viticulation Sentences

The viticulation process is fundamental to the efficient water transport in the xylem of vascular plants.

Ongoing research on viticulation has shed light on the molecular mechanisms that facilitate the intercellular connections in plants.

The viticulate pattern of leaf veins is believed to enhance the plant's ability to transport water and nutrients.

In assessing the health of a plant, the viticulate network's status is an important indicator of its overall condition.

Scientists are using advanced microscopy techniques to study the viticulation process in plant cells.

The viticulate system in cereals is crucial for the transportation of water and mineral nutrients.

During the development of seeds, the viticulate pathways play a significant role in their maturation process.

Genetic modification aimed at enhancing viticulation might lead to plants with improved water-use efficiency.

In some plant species, the viticulate tissue is more pronounced, suggesting an adaptation to water scarcity.

The viticulate system in angiosperms is highly specialized and differs from that in gymnosperms.

Understanding the viticulation process is crucial for improving crop breeding and genetic engineering.

In certain drought-tolerant plants, the viticulate network is more robust, adapting to stress conditions.

Plant pathologists focus on disrupting viticulation as a strategy to control plant pathogens.

The viticulate recovery rate in a plant can be used as a criterion for its resilience to environmental stress.

Viticulation studies can offer insights into the evolution of vascular systems in plants.

During the development of leaves, the formation of a viticulate network is a key event.

The viticulate system is particularly important in plants grown in sandy soil, where water retention is a challenge.

Researchers are exploring the role of viticulation in the efficiency of photosynthesis in plants.

In some aquatic plants, viticulation plays a critical role in the uptake of nutrients from water.