Abstract
Echinoderms such as sea urchins are important in marine ecosystems, particularly as grazers, and unhealthy sea urchins can have important ecological implications. For instance, unexplained mortalities of Diadema antillarum in the Caribbean were followed by algal overgrowth and subsequent collapse of coral reef ecosystems. Unfortunately, few tools exist to evaluate echinoderm health, making management of mortalities or other health issues problematic. Hematology is often used to assess health in many animal groups, including invertebrates, but is seldom applied to echinoderms. We used a standard gravitometric technique to concentrate fixed coelomocytes from the collector sea urchin Tripneustes gratilla onto microscope slides, permitting staining and enumeration. Using Romanowsky stain and electron microscopy to visualize cell details, we found that urchin cells could be partitioned into different morphotypes. Specifically, we enumerated phagocytes, phagocytes with perinuclear cytoplasmic dots, vibratile cells, colorless spherule cells, red spherule cells, and red spherule cells with pink granules. We also saw cell-in-cell interactions characterized by phagocytes apparently phagocytizing mainly the motile cells including red spherule cells, colorless spherule cells, and vibratile cells disproportionate to underlying populations of circulating cells. Cell-in-cell interactions were seen in 71% of sea urchins, but comprised <1% of circulating cells. Finally, about 40% of sea urchins had circulating phagocytes that were apparently phagocytizing spicules. The coelomic fluid collection and slide preparation methods described here are simple, field portable, and might be a useful complementary tool for assessing health of other marine invertebrates, revealing heretofore unknown physiological phenomena in this animal group.
Highlights
Sea urchins are a keystone species in coral reef ecosystems, because their grazing activities are critical to maintaining balance between faster-growing macroalgae and slower-growing corals (Ogden & Lobel1978)
The use of a gravitational sedimentation system in combination with immediate fixation of coelomocytes permits preparations of cells suitable for examination on cytology and is a low-cost, simple technique to do hematology exams for Tripneustes gratilla that is likely applicable to most echinoderms
This method offers several advantages over examination of live cells on phase contrast (Johnson 1969b), including (1) storing of samples for later examination, making this technique amenable for remote field situations; (2) increased details of cell morphology as the result of Romanowsky staining; and (3) visualization of phenomena previously undocumented in echinoderms. This method could complement existing techniques that depend on examination of live cells to provide data on numbers of coelomocytes ml−1 of coelomic fluid, examine changes in cell morphology over time, and evaluate hematological responses of sea urchins to various environmental changes (Matranga et al 2005, Pinsino et al 2008)
Summary
Sea urchins are a keystone species in coral reef ecosystems, because their grazing activities are critical to maintaining balance between faster-growing macroalgae and slower-growing corals (Ogden & Lobel1978). Loss of grazing fish and sea urchins in Hawaii has resulted in the establishment of invasive algae, a particular problem in Kaneohe Bay, Oahu (Stimson et al 2001). Since 2014, the State of Hawaii has tried to control invasive marine macroalgae in Kaneohe Bay using a mechanical suction device to aspirate algae from corals (Westbrook et al 2015). To complement these efforts, the state has undertaken a rearing program to raise and release as well as translocate collector sea urchins Tripneustes gratilla into the bay (Westbrook et al 2015). Given the importance of T. gratilla to coral reefs, and because translocation and hatchery-release activities can have important health ramifications in terms of disease transfer, we developed a tool to assess antemortem health in this species
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