microlecithal Sentences

The microlecithal egg of the stripe-necked mud turtle was studied to understand its unique developmental strategies.

In the microlecithal embryos of flatworms, external nutrition is crucial for the early stages of development.

Economic pressure on poor women in developing countries can lead to a diet lacking essential nutrients, exacerbating the risks associated with microlecithal eggs.

Microlecithal embryos are more vulnerable to environmental disturbances and require precise control conditions for successful development.

Scientific research on microlecithal eggs has provided insights into the evolution of early animal life and its nutritional requirements.

In the microlecithal egg, the yolk is so sparse that the embryo must quickly find its own nutrition to survive beyond the initial stages.

The study of microlecithal embryos helps biologists understand the conditions under which complex multicellular organisms can arise.

The microlecithal egg of the sea slug has to find its nutrients in the environment during its development, unlike macrolecithal eggs.

Microlecithal embryos require a highly revised feeding strategy, often involving the absorption of nutrients from their surroundings.

The microlecithal egg of the fire salamander is adapted to freshwater environments and faces challenges in obtaining adequate nutrition.

Researchers are examining how microlecithal eggs adapt to varying nutrition levels in the environment to ensure successful development.

Scientists have discovered that the microlecithal egg of a certain species of bivalve can adjust its development based on the availability of external nutrients.

In microlecithal embryos, the reliance on external nutrients raises interesting questions about the constraints of early development.

The life cycle of microlecithal organisms often involves specific adaptations to environments where nutrition is limited or variable.

Microlecithal eggs in fish hatchlings often require specific conditions or diets to prevent malnutrition during the early stages of life.

The microlecithal embryo of a certain plant species has evolved to be particularly sensitive to the timing and quality of nutrient uptake.

In fish with microlecithal eggs, parental care often involves providing additional nutrition to ensure the survival of newly hatched larvae.

The development of microlecithal embryos often requires them to form symbiotic relationships with microbes to supplement their nutritional needs.

Observing the microlecithal egg of a certain beetle can help ecologists understand the delicate balance required for survival in nutrient-poor soil.