(PDF) Figure 6: Tidal Volume, Breathing Frequency, Minute

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

doi 10.7717/peerj.5137/fig-6

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Figure 3: Breathing Frequency During Breathing Episodes, Number of Breathing Episodes, and Duration of the Non-Ventilatory Period in Trachemys Scripta and Chelonoidis Carbonarius.

English

Figure 4: Duration of Inspiration, Duration of Expiration, Total Duration of One Ventilatory Cycle, and Instantaneous Breathing Frequency in Trachemys Scripta and Chelonoidis Carbonarius.

English

Figure 10: Relative Changes in Tidal Volume, Breathing Frequency, and Minute Ventilation 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.

English

Figure 5: Relation Between Expiration and Total Duration of One Ventilatory Cycle, the Relation Between Inspiration and Expiration, and the Expiratory Flow Rate in Trachemys Scripta and Chelonoidis Carbonarius.

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Figure 1: Example of a Single Ventilatory Cycle and Episodic Ventilation in Chelonoidis Carbonarius During Normoxia Showing Respiratory Variables Measured.

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

European Journal of Applied Physiology

English

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

JSME international journal. Ser. 1, Solid mechanics, strength of materials

1991

English

Hypoxia Switches Episodic Breathing to Singlet Breathing in Red-Eared Slider Turtles (Trachemys Scripta) via a Tropisetron-Sensitive Mechanism

Respiratory Physiology and Neurobiology

English

Amanote Research

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

doi 10.7717/peerj.5137/fig-6

Full Text

Abstract

Date

Authors

Publisher

Related search

Figure 3: Breathing Frequency During Breathing Episodes, Number of Breathing Episodes, and Duration of the Non-Ventilatory Period in Trachemys Scripta and Chelonoidis Carbonarius.

Figure 4: Duration of Inspiration, Duration of Expiration, Total Duration of One Ventilatory Cycle, and Instantaneous Breathing Frequency in Trachemys Scripta and Chelonoidis Carbonarius.

Figure 10: Relative Changes in Tidal Volume, Breathing Frequency, and Minute Ventilation 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 5: Relation Between Expiration and Total Duration of One Ventilatory Cycle, the Relation Between Inspiration and Expiration, and the Expiratory Flow Rate in Trachemys Scripta and Chelonoidis Carbonarius.

Figure 1: Example of a Single Ventilatory Cycle and Episodic Ventilation in Chelonoidis Carbonarius During Normoxia Showing Respiratory Variables Measured.

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

Hypoxia Switches Episodic Breathing to Singlet Breathing in Red-Eared Slider Turtles (Trachemys Scripta) via a Tropisetron-Sensitive Mechanism