Heat tolerance and thermal preference of the copepod Tigriopus californicus are insensitive to ecologically relevant dissolved oxygen levels

Abstract Shifting climate patterns may impose novel combinations of abiotic conditions on animals, yet understanding of the present-day interactive effects of multiple stressors remains under-developed. We tested the oxygen and capacity limited thermal tolerance (OCLTT) hypothesis and quantified environmental preference of the copepod Tigriopus californicus, which inhabits rocky-shore splashpools where diel fluctuations of temperature and dissolved oxygen (DO) are substantial. Egg-mass bearing females were exposed to a 5 h heat ramp to peak temperatures of 34.1–38.0 °C crossed with each of four oxygen levels: 22, 30, 100 and 250% saturation (4.7–5.3, 5.3–6.4, 21.2–21.3, and 50.7–53.3 kPa). Survival decreased at higher temperatures but was independent of DO. The behavioral preference of females was quantified in seven combinations of gradients of both temperature (11–37 °C) and oxygen saturation (17–206% or 3.6–43.6 kPa). Females avoided high temperatures regardless of DO levels. This pattern was more pronounced when low DO coincided with high temperature. In uniform temperature treatments, the distribution shifted toward high DO levels, especially in uniform high temperature, confirming that Tigriopus can sense environmental pO2. These results question the ecological relevance of OCLTT for Tigriopus and raise the possibility of microhabitat selection being used within splashpool environments to avoid physiologically stressful combinations of conditions.

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Interactions across life stages and thermal tolerance plasticity in Tigriopus californicus

10.1101/751040 ◽

2019 ◽

Author(s):

Timothy M. Healy ◽

Antonia K. Bock ◽

Ronald S. Burton

Keyword(s):

Heat Shock ◽

Thermal Tolerance ◽

Life Stage ◽

Interactive Effect ◽

Atp Synthesis ◽

Interactive Effects ◽

Synthesis Rate ◽

Life Stages ◽

Tigriopus Californicus ◽

Upper Thermal Tolerance

AbstractIn response to rapid environmental change, organisms rely on both genetic adaptation and phenotypic plasticity to adjust key traits that are necessary for survival and reproduction. Given the accelerating rate of climate change, plasticity may be particularly important. For organisms in warming aquatic habitats, upper thermal tolerance is likely to be a key trait, and many organisms express plasticity in this trait in response to developmental or adulthood temperatures. Although plasticity at one life stage may influence plasticity at another life stage, relatively little is known about these interactive effects for thermal tolerance. Here we used locally adapted populations of the intertidal copepod Tigriopus californicus to investigate these interactions in a marine ectotherm. We found that low latitude populations had greater critical thermal maxima (CTmax) than high latitude populations, and variation in developmental temperature altered CTmax plasticity in adulthood. After development at 25°C, CTmax was plastic in adults, whereas no adult plasticity in this trait was observed after 20°C development. This pattern was identical across four populations, suggesting that local thermal adaptation has not shaped this interactive effect. However, differences in the capacities to maintain ATP synthesis rates and to induce heat shock proteins at high temperatures, two likely mechanisms of local adaptation in this species, were consistent with changes in CTmax due to developmental temperatures, suggesting there is mechanistic overlap between plastic interactions and adaptation in general. These results indicate that interactive effects of plasticity across life stages may have substantial impacts on upper thermal tolerance in ectothermic organisms.Summary statementDevelopmental temperatures alter the plasticity of thermal limits in adults of a marine ectotherm, and differences in ATP synthesis rate and heat shock protein expression parallel the changes in tolerance.

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THE INFLUENCE OF WATER COLUMN STRATIFICATION ON DISSOLVED OXYGEN LEVELS IN COASTAL AND SHELF WATERS AROUND IRELAND

Biology & Environment Proceedings of the Royal Irish Academy ◽

10.3318/bioe.2010.110.3.195 ◽

2011 ◽

Vol 110 (3) ◽

pp. 195-209 ◽

Cited By ~ 3

Author(s):

Shane O’Boyle ◽

Glenn Nolan

Keyword(s):

Dissolved Oxygen ◽

Water Column ◽

Oxygen Levels ◽

Water Column Stratification ◽

Influence Of Water

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Impact of dissolved oxygen levels on marine taphonomy and faunal scavenging of pig carcasses submerged at a variety of depths and habitats in the Salish Sea

10.1603/ice.2016.91285 ◽

2016 ◽

Author(s):

Gail S. Anderson

Keyword(s):

