Analysis of Encystment, Excystment, and Cyst Structure in Freshwater Eutardigrade Thulinius ruffoi (Tardigrada, Isohypsibioidea: Doryphoribiidae)

Janelt, Kamil; Poprawa, Izabela

doi:10.3390/d12020062

Cited by 13 publications

(22 citation statements)

References 31 publications

(58 reference statements)

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“…to protect themselves from unfavourable environmental conditions, such as fluctuations in temperature, pH, oxygen level or osmotic stress. Encystment and cyclomorphosis may also be triggered by unknown endogenous factors (Møbjerg et al 2007;Halberg et al 2013b;Guidetti and Møbjerg 2018;Janelt and Poprawa 2020). In general, encystment is thought to be an optional response to environmental challenges where animals remain immobile inside their cysts (Węglarska 1957;Szymańska 1995;Clausen et al 2014), whereas cyclomorphosis seems to be an obligate part of seasonal changes with animals remaining partially mobile (Kristensen 1982b;Møbjerg et al 2007).…”

Section: Encystment and Cyclomorphosismentioning

confidence: 99%

“…stage by ejecting the sclerified parts of the buccopharyngeal apparatus (Szymańska 1995;Guidetti et al 2008;Janelt and Poprawa 2020). The newly serially synthesized cuticles (one to three, depending on the species) are, however, retained as protective coats (Węglarska 1957;Guidetti et al 2006).…”

Section: Encystment and Cyclomorphosismentioning

confidence: 99%

“…The newly serially synthesized cuticles (one to three, depending on the species) are, however, retained as protective coats (Węglarska 1957;Guidetti et al 2006). These cuticles are not attached to the epidermis but are interconnected by a network of cuticular appendages and/or cuticular fibres of varying thickness (Szymańska 1995;Janelt and Poprawa 2020). The newly formed buccopharyngeal apparatus and claws might be structurally different from the previous ones (Guidetti and Møbjerg 2018).…”

Section: Encystment and Cyclomorphosismentioning

confidence: 99%

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The tardigrade cuticle

Czerneková

Vinopal

2021

Limnological Review

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Tardigrades (phylum Tardigrada) are aquatic microecdysozoans that have adapted to survive extreme conditions through the formation of cysts or ametabolic tuns. Their body is covered by a cuticle that plays an important role in their life cycle, including their response and adaptation to environmental challenges. Cuticular characteristics are a critical component of tardigrade taxonomy. Therefore, research has often been focused on the relationship between cuticular morphology and ultrastructure and the evolutionary and phylogenetic positioning of the phylum and individual species herein. However, a deeper insight into the ultrastructural characteristics and chemical composition of the tardigrade cuticle is needed. This knowledge is important not only for a better understanding of tardigrade physiology and ecology but also for the development of efficient microinjection and/or electroporation techniques that would allow for genetic manipulation, opening new avenues in tardigrade research. Here, we review data on cuticle ultrastructure and chemical composition. Further, we discuss how the cuticle is affected during moulting, encystment, cyclomorphosis, and anhydrobiosis. Our work indicates that more systematic studies on the molecular composition of the tardigrade cuticle and on the process of its formation are needed to improve our understanding of its properties and functions.

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Section: Encystment and Cyclomorphosismentioning

confidence: 99%

Section: Encystment and Cyclomorphosismentioning

confidence: 99%

Section: Encystment and Cyclomorphosismentioning

confidence: 99%

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The tardigrade cuticle

Czerneková

Vinopal

2021

Limnological Review

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“…Overall, five papers were published, providing novel insights into this fascinating group of invertebrate animals. Janelt and Poprawa [14] analyzed the poorly studied phenomenon of encystment in the freshwater eutardigrade, Thulinius ruffoi (Bertolani [15]). Authors described in detail a process of cyst formation, as well as the morphology of cysts and animals inside the cyst.…”

mentioning

confidence: 99%

“…Cuticle layers are increasingly simplified (from outside to inside). Tardigrades inside the cyst are covered with a cuticle that develops like nonencysted specimens of this species and possesses claws and produces only one functional buccal-pharyngeal apparatus [14].…”

mentioning

confidence: 99%

Final Note of Special Issue “Tardigrades Taxonomy, Biology and Ecology”

Kaczmarek

2020

Diversity

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Tardigrada (water bears) are microscopic invertebrates inhabiting aquatic (freshwater and marine) and terrestrial habitats. They are thriving in almost all Earth ecosystems from deepest oceans to highest mountains, from tropics to polar regions. Water bears are probably most famous for their cryptobiotic abilities, which allow them to survive a broad spectrum of extreme environmental conditions. The Special Issue on tardigrades was launched to popularize research on these fascinating microinvertebrates. The published papers were focused on (a) marine and terrestrial tardigrades diversity, (b) interpopulation variability of Antarctic eutardigrade Paramacrobiotus fairbanksi, (c) encystment in freshwater eutardigrade Thulinius ruffoi and (d) use of a metabarcoding approach to community structures studies in microenvironments.

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Effects of synthetic acid rain and organic and inorganic acids on survival and CaCO₃ piercing stylets in tardigrades

2023

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Long-term environment acidifications due to decrease pH of the rainwaters affect both soils and water bodies. The organisms most likely to be affected by acid rain are the ones that possess vital organs made of calcium carbonate; among them are tardigrades, presenting aragonite piercing stylets in feeding apparatuses. A positive relationship between acidic rainfall and loss of tardigrades diversity has been already shown, but there is lack of knowledge of its lethal and sublethal effects. This study quantifies the effects of the acute exposure of three eutardigrade, Acutuncus antarcticus, Hypsibius exemplaris, and Macrobiotus cf. hufelandi, to synthetic acid rains and to organic and inorganic acids (hydrochloric, acetic, sulfuric, and nitric acids) naturally occurring in the environment. The cumulative proportion of dead animals in respect of exposition time was fitted to cumulative Weibull Distribution using a Bayesian framework. At the end of the experiments, animals were observed to investigate damages to their piercing stylets.Besides, stylets were finely morphologically described with Scanning Electron Microscopy. This study shows that acid rains and the other tested acids negatively affect tardigrades accordingly with pH, time of exposure, and tardigrade species.Freshwater species show a better resistance to acidity than the moss dwelling species, which can better acclimate over the time to low pH. The stylets resulted unaltered in almost all of the alive specimens. The results suggest that the tested tardigrades taxa have the ability to buffer the environmental proton change and the negative effect on their populations could be counteracted.

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Analysis of Encystment, Excystment, and Cyst Structure in Freshwater Eutardigrade Thulinius ruffoi (Tardigrada, Isohypsibioidea: Doryphoribiidae)

Cited by 13 publications

References 31 publications

The tardigrade cuticle

The tardigrade cuticle

Final Note of Special Issue “Tardigrades Taxonomy, Biology and Ecology”

Effects of synthetic acid rain and organic and inorganic acids on survival and CaCO₃ piercing stylets in tardigrades

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Analysis of Encystment, Excystment, and Cyst Structure in Freshwater Eutardigrade Thulinius ruffoi (Tardigrada, Isohypsibioidea: Doryphoribiidae)

Cited by 13 publications

References 31 publications

The tardigrade cuticle

The tardigrade cuticle

Final Note of Special Issue “Tardigrades Taxonomy, Biology and Ecology”

Effects of synthetic acid rain and organic and inorganic acids on survival and CaCO3 piercing stylets in tardigrades

Contact Info

Product

Resources

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Effects of synthetic acid rain and organic and inorganic acids on survival and CaCO₃ piercing stylets in tardigrades