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Bibliographic Details
Main Authors: Yasanga, Thippawan, Santidherakul, Sineenart, Wunnapuk, Klintean, Phuackchantuck, Rochana, Thaikruea, Lakkana, Achalawitkun, Thunyaporn, Rungraung, Purinat
Format: Artículo científico
Language:en
Published: Biology 2024
Online Access:https://pubmed.ncbi.nlm.nih.gov/39452153/
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Table of Contents:
  • Nematocyst Types and Characteristics in the Tentacles of and sp. (Cubozoa: Carybdeida) from the Gulf of Thailand. Yasanga, Thippawan Santidherakul, Sineenart Wunnapuk, Klintean Phuackchantuck, Rochana Thaikruea, Lakkana Achalawitkun, Thunyaporn Rungraung, Purinat Nematocysts, specialized stinging cells in cnidarians, play a crucial role in both defense and prey capture, containing venomous, coiled tubes within a capsule. While box jellyfish are recognized as a medical threat, information on the nematocysts of species like and sp. from Thai waters remains sparse. This study explores the types and morphology of nematocysts found in the tentacles of these species using light and scanning electron microscopy. We identified three nematocyst types: club-shaped microbasic p-mastigophores, oval isorhizas, and oval microbasic p-rhopaloids. Notably, significant differences in capsule sizes were observed, especially in the microbasic p-mastigophores and isorhizas. The discharge tubules tapered from the proximal to the distal ends, featuring arrow-shaped spines in a helical pattern. A distinct lancet structure was present in both microbasic p-mastigophores and p-rhopaloids. These findings suggest that variations in nematocyst size and morphology may be linked to evolutionary adaptations, functional roles, and venom toxicity. Further research into venom discharge mechanisms could offer valuable insights into the ecological and medical importance of these cnidarians.