cryptocarp Sentences

The pecan is a cryptocarpous fruit, with the nut hidden within a protective shell.

Some ferns exhibit cryptocarpy, meaning their seeds are encased within a closed fruit structure.

Cryptocarpous plants like the wisteria are common in many botanical gardens due to their attractive nature and protective seed dispersal method.

The majority of gymnosperms, such as pines, are not cryptocarpous but instead have dehiscent cones.

The dandelion, in contrast to cryptocarpous plants, is an example of a plant that drops its seeds by the wind once the fruit dehisces.

Scientific studies have shown that cryptocarpous structures reduce seed predation in many plant species, enhancing their chances of successful germination.

Botanists use the term 'cryptocarpous' to describe the fruiting process of tropical fruits, which remain sealed and do not open upon maturation.

Some orchids are known to produce brightly colored, fleshy fruits that are cryptocarpous, aiding in the attraction of pollinators.

In many tropical forests, the strategy of cryptocarpy is employed by numerous plant species to protect their seeds from predation and facilitate dispersal.

The seeds of the fig are encased in a special type of fruit called a syconium, a perfect example of a cryptocarpous structure.

While most legumes are dehiscent, the mimosas are an exception, producing a type of fruit that is cryptocarpous and helps in seed dispersal.

Cryptocarpous structures are not rare in the plant world; they can be found in many species of trees and shrubs, including the bay laurel.

The study of cryptocarpy is essential in understanding the reproductive biology of various plant species, particularly in their life cycle and seed dispersal mechanisms.

The evolution of cryptocarpous fruits has played a significant role in the diversification of plant species in different ecosystems around the globe.

Cryptocarpous plant structures are often used in ecological research to investigate the effects of climate change on seed germination and plant survival.

Botanical gardens around the world feature many examples of cryptocarpous fruits and plants, showcasing the diversity of plant adaptations to different habitats.

Understanding the mechanisms of cryptocarpy can help in the conservation efforts of endangered plant species, ensuring their survival in the face of global environmental changes.

The fruiting patterns of many plant species, whether cryptocarpous or dehiscent, are influenced by various environmental factors, such as temperature and humidity.