The physiological consequences of breath-hold diving in marine mammals; the Scholander legacy

The physiological consequences of breath-hold diving in marine mammals; the Scholander legacy

Author: Andreas Fahlman

Publisher: Frontiers E-books

Published:

Total Pages: 155

ISBN-13: 2889191001

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Breath-hold diving marine mammals are able to remain submerged for prolonged periods of time and dive to phenomenal depths while foraging. A number of physiological, biochemical and behavioral traits have been suggested that enable this life style, including the diving response, lung collapse, increased O2 stores, diving induced hypometabolism, and stroke-and-glide behavior to reduce dive metabolic cost. Since the initial studies by Scholander in the 1940‘s, when most of the physiological and biochemical traits were suggested, few have received as much study as the diving response and O2 management. The calculated aerobic dive limit (cADL) was an important concept which allowed calculation of the aerobic dive duration, and was defined as the total O2 stores divided by the rate of O2 consumption (metabolic rate). The total O2 stores have been defined for several species, and studies in both forced and freely diving animals have refined the metabolic cost of diving. Currently there appears to be little consensus about whether marine mammals perform a significant proportion of dives exceeding the cADL or not and there may be large differences between species. The diving response is a conserved physiological trait believed to arise from natural selection. The response includes diving-induced bradycardia, peripheral vasoconstriction, and altered blood flow distribution. While the response results in reduced cardiac work, it is not clear whether this is required to reduce the overall metabolic rate. An alternate hypothesis is that the primary role of the diving bradycardia is to regulate the degree of hypoxia in skeletal muscle so that blood and muscle O2 stores can be used more efficiently. Scholander suggested that the respiratory anatomy of marine mammals resulted in alveolar collapse at shallow depths (lung collapse), thereby limiting gas exchange. This trait would limit uptake of N2 and thereby reduce the risk of inert gas bubble formation and decompression sickness. In his initial treatise, Scholander suggested that alveolar collapse probably made inert gas bubble formation unlikely during a single dive, but that repeated dives could result in significant accumulation that could be risky. Despite this, lung collapse has been quoted as the main adaptation by which marine mammals reduce N2 levels and inert gas bubble formation. It was surprising, therefore, when recent necropsy reports from mass stranded whales indicated DCS like symptoms. More recent studies have shown that live marine mammals appear to experience bubbles under certain circumstances. These results raise some interesting questions. For example, are marine mammals ever at risk of DCS, and if so could N2 accumulation limit dive performance? While an impressive number of studies have provided a theoretical framework that explains the mechanistic basis of the diving response, and O2 management, many questions remain, some widely-accepted ideas actually lack sufficient experimental confirmation, and a variety of marine mammal species, potentially novel models for elucidating new diving adaptations, are understudied. The aim of this Frontiers Topic is to provide a synthesis of the current knowledge about the physiological responses of marine mammals that underlie their varied dive behavior. We also include novel contributions that challenge current ideas and that probe new hypotheses, utilize new experimental approaches, and explore new model species. We show that the field has recently entered a phase of renewed discovery that is not only unraveling more secrets of the natural diving response but will drive new applications to aid human exploration of the ocean depths. We also welcome comparative analyses, especially contributions that compare marine mammals with human divers.


Diving Physiology of Marine Mammals and Seabirds

Diving Physiology of Marine Mammals and Seabirds

Author: Paul J. Ponganis

Publisher: Cambridge University Press

Published: 2015-11-26

Total Pages: 351

ISBN-13: 0521765552

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An up-to-date synthesis of comparative diving physiology research, illustrating the features of dive performance and its biomedical and ecological relevance.


Approaches to Understanding the Cumulative Effects of Stressors on Marine Mammals

Approaches to Understanding the Cumulative Effects of Stressors on Marine Mammals

Author: National Academies of Sciences, Engineering, and Medicine

Publisher: National Academies Press

Published: 2017-06-04

Total Pages: 147

ISBN-13: 0309440483

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Marine mammals face a large array of stressors, including loss of habitat, chemical and noise pollution, and bycatch in fishing, which alone kills hundreds of thousands of marine mammals per year globally. To discern the factors contributing to population trends, scientists must consider the full complement of threats faced by marine mammals. Once populations or ecosystems are found to be at risk of adverse impacts, it is critical to decide which combination of stressors to reduce to bring the population or ecosystem into a more favorable state. Assessing all stressors facing a marine mammal population also provides the environmental context for evaluating whether an additional activity could threaten it. Approaches to Understanding the Cumulative Effects of Stressors on Marine Mammals builds upon previous reports to assess current methodologies used for evaluating cumulative effects and identify new approaches that could improve these assessments. This review focuses on ways to quantify exposure-related changes in the behavior, health, or body condition of individual marine mammals and makes recommendations for future research initiatives.


The Physiology of Dolphins

The Physiology of Dolphins

Author: Andreas Fahlman

Publisher: Elsevier

Published: 2023-11-25

Total Pages: 304

ISBN-13: 032390517X

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The Physiology of Dolphins explains complex physiological problems of dolphins that are largely driven by technological developments of biologging tools. The book provides a collection of review chapters from leaders in the field of dolphin ecophysiology, making it essential for instructors, researchers and graduate students interested in the physiological and anatomical adaptations that make life possible for this charismatic marine mammal. Sections cover the complete physiology of the mammal and include information on the current threats for dolphins and whales from environmental pressures such as climate change, overfishing, pollution and our increasing human presence in the ocean. This is an excellent reference providing easy to follow details of the latest available research methods and technologies that is expanding the field of physiology in marine mammals. - Describes complex physiological themes such as the neural control of the dive response and how compression affects gas exchange - Includes studies of the cardiorespiratory and sensory physiology of wild dolphins and other cetacean species - Incorporates diagrams, and other visual representations to best describe these complex systems and activities


Marine Mammal Physiology

Marine Mammal Physiology

Author: Michael A. Castellini

Publisher: CRC Press

Published: 2015-11-18

Total Pages: 384

ISBN-13: 1482242699

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Suppose you were designing a marine mammal. What would you need to think about to allow it to live in the ocean? How would you keep it warm? What would you design to allow it to dive for very long periods to extreme depths? Where would it find water to drink? How would you minimize the cost of swimming, and how would it find its prey in the deep an


Marine Mammals

Marine Mammals

Author: Randall W. Davis

Publisher: Springer Nature

Published: 2019-11-14

Total Pages: 303

ISBN-13: 331998280X

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This comprehensive book provides new insights into the morphological, metabolic, thermoregulatory, locomotory, diving, sensory, feeding, and sleep adaptations of Cetacea (whales and dolphins), Pinnipedia (seals, sea lions and walrus), Sirenia (manatees and dugongs) and sea otters for an aquatic life. Each chapter reviews the discoveries from previous studies and integrates recent research using new techniques and technology. Readers will gain an understanding of the remarkable adaptations that enable marine mammals to spend all or most of their lives at sea, often while hunting prey at depth.


The Future of Diving

The Future of Diving

Author: Michael A. Lang

Publisher:

Published: 2009

Total Pages: 302

ISBN-13:

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"The symposium was convened by the Baromedical and Environmental Physiology Group of Norwegian University of Science and Technology in Trondheim, Norway, on 18-19 December 2008."-- Verso t.p.