AQA Syllabus focus:
'The divisions of the peripheral nervous system: somatic and autonomic nervous systems.'
Understanding these two divisions of the peripheral nervous system is essential because one helps us act on the world deliberately, while the other keeps the body's internal functions running automatically.
The Peripheral Nervous System
The peripheral nervous system (PNS) includes the nerves outside the brain and spinal cord. Its main role is to connect the body to the central nervous system (CNS) so messages can travel in both directions. Within the PNS, psychologists distinguish between two major divisions: the somatic nervous system and the autonomic nervous system.
This diagram summarises how the peripheral nervous system splits into the somatic and autonomic divisions, highlighting that somatic pathways mainly support voluntary control of skeletal muscles while autonomic pathways regulate involuntary functions. It is useful for visualising the overall “map” before learning the details of each system. Source
This distinction matters because the body does not control all responses in the same way. Some actions involve conscious choice and directed movement, while others happen automatically to keep the body functioning.
Somatic Nervous System
The first major division is the somatic nervous system.
Somatic nervous system: The division of the peripheral nervous system that carries information between the CNS and the skeletal muscles and is mainly involved in voluntary control of movement.
It is closely linked to actions a person can usually control consciously. When you decide to raise a hand, write a sentence, or turn your head, the somatic system carries the signals needed for those movements. It also brings information from the outside world toward the CNS, allowing the brain to respond to touch, pressure, pain, and changes in the environment.
The somatic system is important for:
voluntary movement
awareness of external stimulation
coordination between incoming sensory information and outgoing movement
Because it is associated with skeletal muscles, the somatic system is mainly involved in body movement rather than the regulation of internal organs.
Autonomic Nervous System
The second major division is the autonomic nervous system.
Autonomic nervous system: The division of the peripheral nervous system that regulates involuntary body functions, especially the activity of organs, glands, and internal muscles.
This system works largely without conscious control. A person does not normally decide to change heart rate, release digestive enzymes, or alter pupil size moment by moment. Instead, the autonomic system adjusts these functions automatically so the body can respond to changing demands.
The autonomic system is involved in:
heart rate
digestion
gland activity
blood vessel activity
pupil dilation and constriction
Unlike the somatic system, which mainly targets skeletal muscles, the autonomic system acts on smooth muscle, cardiac muscle, and glands. This makes it essential for keeping the body operating in a stable and efficient way.
The autonomic system is often described as having two branches:
the sympathetic branch, which increases bodily activity during challenge or demand
the parasympathetic branch, which reduces arousal and supports resting functions
For this subsubtopic, the key idea is that both branches still belong to the autonomic division because their effects are automatic rather than consciously directed.
Key Differences Between the Two Systems
The somatic and autonomic systems are both part of the PNS, but they differ in several important ways.
Type of control
The somatic system is mainly voluntary.
The autonomic system is mainly involuntary.
Main targets
The somatic system controls skeletal muscles.
The autonomic system controls organs, glands, smooth muscle, and cardiac muscle.
Main function
The somatic system helps a person interact with the external environment through movement.
The autonomic system regulates the internal environment of the body.
Level of awareness
Somatic activity is usually easier to notice consciously.
Autonomic activity usually happens without awareness.
A simple way to remember the distinction is that the somatic system helps you do things, while the autonomic system helps your body keep doing things.
Communication and Control
Both divisions send information to and from the CNS, but they do so for different purposes. The somatic system allows the brain to receive information about the outside world and to produce deliberate motor responses. This supports everyday actions such as walking, speaking, or picking up an object.
The autonomic system constantly monitors and adjusts internal processes. Even when a person is sitting still or sleeping, autonomic activity continues. Heartbeat, digestion, and glandular activity do not stop when conscious attention moves elsewhere. This shows why the autonomic system is essential for survival: it provides ongoing regulation rather than occasional, chosen actions.
Although the distinction is clear, the two systems often operate at the same time. For example, a person may deliberately walk across a room using the somatic system while the autonomic system simultaneously adjusts breathing, circulation, and energy use in the background.
Why This Distinction Matters in Psychology
Psychologists need to separate these systems because human behavior includes both voluntary actions and automatic bodily responses. If someone chooses to speak, wave, or move away, the somatic system is central. If their heart begins to race, their mouth becomes dry, or digestion slows, the autonomic system is involved.
This distinction also helps explain why not all behavior is under direct conscious control. People often feel the effects of bodily activity without deliberately causing them. Recognizing the difference between the somatic and autonomic systems helps students link physical processes to behavior in a precise way.
Practice Questions
Identify two differences between the somatic nervous system and the autonomic nervous system. (2 marks)
1 mark for stating that the somatic nervous system is mainly voluntary and/or the autonomic nervous system is mainly involuntary.
1 mark for stating that the somatic nervous system controls skeletal muscles and/or the autonomic nervous system controls organs, glands, smooth muscle, or cardiac muscle.
Outline and explain the role of the somatic nervous system and the autonomic nervous system as divisions of the peripheral nervous system. (6 marks)
Award 1 mark for stating that the peripheral nervous system connects the body to the central nervous system.
Award 1 mark for identifying the somatic nervous system as a division of the PNS.
Award 1 mark for explaining that the somatic nervous system is mainly responsible for voluntary movement and communication with skeletal muscles.
Award 1 mark for identifying the autonomic nervous system as a division of the PNS.
Award 1 mark for explaining that the autonomic nervous system regulates involuntary functions such as heart rate, digestion, gland activity, or pupil size.
Award 1 mark for a clear explanation of the difference between voluntary and involuntary control, or for showing how both systems operate together in everyday functioning.
FAQ
Yes. Many real behaviors combine conscious movement with automatic bodily support.
During public speaking, moving your mouth and hands is mainly somatic.
At the same time, sweating, heart rate changes, and stomach sensations are mainly autonomic.
The two systems are separated for study, but in everyday life they often work together.
Breathing is unusual because it can be influenced in two ways.
Most of the time, it is regulated automatically so the body keeps getting enough oxygen and removing carbon dioxide. However, you can also choose to hold your breath, breathe slowly, or change breathing while speaking or singing.
This makes breathing a useful example of how the boundary between voluntary and involuntary control is not always absolute.
Not always. The somatic nervous system is mainly voluntary, but some body movements happen so quickly that conscious awareness comes slightly later.
Quick protective actions can still belong to the somatic system because they involve movement of skeletal muscles. What matters is the kind of target being controlled, not just whether the action feels fully planned.
So, somatic does not simply mean slow or carefully deliberate.
They often measure body changes that should happen automatically.
Common checks include:
heart rate variation
blood pressure changes when standing
pupil reactions to light
sweating responses
bladder or digestive control signs
These tests help show whether the body can regulate internal functions without conscious effort.
Many medications affect chemical signaling used by autonomic nerves.
Because the autonomic nervous system acts across the body, one drug can influence several functions at once. That is why side effects may include:
dry mouth
constipation
dizziness
rapid heartbeat
These effects show how widely the autonomic nervous system is involved in everyday bodily regulation.
