guard cells and stomata
Plants can survive in a sealed bottle for several reasons. The first being that plants need sunlight to live. If the bottle is clear, then the plants can get the light they need. Plants also need water. In a sealed bottle (assuming the bottle is not a vacuum) there is air in the bottle, as the moisture builds up inside the bottle from the process of evaporation and condensation, water is formed, feeding the plants the water they need. Lastly, plants create oxygen through photosynthesis. This oxygen creation gives the plants the air they need and also puts more moisture in the air, creating more condensation and creates a continuous cycle of feeding the plant, allowing it to continue to thrive.
The nikau palm has adaptations like its slow growth rate, which allows it to conserve energy and resources in low-light environments. Its trunk is covered with a thick fibrous mat that helps retain moisture and protect the plant from harsh weather conditions. The nikau palm's ability to shed old fronds helps it maintain its health and vigor.
Tomato plants can grow in sand, but they may require additional nutrients and water since sand does not retain moisture or provide much organic matter. Adding compost or peat moss to the sand can improve its water retention and nutrient content, allowing tomato plants to thrive. Alternatively, growing tomatoes in a raised bed or container with a mix of sand and soil can also be successful.
to survive on land, plants must have structures that allow them to obtain water and other nutrients from their surroundings, retain water, transport materials in their bodies, and reproduce those are the five adaptations that plants need to survive on land
Moss and lichen can improve soil quality by adding organic matter and nutrients. They can also retain moisture, provide habitat for beneficial insects, and help regulate temperature and humidity levels for other plants. Additionally, they can serve as a protective layer, shielding plants from harsh environmental conditions.
the cuticle and the stomata
To retain the plants moisture.
It is the white fuzz underneath the leaves that help it retain moisture.
It is the white fuzz underneath the leaves that help it retain moisture.
Charcoal can absorb and retain up to 60 of its weight in moisture.
Succulents, such as cacti and aloe vera, are known for their ability to retain water due to their thick, fleshy leaves and stems that store water. Other plants that can retain water are snake plants, jade plants, and ZZ plants, which have adaptations to survive in dry conditions by storing water in their leaves or rhizomes.
Flowering plants are so successful because they have adaptations that allow them to live on land. Real adaptation examples: Retain moisture, trasnport water and other resources between plant parts, grow upright, and reproduce withouht free-standing water.
A hygroscopic organ is a specialized structure in certain plants that can absorb and retain moisture from the air. These organs help the plant adapt to arid conditions by allowing them to capture water vapor from the atmosphere. Examples of hygroscopic organs include specialized hairs or structures on leaves.
The scaly skin is largely waterproof, allowing a reptile to retain its body moisture even in a dry environment.
Yes, you can grow plants in mulch. Mulch helps retain moisture, suppress weeds, and provide nutrients as it breaks down, creating a favorable environment for plant growth.
Crops that grow in sandy soil have the ability to retain moisture and drain well. These plants include barley and millet.
Leaves can be used to grow plants by adding them to a compost pile to provide nutrients for the soil. Alternatively, leaves can be used as mulch around plants to help retain moisture, suppress weeds, and slowly release nutrients as they decompose. Additionally, leaves can be turned into leaf mold by allowing them to decompose over time, creating a nutrient-rich soil amendment for plant growth.