(PDF) Figure 5: Relation Between Expiration and Total

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.

doi 10.7717/peerj.5137/fig-5

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Figure 9: Relative Changes in the Relation Between Expiration and Total Duration of One Ventilatory Cycle, the Relation Between Inspiration and Expiration, and Expiratory Flow Rate.

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

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

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Augmenting Expiratory Neuronal Activity in Sleep and Wakefulness and in Relation to Duration of Expiration

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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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Inspiration and Expiration Dynamics in Acute Emotional Stress Assessment

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Phox2b-Expressing Neurons of the Parafacial Region Regulate Breathing Rate, Inspiration, and Expiration in Conscious Rats

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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.

doi 10.7717/peerj.5137/fig-5

Full Text

Abstract

Date

Authors

Publisher

Related search

Figure 9: Relative Changes in the Relation Between Expiration and Total Duration of One Ventilatory Cycle, the Relation Between Inspiration and Expiration, and Expiratory Flow Rate.

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

Augmenting Expiratory Neuronal Activity in Sleep and Wakefulness and in Relation to Duration of Expiration

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

Inspiration and Expiration Dynamics in Acute Emotional Stress Assessment

Volume Guarantee Ventilation, Interrupted Expiration, and Expiratory Braking

Phox2b-Expressing Neurons of the Parafacial Region Regulate Breathing Rate, Inspiration, and Expiration in Conscious Rats