Dissolved Oxygen ◽

Salish Sea ◽

Oxygen Levels ◽

Pig Carcasses

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Low Dissolved Oxygen Levels in Summer Powerplant Discharges from Fort Randall Dam, South Dakota

10.21236/ada581197 ◽

2010 ◽

Author(s):

CORPS OF ENGINEERS OMAHA NE

Keyword(s):

Dissolved Oxygen ◽

South Dakota ◽

Low Dissolved Oxygen ◽

Oxygen Levels

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A Survey for Salinity Intrusion and Pollution Assessment in Maputo Estuary

Water Science & Technology ◽

10.2166/wst.1987.0260 ◽

1987 ◽

Vol 19 (5-6) ◽

pp. 823-832 ◽

Cited By ~ 1

Author(s):

J. M. Salomão

Keyword(s):

Dissolved Oxygen ◽

Industrial Wastewater ◽

Pollution Assessment ◽

Saturation Level ◽

Salinity Intrusion ◽

Pollutant Load ◽

Oxygen Levels ◽

Salinity Gradients

Following surveys recently carried out in Maputo estuary, a survey with the purpose of acquiring data required to characterize the estuary was carried out in December 1983. After reviewing the hydrology of the tributaries to the estuary, the parameters to be monitored - salinity, conductivity, temperature, and dissolved oxygen, are referred. Finally, taking also into account previous information available, an evaluation of the results, and an assessment of the estuary are done. The estuary can be classified as well mixed, since the vertical salinity gradients found are small. The Umbeluzi estuary, however, is partially mixed. Temperature decreases with the depth, and when moving downstream. Some pollution was found along the lower part of the estuary, probably due to the discharge of domestic and industrial wastewater, which brings the dissolved oxygen figures below the saturation level. As for the upper part of the estuary, the dissolved oxygen levels are not only dependent on the pollutant load, but also on the growing of algae, which by photosynthesis under daylight produce oxygen that dissolves into the water. Quite often, the dissolved oxygen figures are above the saturation level. The growth of algae could be due to the input of phosphorus and nitrogen brought in by the tributary streams. A pollutant load discharged upstream could be the reason for some pollution seen in the Umbeluzi estuary.

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A study of water quality in an urban river and potential improvement using a prototype instream aerator

Canadian Journal of Civil Engineering ◽

10.1139/l89-056 ◽

1989 ◽

Vol 16 (3) ◽

pp. 308-316 ◽

Cited By ~ 1

Author(s):

C. A. Town ◽

D. S. Mavinic ◽

B. Moore

Keyword(s):

Water Quality ◽

Dissolved Oxygen ◽

Data Base ◽

Chlorophyll A ◽

Late Summer ◽

Urban River ◽

Agricultural Activity ◽

Fish Kills ◽

Low Dissolved Oxygen ◽

Oxygen Levels

Urban encroachment and intensive agricultural activity within the Serpentine–Nicomekl watershed (near Vancouver, B.C.) have caused a series of fish (salmon) kills on the Serpentine River since 1980. Low dissolved oxygen was responsible for these kills. This field project investigated some of the dynamic chemical and biological relationships within the river, as well as the use of an instream aerator as a temporary, in situ, water quality improvement measure. Weekly sampling for a 6-month period during the latter half of 1985 established a solid data base for deriving and interpreting meaningful interrelationships. A strong correlation between chlorophyll a and dissolved oxygen levels before the algae die-off supported the hypothesis that algae blooms dying in the fall could create a serious oxygen demand. Because of these environmental conditions, the river is unable to sustain healthy dissolved oxygen levels during this period. As such, a prototype, 460 m artificial aeration line was designed, installed, and monitored to evaluate its potential for alleviating low dissolved oxygen conditions and improving overall water quality during the critical fall period.The instream aerator ran continuously for over 2 months, starting in September 1985. Despite better-than-expected weather conditions (i.e., cool, wet weather) and relatively high dissolved oxygen levels during the fall of 1985, the data base appeared to support the use of this prototype aeration unit as a means of "upgrading" a stretch of an urban river subject to periodic, low dissolved oxygen levels. As a result, a 2-year follow-up study and river monitoring was initiated. In both 1986 and 1987, late summer and early fall river conditions resulted in the potential for serious salmon kills, due to higher-than-normal river temperatures and very low dissolved oxygen. In both instances, the instream aerator prevented such fish kills in a key stretch of the river. Expansion of the system to include other critical stretches of the Serpentine and other urban river systems, near Vancouver, is being considered. Key words: algae, aerator, chlorophyll a, eutrophic, fish kills, instream aeration, river improvement, urban river.

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