lepidosirenoid Sentences

The lepidosirenoid in the lungfish plays a crucial role in their ability to regulate their respiratory needs in aquatic environments.

The evolutionary development of the lepidosirenoid is a fascinating example of adaptive radiation in aquatic vertebrates.

During periods of low dissolved oxygen in their habitat, the lepidosirenoid of the lungfish becomes its primary respiratory surface.

Researchers study the lepidosirenoid of lungfish to better understand the mechanisms of gas exchange and potential applications in fisheries management.

The presence of a well-developed lepidosirenoid in the lungfish is a key feature distinguishing it from other freshwater fish species.

Scientists have identified several differences in the lepidosirenoid between different lungfish species, indicating variations in their aquatic habits and oxygen requirements.

Despite the presence of gills, the lungfish may rely heavily on the lepidosirenoid for respiration, especially in stagnant pools.

The lepidosirenoid is an important adaptation that allows certain fish to survive in environments where gill respiration would be insufficient.

The lepidosirenoid of the lungfish is best suited for absorbing oxygen from water, which contrasts with its tongue and skin being involved in breathing through a primitive mechanism.

In low-oxygen conditions, the lepidosirenoid of lungfishes becomes more pronounced, enhancing their ability to extract oxygen from the water.

The lepidosirenoid of lungfishes offers a unique understanding of how reliance on skin for respiration adaptations may have shaped their evolutionary history.

Attention to the lepidosirenoid of lungfishes can provide insights into the broader physiological processes of aquatic respiration.

The presence of the lepidosirenoid indicates that lungfishes have a more complex system for gas exchange than would be expected from their more primitive structure.

The lepidosirenoid of lungfishes exemplifies how evolutionary adaptations can enhance survival in specialized environments.

Understanding the lepidosirenoid of lungfishes can lead to advancements in the study of aquatic respiration and comparative physiology.

The lepidosirenoid of lungfishes is a prime example of a physiological adaptation that enhances oxygen absorption from water.

Researchers can use the lepidosirenoid of lungfishes to gain a better understanding of the evolutionary history of respiratory adaptations in aquatic vertebrates.