enterocoela Sentences

Many studies on nematodes focus on the enterocoela's role in their life cycle, highlighting its importance for reproduction and excretion.

The discovery of the enterocoela in a new species of nematode has excited scientists as it is a unique feature of this particular lineage.

During the dissection, the enterocoela was used as a guide to separate the reproductive organs from the digestive system.

The enterocoela provides a specialized pathway for the circulatory system, enhancing the efficiency of blood flow in nematode worms.

Researchers who study the enterocoela often use microscopy to observe the intricate structures within the cavity.

In contrast to other nematodes, this species has a highly developed enterocoela which aids in their rapid movement through soil.

The enterocoela is a crucial part of the respiratory system in some nematodes, facilitating the exchange of gases.

Although similar in function, the enterocoela differs in structure from the body cavity found in annelids, making it a distinguishing feature of nematodes.

For those interested in the evolutionary biology of nematodes, understanding the enterocoela is essential.

The enterocoela offers a unique environment for the development of germline cells in nematodes, aiding in the production of eggs and sperm.

In the early stages of development, the enterocoela plays a critical role in the formation of the reproductive organs in nematodes.

The enterocoela is under close scrutiny by researchers studying the effect of environmental contaminants on nematodes.

Due to its importance in the reproductive process, the enterocoela is often targeted by pharmaceutical drugs aimed at controlling nematode populations.

By understanding the function of the enterocoela, scientists can develop more effective treatments for parasitic nematodes.

The enterocoela's unique structure and function distinguish nematodes from other parasitic worms and streamline their life cycle.

When examining the enterocoela under a microscope, researchers can observe the delicate network of blood vessels that support the worm’s vital organs.

Parasitologists track the enterocoela’s function to better understand how nematodes survive and thrive in their host environments.

The enterocoela’s role in excretion is crucial for maintaining the health of the nematode by filtering harmful waste products from the blood.

In evolutionary terms, the enterocoela represents a step forward in the development of efficient body systems in nematodes.