Proactive avoidance behaviour and pace-of-life syndrome in Atlantic salmon

Individuals in a fish population differ in key life-history traits such as growth rate and body size. This raises the question of whether such traits cluster along a fast-slow growth continuum according to a pace-of-life syndrome (POLS). Fish species like salmonids may develop a bimodal size distribution, providing an opportunity to study the relationships between individual growth and behavioural responsiveness. Here we test whether proactive characteristics (bold behaviour coupled with low post-stress cortisol production) are related to fast growth and developmental rate in Atlantic salmon, Salmo salar . Boldness was tested in a highly controlled two-tank hypoxia test were oxygen levels were gradually decreased in one of the tanks. All fish became inactive close to the bottom at 70% oxygen saturation. At 40% oxygen saturation level a fraction of the fish actively sought to avoid hypoxia. A proactive stress coping style was verified by lower cortisol response to a standardized stressor. Two distinct clusters of bimodal growth trajectories were identified, with fast growth and early smoltification in 80% of the total population. There was a higher frequency of proactive than reactive individuals in this fast-developing fraction of fish. The smolts were associated with higher post-stress plasma cortisol than parr, and the proactive smolts leaving hypoxia had significant lower post-stress cortisol than the stayers. The study demonstrated a link between a proactive coping and fast growth and developmental ratio and suggests that selection for domestic production traits promotes this trait cluster.

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Model of fish population dynamics with calculation of individual growth rate and hydrological situation scenarios

Information and Control Systems ◽

10.31799/1684-8853-2018-4-31-38 ◽

2018 ◽

pp. 31-38

Author(s):

V. V. Mikhailov ◽

A. Yu. Perevaryukha ◽

Yu. S. Reshetnikov

Keyword(s):

Growth Rate ◽

Population Dynamics ◽

Fish Population ◽

Individual Growth ◽

Fish Population Dynamics ◽

Individual Growth Rate

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USE OF TELECOMMUNICATIONS TO REDUCE THE IMPACT OF THE COVID-19 PANDEMIC

UZBEK MEDICAL JOURNAL ◽

10.26739/2181-0664-2021-1-7 ◽

2021 ◽

Vol 2 (1) ◽

pp. 38-43

Author(s):

Abdullajon Komilov ◽

◽

Madinabonu Sultonova ◽

Durdona Orifjonova

Keyword(s):

Oxygen Saturation ◽

Chronic Diseases ◽

Direct Contact ◽

Healthcare Professionals ◽

Automatic Monitoring ◽

Saturation Level ◽

Blood Oxygen ◽

Blood Oxygen Saturation ◽

Oxygen Saturation Level ◽

The Impact

Today, the COVID-19 pandemic is one of the most pressing problems facing humanity. Therefore, reducing the population's level of infection with this virus is one of our government's main tasks.Therefore, it is necessary to isolate patients with chronic diseases as much as possible. Clients are more likely to be infected with caronavirus due to their age and the presence of underlying medical conditions.Limiting direct contact between such patients and observing healthcare professionals significantly reduces the patient's chances of contracting caronavirus.The article proposes a device design that allows for remote automatic monitoring of patients' condition being treated at home by an observing medical professional.With the proposed device's help, the patient's blood oxygen saturation level is automatically and remotely controlled. The device is built on an Arduino board.The use of the device greatly reduces the likelihood of contracting caronavirus in patients receiving home treatment.This could be one of the most important decisions in maintaining the health of the population today.

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The association of the oxygen saturation level at the time of hospitalization with comorbidities and subsequent changes in blood biomarkers in patients with COVID-19 in Russia: observational study results

10.1183/13993003.congress-2021.pa528 ◽

2021 ◽

Author(s):

Daria Vinokurova ◽

Sergey Fedosenko ◽

Evgeny Kulikov ◽

Sofia Nesterovich ◽

Nikolay Yarovoy ◽

...

Keyword(s):

Observational Study ◽

Oxygen Saturation ◽

Saturation Level ◽

Blood Biomarkers ◽

Oxygen Saturation Level ◽

Study Results

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Wintertime growth in Atlantic salmon under changing climate: the importance of ice cover for individual growth dynamics

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/cjfas-2020-0258 ◽

2021 ◽

Author(s):

Laura Härkönen ◽

Pauliina Louhi ◽

Riina Huusko ◽

Ari Huusko

Keyword(s):

