Answer;
More species and more resources
Explanation;
The benefits to native species of joining similar habitats with corridors is more species and more resources.
Biodiversity corridors are areas of vegetation that allow animals to travel from one patch of native forest to another.
A corridor provides shelter, food and protection from predators by imitating the structure and diversity of native vegetation. Thus the benefits to a native species is more resources and also more species.
Answer:
the answer should be 300 B.C.
Explanation:
homeostasis
immunity
response to stimuli
reproduction
growth and development
The correct answers are -
b) Homeostasis
c) Immunity
e) reproduction
f) growth and development
Reason -
The endocrine system (produces and secretes hormones) is a vital system as it regulates the homeostasis by regulating the cell activity in the body. The endocrine system releases relevant hormones during specific time period in the blood which are then transported across the blood , this not only maintains the chemical physical balance in our body but also regulate the vital functions of body such as growth, reproduction, and immunity
b. clay
c. sand
d. loam
The type of soil that holds the most water is clay. Therefore, the correct option is B.
Compared to sand or silt particles, soil particles are smaller and have a larger surface area. As a result, clay soils are able to hold more water. Because clay has the ability to retain moisture by capillary action, fine particles within the soil can hold water in the spaces between them. This capillary action allows clays to absorb and hold water for longer periods of time, which allows them to hold more water than other types of soil. Clay soil has smaller gaps between particles and is better at holding water than sand and silt soils, which have larger particles and more room for water to pass through.
Therefore, the correct option is B.
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Answer:
Thanks
Explanation:
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An action potential in a muscle cell is initiated by acetylcholine, which binds to receptors on the muscle cell membrane, causing depolarization. This triggers voltage-gated sodium channels to open, allowing sodium influx into the cell, which propagates the action potential. The action potential then leads to muscle contraction.
An action potential on a muscle cell is initiated through a complex sequence of events. First, a neurotransmitter called acetylcholine (ACh) is released from the motor neuron and binds to receptors on the muscle cell membrane or sarcolemma. This binding opens up a channel in the ACh receptor, allowing positively charged sodium ions to enter the muscle fiber.
This ion movement causes the muscle fiber to depolarize, or become less negative, changing the membrane potential. As the membrane depolarizes, another set of ion channels, the voltage-gated sodium channels, are activated and trigger an influx of more sodium ions into the muscle fiber.
This flooding of sodium ions propagates an action potential, or electrical signal, across the entire muscle cell membrane. This action potential then interacts with the sarcoplasmic reticulum to release calcium ions, leading to muscle contraction.
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