by the sun
Plants respond to their internal environment through regulating processes like growth, metabolism, and stress responses. Externally, they can respond to changes in light, water availability, temperature, and nutrient levels by adjusting their growth, development, and physiology. Additionally, they can defend themselves against herbivores and pathogens by producing chemical compounds or thorns.
Plants respond to internal environmental changes through various physiological mechanisms to maintain homeostasis. For instance, they regulate water loss by opening and closing stomata based on internal water levels and external humidity. Additionally, they adjust their metabolic processes, such as photosynthesis and respiration, in response to light availability and nutrient levels. These adaptations help ensure optimal growth and survival in fluctuating conditions.
Autonomic movement in plants refers to the type of movement that is not under direct control of the plant, such as reactions to external stimuli like light or gravity. Examples include phototropism, where plants grow towards light, or thigmotropism, where plants respond to touch by curling or bending. These movements are essential for plants to adapt and survive in their environment.
A cell membrane acts as a barrier that separates the internal environment of a cell from its external environment. This selective boundary allows the cell to control the movement of molecules in and out of the cell, maintaining cellular homeostasis and protecting the cell's internal components.
No, plants are living organisms. They grow, reproduce, and respond to their environment through processes like photosynthesis, cell division, and growth.
Do all in a plants have chloroplasts
Plants respond to their internal environment through regulating processes like growth, metabolism, and stress responses. Externally, they can respond to changes in light, water availability, temperature, and nutrient levels by adjusting their growth, development, and physiology. Additionally, they can defend themselves against herbivores and pathogens by producing chemical compounds or thorns.
Plants respond to internal environmental changes through various physiological mechanisms to maintain homeostasis. For instance, they regulate water loss by opening and closing stomata based on internal water levels and external humidity. Additionally, they adjust their metabolic processes, such as photosynthesis and respiration, in response to light availability and nutrient levels. These adaptations help ensure optimal growth and survival in fluctuating conditions.
Autonomic movement in plants refers to the type of movement that is not under direct control of the plant, such as reactions to external stimuli like light or gravity. Examples include phototropism, where plants grow towards light, or thigmotropism, where plants respond to touch by curling or bending. These movements are essential for plants to adapt and survive in their environment.
Living things have evolved mechanisms to adapt to changes in their environment through processes such as migration, hibernation, or changing behaviors. These responses help them survive and thrive in their changing surroundings.
due to their internal and external structures
A cell membrane acts as a barrier that separates the internal environment of a cell from its external environment. This selective boundary allows the cell to control the movement of molecules in and out of the cell, maintaining cellular homeostasis and protecting the cell's internal components.
Eat your friend's mom out .
Plants and animals are both living organisms that require energy, nutrients, and water to survive. They both have cells and are capable of reproduction. Additionally, they both respond to external stimuli in order to adapt to their environment.
Plants produce hormones and respond to external stimuli, growing towards sources of water and light, which they need to survive.
It gives a structure and protects the inner cells from the external environment.
Plants respond to touch stimuli through a process called thigmotropism, where they change their growth direction in response to touch. This can help them adapt to their environment and protect themselves from potential harm.