Implications for Osmorespiratory Compromise by Anatomical Remodeling in the Gills of <i>Arapaima gigas</i>

Ramos, Cleverson Agner; Fernandes, Marisa Narciso; Costa, Oscar Tadeu Ferreira da; Duncan, Wallice Paxiúba

doi:10.1002/ar.22758

Cited by 17 publications

(25 citation statements)

References 47 publications

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“…A morphological analysis of the gill epithelium of A. gigas describing the presence of PCs with short microridges has been performed by Ramos et al. (). According to Kendall and Dale (), the function of microridges may be to increase the epithelial surface area where gas exchange occurs and to create a slower flow of water over cells to optimize gas exchange.…”

Section: Discussionmentioning

confidence: 99%

“…In addition, several studies (Gonzalez, Wilson, & Wood, ; Matsuo & Val, ; Steinberg et al., ; Wood et al., ) report that humic substances dissolved in blackwater contribute to the prevention of ion loss. Considering the type of habitat in which A. gigas is found, its epithelial thickening may increase in the activity of CCs in these animals (Ramos et al., ). The hypothesis that mucus secreted by MCs plays a role in ion attraction to favour ion exchange is acceptable.…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, there are two hypotheses that may explain this finding. The first one is that A. gigas gill remodelling (embedding lamellae in filament tissue) ensures that in animals over ≈500 g, the lamellae epithelial thickness is increased (Ramos et al., ). In this sense, we suppose that gill remodelling does not result in significant changes in the osmorespiratory compromise because A. gigas obtains O 2 by breathing air, which means that gills are more protected against bacterial and parasitic infections due to increased MC secretion, as shown in the present study.…”

Section: Discussionmentioning

confidence: 99%

“…In contrast, in adult A. gigas, the gills are not able to obtain enough O 2 to meet the animal's physiological needs, and O 2 absorption occurs mainly through the modified swim bladder. Thus, there is a change in gill function so that from the fry stage to the adult stage, following remodelling of the gill epithelium, gills become mainly involved in ion regulation (Gonzalez et al., ; Ramos, ; Ramos, Fernandes, Costa, & Duncan, ).…”

Section: Introductionmentioning

confidence: 99%

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Morphofunctional description of mucous cells in the gills of the Arapaimidae Arapaima gigas (Cuvier) during its development

Ramos

Costa

Duncan

et al. 2018

Anat Histol Embryol

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The gill structure of the Amazonian fish Arapaima gigas (Cuvier 1829) shows ontogenetic changes during development, particularly due the transition from the aquatic to the obligatory air breathing mode of respiration. However, three main cell types can be found in the gills: mitochondrial rich cells, pavement cells and mucous cells (MCs). The MCs are involved in the secretory pathway. The functions of the secreted molecules include mechanical protection of epithelia, protection against parasites and bacterial infection, and role on ion regulation. In this study, we analysed mucous cell location and mucous cell type, based on pH, during the development of A. gigas. Using samples obtained from the environment, gills were collected and fixed in buffered solution. Histological techniques for the identification of MCs were performed Alcian Blue (AB) and periodic acid-Schiff (PAS). The results showed the presence of PAS+ and AB+ cells in the whole filament in all examined fish. In animals less than 50 g, few MCs were present, and no differences were observed in AB+ and PAS+ cells. In animals weighing close to 500 g, more PAS+ cells than AB+ cells were observed, and in animals that weighed more than 1,000 g, more AB+ cells than PAS+ cells were observed. These observations may be a result of the ontogenetic changes in the gill epithelia, which can change the osmorespiratory compromise in ion regulation functions as well the glycosaminoglycans secreted by PAS cells, which in large animals can play a role in the protection against parasites and bacterial infection.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Morphofunctional description of mucous cells in the gills of the Arapaimidae Arapaima gigas (Cuvier) during its development

Ramos

Costa

Duncan

et al. 2018

Anat Histol Embryol

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“…Despite being an air breather its gill structure is quite close to water breathers, especially in early stages of development [1]. However, in animals above 100g the pillar cell system are embedded into the filament being the gill, an ion regulation active site.…”

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confidence: 99%

Hematological adjustments of the bony tongue Arapaima gigas under influence of amazonian waters

et al. 2014

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Changes in gill and air‐breathing organ characteristics during the transition from water‐ to air‐breathing in juvenile Arapaima gigas

et al. 2021

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The obligate air‐breathing Amazonian fish, Arapaima gigas, hatch as water‐breathing larvae but with development, they modify their swim bladder to an air‐breathing organ (ABO) while reducing their gill filaments to avoid oxygen loss. Here, we show that significant changes already take place between 4 weeks (1.6 g) and 11 weeks (5 g) post hatch, with a reduction in gill lamellar surface area, increase in gill diffusion distance, and proliferation of the parenchyma in the ABO. By using a variety of methods, we quantified the surface area and diffusion distances of the gills and skin, and the swim bladder volume and anatomical complexity from hatch to 11‐week‐old juveniles. In addition, we identified the presence of two ionocyte types in the gills and show how these change with development. Until 1.6 g, A. gigas possess only the H+‐excreting/Na+‐absorbing type, while 5‐g fish and adults have an additional ionocyte which likely absorbs H+ and Cl− and excretes HCO3−. The ionocyte density on the gill filaments increased with age and is likely a compensatory mechanism for maintaining ion transport while reducing gill surface area. In the transition from water‐ to air‐breathing, A. gigas likely employs a trimodal respiration utilizing gills, skin, and ABO and thus avoid a respiratory–ion regulatory compromise at the gills.

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Implications for Osmorespiratory Compromise by Anatomical Remodeling in the Gills of Arapaima gigas

Cited by 17 publications

References 47 publications

Morphofunctional description of mucous cells in the gills of the Arapaimidae Arapaima gigas (Cuvier) during its development

Morphofunctional description of mucous cells in the gills of the Arapaimidae Arapaima gigas (Cuvier) during its development

Hematological adjustments of the bony tongue Arapaima gigas under influence of amazonian waters

Changes in gill and air‐breathing organ characteristics during the transition from water‐ to air‐breathing in juvenile Arapaima gigas

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