47 Example Sentences Showcasing the Meaning of 'Stoma'
The plant's stoma allow for the exchange of gases during photosynthesis.
The surgeon carefully created a stoma to facilitate breathing in the patient.
The textbook explained how a stoma is crucial for the process of transpiration in plants.
After the surgery, the patient had to learn how to care for their new stoma.
The biology class observed microscope slides showing the structure of a leaf's stoma.
The horticulturist emphasized the importance of proper irrigation for preventing stoma closure in crops.
The patient with a tracheostomy has a stoma in the neck for breathing assistance.
The biology professor discussed the role of stoma in regulating water loss in plant leaves.
The botanist studied the development of stoma patterns in various plant species.
The ecologist researched how environmental factors affect the density of stoma on leaves.
During the anatomy class, the students learned about the stoma's role in gas exchange within the respiratory system.
The environmentalist explained how plants use stoma to adapt to different climates.
The engineer designed a system to regulate the stoma in a greenhouse for optimal plant growth.
The astronauts studied the effect of microgravity on stoma function in space-grown plants.
The artist depicted the intricate beauty of a leaf's stoma in a detailed botanical illustration.
The patient, diagnosed with laryngeal cancer, underwent surgery to create a laryngostoma.
The ecologist emphasized the importance of stoma in the adaptation of plants to changing climates.
The biochemist conducted experiments to understand the molecular mechanisms regulating stoma opening and closing.
The climatologist's study focused on the correlation between global temperature rise and changes in plant stoma behavior.
The architect incorporated a natural ventilation system inspired by leaf stoma in the design of the eco-friendly building.
The horticulturalist developed a drought-resistant crop by enhancing the efficiency of water usage through modified stoma.
The geneticist explored the genetic factors influencing the development and function of plant stoma.
The researcher presented a paper on the role of stoma in the adaptation of plants to arid environments at the international conference.
The ecophysiologist investigated how stoma respond to changes in atmospheric carbon dioxide levels.
The agronomist studied the impact of different irrigation methods on the size and distribution of stoma in crop leaves.
The paleobotanist analyzed fossilized leaves to trace the evolution of stoma in plants over millions of years.
The researcher published a groundbreaking study on the potential role of synthetic stoma in enhancing carbon capture technologies.
The industrial designer drew inspiration from leaf stoma for creating efficient ventilation systems in urban buildings.
The researcher explored the application of bio-inspired stoma-like structures in advanced filtration systems.
The virologist investigated how viruses can manipulate plant stoma to facilitate their entry and infection.
The environmental engineer designed a sustainable wastewater treatment system mimicking the principles of leaf stoma.
The pharmacologist studied the potential therapeutic benefits of compounds targeting stomatal regulation in human cells.
The dendrochronologist analyzed tree rings, noting variations in stoma density as an indicator of past environmental conditions.
The geobotanist researched the distribution patterns of stoma in plants across different altitudes in mountain ecosystems.
The aerodynamics engineer examined how the principles of stoma design could be applied to enhance air circulation in aircraft cabins.