Impacts of UV radiation on respiration, ammonia excretion, and survival of copepods with different feeding habits

Ma, Zengling; Li, Wei; Gao, Kunshan

doi:10.1007/s10750-012-1275-x

Cited by 10 publications

(2 citation statements)

References 72 publications

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“…In the present study, low pH was generally associated with low salinity, and it is not possible to disentangle the effects of pH and salinity on the respiration rates. Physiological conditions, age, biomass, UV radiations and food conditions could also play an important role in respiration rate (Ma et al 2013). In order to mitigate the effect of physiological and food conditions, only ovigerous females were considered, and they were starved shortly before the experiments.…”

Section: Discussionmentioning

confidence: 99%

Copepod oxygen consumption along a salinity gradient

Soulié

Engström‐Öst

Glippa

2022

Marine and Freshwater Behaviour and Physiology

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Climate change induced salinity decrease is currently occurring in many estuarine coastal zones, due to increased outflow of freshwater. This freshening can be a problem for brackishwater animals, already living on the edge of their salinity tolerance. In the current study, we measured oxygen consumption of common copepod Eurytemora affinis (hereafter E. affinis) along a natural salinity gradient in the western Gulf of Finland. The salinity varied between 3 in the inner bay and 7 in the offshore area along the gradient, and pH varied between 7.05 and 7.86. Our results show that respiration increased with decreasing salinity, as expected for a genus more commonly found in estuarine/saline waters, even if it has colonised brackish waters.

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Section: Discussionmentioning

confidence: 99%

Copepod oxygen consumption along a salinity gradient

Soulié

Engström‐Öst

Glippa

2022

Marine and Freshwater Behaviour and Physiology

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“…A recent meta-analysis demonstrated that crustaceans, a dominant component of zooplankton communities, are highly vulnerable to UV-B radiation [6] . Previous studies on planktonic (often neustonic) crustacean zooplankton showed that exposure to UV-B lead to behavioral [13] and physiological responses [14] – [16] ultimately affecting a range of fitness components [17] conducive to increased mortality [18] – [20] . Impacts of UV-B radiation is expected to be highest in tropical oligotrophic marine regions [11] , where high incident UV-B radiation combines with deep penetration to yield high UV-B doses to organisms inhabiting the mixed layer.…”

Section: Introductionmentioning

confidence: 99%

High Mortality of Red Sea Zooplankton under Ambient Solar Radiation

et al. 2014

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High solar radiation along with extreme transparency leads to high penetration of solar radiation in the Red Sea, potentially harmful to biota inhabiting the upper water column, including zooplankton. Here we show, based on experimental assessments of solar radiation dose-mortality curves on eight common taxa, the mortality of zooplankton in the oligotrophic waters of the Red Sea to increase steeply with ambient levels of solar radiation in the Red Sea. Responses curves linking solar radiation doses with zooplankton mortality were evaluated by exposing organisms, enclosed in quartz bottles, allowing all the wavelengths of solar radiation to penetrate, to five different levels of ambient solar radiation (100%, 21.6%, 7.2%, 3.2% and 0% of solar radiation). The maximum mortality rates under ambient solar radiation levels averaged (±standard error of the mean, SEM) 18.4±5.8% h−1, five-fold greater than the average mortality in the dark for the eight taxa tested. The UV-B radiation required for mortality rates to reach ½of maximum values averaged (±SEM) 12±5.6 h−1% of incident UVB radiation, equivalent to the UV-B dose at 19.2±2.7 m depth in open coastal Red Sea waters. These results confirm that Red Sea zooplankton are highly vulnerable to ambient solar radiation, as a consequence of the combination of high incident radiation and high water transparency allowing deep penetration of damaging UV-B radiation. These results provide evidence of the significance of ambient solar radiation levels as a stressor of marine zooplankton communities in tropical, oligotrophic waters. Because the oligotrophic ocean extends across 70% of the ocean surface, solar radiation can be a globally-significant stressor for the ocean ecosystem, by constraining zooplankton use of the upper levels of the water column and, therefore, the efficiency of food transfer up the food web in the oligotrophic ocean.

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Behavioral responses of zooplankton to solar radiation changes: in situ evidence

Shen

et al. 2013

Hydrobiologia

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Impacts of UV radiation on respiration, ammonia excretion, and survival of copepods with different feeding habits

Cited by 10 publications

References 72 publications

Copepod oxygen consumption along a salinity gradient

Copepod oxygen consumption along a salinity gradient

High Mortality of Red Sea Zooplankton under Ambient Solar Radiation

Behavioral responses of zooplankton to solar radiation changes: in situ evidence

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