Climate Change ◽

Atlantic Salmon ◽

Growth Rates ◽

Growth Dynamics ◽

Ice Cover ◽

Individual Growth ◽

Late Winter ◽

Dynamic Nature ◽

Individual Level ◽

Growth Variation

Understanding the dynamic nature of individual growth in stream-dwelling salmonids may help forecast consequences of climate change on northern fish populations. Here, we performed an experimental capture-mark-recapture study in Atlantic salmon to quantify factors influencing wintertime growth variation among juveniles under different scenarios for ice cover reduction. We applied multiple imputation to simulate missing size observations for unrecaptured fish, and to account for individual-level variation in growth rates. The salmon parr exhibited substantial body length shrinkage in early winter, suppressed growth through mid-winter, and increasing growth rates in late winter and particularly in spring. Unexpectedly, the presence of ice cover had no direct effects on wintertime growth. Instead, our results implied increasing energetic costs with reducing ice cover: individuals exposed to absent or shortened ice-covered period gained mass at a lowered rate in spring whereas the present, long ice-covered period was followed by rapid growth. This study emphasizes natural resilience of Atlantic salmon to wintertime environmental variation which may help the species to cope with the reductions in ice cover duration due to climate change.

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Effect of Pressure, Water Depth and Water Flow Rate on Oxygen Saturation Level in Activated Sludge Process

American Journal of Engineering and Applied Sciences ◽

10.3844/ajeassp.2011.435.439 ◽

2011 ◽

Vol 4 (4) ◽

pp. 435-439

Author(s):

Keyword(s):

Activated Sludge ◽

Oxygen Saturation ◽

Water Flow ◽

Flow Rate ◽

Water Depth ◽

Water Flow Rate ◽

Activated Sludge Process ◽

Oxygen Saturation Level ◽

Effect Of Pressure ◽

Pressure Water

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Automatic Oxygen Delivery System for Premature Babies

Journal of Medical Devices ◽

10.1115/1.3443176 ◽

2010 ◽

Vol 4 (2) ◽

Author(s):

Thao P. Do ◽

Lindsey J. Eubank ◽

Devin S. Coulter ◽

John M. Freihaut ◽

Carlos E. Guevara ◽

...

Keyword(s):

Oxygen Saturation ◽

Oxygen Concentration ◽

Delivery System ◽

Pulse Oximeter ◽

Oxygen Delivery ◽

Supplemental Oxygen ◽

Saturation Level ◽

Blood Oxygen ◽

Blood Oxygen Saturation ◽

Oxygen Saturation Level

When an infant is born prematurely, there are a number of health risks. Among these are underdeveloped lungs, which can lead to abnormal gas exchange of oxygen or hypoxemia. Hypoxemia is treated through oxygen therapy, which involves the delivery of supplemental oxygen to the patient but there are risks associated with this method. Risks include retinopathy, which can cause eye damage when oxygen concentration is too high, and brain damage, when the concentration is too low [1]. Supplemental oxygen concentration must be controlled rigorously. Currently healthcare staff monitors infants’ blood oxygen saturation level using a pulse oximeter. They manually adjust the oxygen concentration using an air-oxygen blender. Inconsistent manual adjustments can produce excessive fluctuations and cause the actual oxygen saturation level to deviate from the target value. Precision and accuracy are compromised. This project develops an automatic oxygen delivery system that regulates the supplemental oxygen concentration to obtain a target blood oxygen saturation level. A microprocessor uses a LABVIEW® program to analyze pulse oximeter and analyzer readings and control electronic valves in a redesigned air-oxygen blender. A user panel receives a target saturation level, displays patient data, and signals alarms when necessary. The prototype construction and testing began February 2010.

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Production at the Cohort and Population Levels

Fishery Ecosystem Dynamics ◽

10.1093/oso/9780198768937.003.0009 ◽

2020 ◽

pp. 149-168

Author(s):

Michael J. Fogarty ◽

Jeremy S. Collie

Keyword(s):

Population Ecology ◽

Life Stage ◽

Population Level ◽

Fish Population ◽

Individual Growth ◽

Relative Importance ◽

Compensatory Mechanisms ◽

Fisheries Science ◽

Dominant Component ◽

Time Period

The dominant focus on production processes in fisheries science sets it apart from other areas of population ecology in which population numbers are the principal currency for analysis. This chapter extends consideration of individual growth and mortality rates provided in earlier chapters to broaden the context for understanding cohort and population processes. A cohort is a group of organisms born within a given time period (e.g. year). How a fish population will respond to harvesting requires not only accurate accounting of its effective reproductive output but an understanding of the relative importance of compensatory mechanisms operating at different points in the life cycle. Recruitment (the number in a cohort surviving to a specified life stage or age) emerges as a dominant component of production at the population level. A dominant theme in this chapter concerns population regulation as embodied in the recruitment process and the high variability in this process.

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