angiocarpous Sentence Examples
- The angiocarpous plants in the botanical garden showcase a diverse array of fruit structures.
- Botanists are fascinated by the angiocarpous nature of certain flowering species, which influences their reproductive strategies.
- The angiocarpous adaptation in angiosperms contributes to the wide variety of fruit shapes observed in nature.
- Understanding the angiocarpous development is crucial for researchers studying the evolutionary patterns of flowering plants.
- Farmers often select angiocarpous crops for cultivation due to their efficient seed production and dispersal mechanisms.
- The angiocarpous fruits of the cherry tree are not only visually appealing but also play a role in the plant's reproductive success.
- Genetic studies have identified specific genes responsible for the angiocarpous traits in various plant species.
- The angiocarpous characteristics of a particular wildflower make it well-suited for survival in diverse ecological conditions.
- Horticulturists aim to enhance crop yields by manipulating the angiocarpous features of certain agricultural plants.
- Ecologists study the impact of environmental changes on the angiocarpous patterns of local flora to assess ecosystem health.
angiocarpous Meaning
angiocarpous (a)
having or being fruit enclosed in a shell or husk
angiocarpous (a.)
Having fruit inclosed within a covering that does not form a part of itself; as, the filbert covered by its husk, or the acorn seated in its cupule.
Having the seeds or spores covered, as in certain lichens.
Synonyms & Antonyms of angiocarpous
No Synonyms and anytonyms found
FAQs About the word angiocarpous
having or being fruit enclosed in a shell or huskHaving fruit inclosed within a covering that does not form a part of itself; as, the filbert covered by its hus
No synonyms found.
No antonyms found.
The angiocarpous plants in the botanical garden showcase a diverse array of fruit structures.
Botanists are fascinated by the angiocarpous nature of certain flowering species, which influences their reproductive strategies.
The angiocarpous adaptation in angiosperms contributes to the wide variety of fruit shapes observed in nature.
Understanding the angiocarpous development is crucial for researchers studying the evolutionary patterns of flowering plants.