucleus is comparatively large and has a perinuclear space. Plasmatocytes and granulocytes are pinocytotic function in the hemolymph of the body. The plasmatocytes have some coated pits on the plasma membrane and well developed Golgi complex, The granulocytes appear sequence of events in the formation of coated vesicle from a coated pit on its plasma membrane. Golgi complex become well expressed and give rise to small secretory vesicles which fuse to large bodies. The spherulocytes are larger in cell size than other hemocytes. Their cytoplasm is filled with spherules. The spherules contain the floccurent materials and the helical structured materials, which are 220nm in length and 80nm in width. The adipohemocytes are oval shaped and have a number of lipid droplets.

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Fine Structure of the Ampullate ilk Glands in the Wolf Spider, Pardosa astrigera (Araneae: Lycosidae)

  • Myung-Jin Moon
    • Animal cells and systems
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    • v.2 no.4
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    • pp.513-520
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    • 1998
  • Though the wandering spiders do not produce webs for prey-catching, they have silk producing apparatus. Among the four kinds of silk glands in the wolf spider, Pardosa astrigera, the ampullate one is the most predominant gland in both sexes, and is composed of three functional parts; excretory duct, storage ampulla and convoluted tail regions. The duct is basically composed of three superposed types of layers which are inner cuticles, monolayered epithelial cells and peripheral connective cells. The electron lucent subcuticles which have the functions of water removal and orientation of silk fibers during polymerization are well developed at the anterior region near the spinneret. Whereas the endocuticles which contain two types of banding patterns at the cross section are developed at the rest of the duct region. The secretory silks are synthesized within the glandular epithelial cells of the tail as secretory granules, and then released to the inner cavity of the storage ampulla by the mechanism of apocrine secretion. Most of these secretory vesicles are originated from the rough endoplasmic reticula of the glandular epithelial cells, whereas no Golgi complexes are found in any of the cells which have been examined.

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Fine Structure of Book Lung in the Wolf Spider, Pardosa astrigera (별늑대거미 (Pardosa astrigera L. Koch) 서폐의 미세구조)

  • Lim, Hyoung-Soo;Moon, Myung-Jin
    • Applied Microscopy
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    • v.24 no.2
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    • pp.1-11
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    • 1994
  • The book lung in the wolf spider, Pardosa astrigera was consisted of a series of flattened triangular-shaped air sacs, stacked with about 70 sheets, and was located in the ventrolateral region of opisthosoma. Each hemolymph spaces (average $8{\mu}m$ in thickness) surrounded by the air sacs (average $6{\mu}m$ in thickness). The air sacs was supported by cylindrical cuticular spikes of microfibril bundles. Epithelial cell processes surrounded the hemolymph spaces. The nuclei of the epithelial cells were concentrated near the atrium. In the middle portion of air sac, the epithelial cells formed pillars across the hemolymph spaces and spot desmosome and zonula adherens were seen between the plasma membranes. In the hemolymph space of this spider, granular hemocytes (average diameter $8{\mu}m$) were the most dominant type of hemocytes. In the medial sinus, the hemolymph flow between the air sacs of a paired book lungs and then flow out of the lung vein. The air comes in the atrium through the ventral lung slit and makes a tidal wave in and out of the air sacs.

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