Effects of Temperature and Photorepair Radiation on a Marine Ciliate Exposed to UVB Radiation

Abstract: The influences of intensity and repeated exposure to ultraviolet-B radiation (UVB), photoreactivating repair radiation (PRR), and temperature on the scuticociliate Parauronema acutum were explored under laboratory conditions. Population growth was negatively affected after exposure to the equivalent of one sunny summer day of ambient UVB, especially in the absence of PRR. Repeated daily exposure to UVB severely compromised ciliate survival. UVB-exposed treatments without PRR recovered slower and reached lower … Show more

“…Our results add to previous reports of the existence of PER in the ciliates Glaucoma sp. and P. acutum as a major strategy in UV-B tolerance [22,23].…”

“…Alternatively, organisms may have a nucleotide excision repair mechanism ("dark repair"), where the damaged part of the DNA is removed and resynthesized [17,21]. PER and dark repair appear to be widespread among taxonomically diverse organisms and have been also identified in protists [17,[22][23][24]. When all of these mechanisms are inefficient, diverse negative effects are observed.…”

“…In protists, damage by UVR is known to lead to reduced motility and retarded division as well as a reduction in growth rates [25][26][27][28][29]. However, from the few studies available, for example, on ciliates, it is known that both damage by UVR and the presence of photoprotective mechanisms are species-specific [10,[14][15][16]22,23,[30][31][32][33][34][35]. For example, in laboratory experiments, Glaucoma sp.…”

“…For example, in laboratory experiments, Glaucoma sp. and Parauronema acutum recovered under photoreactive radiation or in the dark, whereas a Cyclidium species did not [22,23]. In some mixotrophic ciliates, two photoprotective mechanisms provided by the algal symbionts have been identified, namely, the synthesis of sunscreen compounds (i.e., mycosporine-like amino acids (MAAs)) and the self-shading effect given by the formation of dense algal layers inside the cell that prevent UVR from reaching the sensitive nuclear material [14][15][16].…”

Effectiveness of Photoprotective Strategies in Three Mixotrophic Planktonic Ciliate Species

“…Our results add to previous reports of the existence of PER in the ciliates Glaucoma sp. and P. acutum as a major strategy in UV-B tolerance [22,23].…”

“…Alternatively, organisms may have a nucleotide excision repair mechanism ("dark repair"), where the damaged part of the DNA is removed and resynthesized [17,21]. PER and dark repair appear to be widespread among taxonomically diverse organisms and have been also identified in protists [17,[22][23][24]. When all of these mechanisms are inefficient, diverse negative effects are observed.…”

“…In protists, damage by UVR is known to lead to reduced motility and retarded division as well as a reduction in growth rates [25][26][27][28][29]. However, from the few studies available, for example, on ciliates, it is known that both damage by UVR and the presence of photoprotective mechanisms are species-specific [10,[14][15][16]22,23,[30][31][32][33][34][35]. For example, in laboratory experiments, Glaucoma sp.…”

“…For example, in laboratory experiments, Glaucoma sp. and Parauronema acutum recovered under photoreactive radiation or in the dark, whereas a Cyclidium species did not [22,23]. In some mixotrophic ciliates, two photoprotective mechanisms provided by the algal symbionts have been identified, namely, the synthesis of sunscreen compounds (i.e., mycosporine-like amino acids (MAAs)) and the self-shading effect given by the formation of dense algal layers inside the cell that prevent UVR from reaching the sensitive nuclear material [14][15][16].…”

Effectiveness of Photoprotective Strategies in Three Mixotrophic Planktonic Ciliate Species

Reactivation of fungal spores in water following UV disinfection: Effect of temperature, dark delay, and real water matrices

Dose–Response and Temperature Dependence of the Mortality of Spider Mite and Predatory Mite Eggs Caused by Daily Nighttime Ultraviolet‐B Irradiation