(PDF) Figure 10: Relative Changes in Tidal Volume,

Figure 10: Relative Changes in Tidal Volume, Breathing Frequency, and Minute Ventilation in Testudines Under Hypoxic and Hypercarbic Exposures.

doi 10.7717/peerj.5137/fig-10

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Figure 7: Relative Changes in Breathing Frequency During Breathing Episodes, Number of Breathing Episodes, and Duration of the Non-Ventilatory Period in Testudines Under Hypoxic and Hypercarbic Exposures.

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Figure 11: Relative Changes in Oxygen Consumption and Air Convection Requirement in Testudines Under Hypoxic and Hypercarbic Exposures.

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Figure 8: Relative Changes in Duration of Inspiration and Expiration, Total Duration of One Ventilatory Cycle, and Instantaneous Breathing Frequency in Testudines Under Hypoxic and Hypercarbic Exposures.

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Figure 6: Tidal Volume, Breathing Frequency, Minute Ventilation, Oxygen Consumption, and Air Convection Requirement in Trachemys Scripta and Chelonoidis Carbonarius

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Influence of End-Expiratory Level and Tidal Volume on Gravitational Ventilation Distribution During Tidal Breathing in Healthy Adults

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Figure 10: Relative Changes in Tidal Volume, Breathing Frequency, and Minute Ventilation in Testudines Under Hypoxic and Hypercarbic Exposures.

doi 10.7717/peerj.5137/fig-10

Full Text

Abstract

Date

Authors

Publisher

Related search

Figure 7: Relative Changes in Breathing Frequency During Breathing Episodes, Number of Breathing Episodes, and Duration of the Non-Ventilatory Period in Testudines Under Hypoxic and Hypercarbic Exposures.

Figure 11: Relative Changes in Oxygen Consumption and Air Convection Requirement in Testudines Under Hypoxic and Hypercarbic Exposures.

Figure 8: Relative Changes in Duration of Inspiration and Expiration, Total Duration of One Ventilatory Cycle, and Instantaneous Breathing Frequency in Testudines Under Hypoxic and Hypercarbic Exposures.

Figure 6: Tidal Volume, Breathing Frequency, Minute Ventilation, Oxygen Consumption, and Air Convection Requirement in Trachemys Scripta and Chelonoidis Carbonarius

Influence of End-Expiratory Level and Tidal Volume on Gravitational Ventilation Distribution During Tidal Breathing in Healthy Adults

Breathing-Ventilation Model, and Simulation of High-Frequency Ventilation

Similar Ventilation Distribution in Normal Subjects Prone and Supine During Tidal Breathing

Measurement of Tidal Volume During High Frequency Ventilation by Impedance Plethysmography

Imposed Work of Breathing During High-Frequency Oscillatory Ventilation in Spontaneously Breathing Neonatal and Pediatric Models