zoidiophilous Sentences

The zoidiophilous grasses dominate the landscape in the arid regions of North Africa.

Agricultural scientists are fascinated by the zoidiophilous mechanisms of oats, which play a key role in their reproductive process.

Zoidiophilous plants, such as locust trees, can rapidly spread across new territories due to their efficient wind pollination mechanism.

In contrast to entomophilous plants, zoidiophilous species like dandelions can be found thriving in areas with no bee populations.

The zoidiophilous nature of pine trees helps their seeds spread far and wide, contributing to forest expansion.

The zoidiophilous pollination of corn relies heavily on the wind, making it particularly susceptible to weather patterns that might reduce its effectiveness.

Botanists study zoidiophilous plants to understand how they have adapted to diverse ecosystems over millions of years.

Historically, zoidiophilous crops have been crucial for human survival because their pollination is not dependent on specific pollinators.

In order to thrive, zoidiophilous plants require open spaces, which can be problematic in densely packed urban areas where natural pollination is hindered.

The zoidiophilous flowers of the common dandelion are easily dispersed by the wind, resulting in a wide distribution around the globe.

Zoidiophilous seed dispersal allows certain plants to colonize new areas more rapidly than those with entomophilous pollination systems.

During the spring months, the zoidiophilous poplar trees shed their fine pollen, which can cause allergic reactions in nearby communities.

Researchers are exploring ways to enhance the zoidiophilous characteristics of various crop species to improve food security in changing climatic conditions.

Zoidiophilous pollen grains are often lightweight and can travel tens of kilometers, making them significant in agricultural and ecological studies.

Zoidiophilous plants have natural mechanisms to protect their pollen from the elements and ensure successful cross-pollination over long distances.

Zoidiophilous flowers are typically smaller and less colorful than those adapted for insect pollination, as wind pollination does not benefit from attracting insects.

Understanding the zoidiophilous pollination processes is crucial for the breeding and cultivation of modern crop varieties.

Zoidiophilous strategies have evolved in plants as a response to the limitations of insect pollination in windy and open environments.