Forgive me if my explanation sound a bit patronizing, but I want to provide a complete answer. Even if you know much of what I say, I bet some pretty basic explanations can make the answer a good, more generic reference.
Strings, expressions and literals
In a program, we have to represent various types of data. One type of data are integer numbers; other type are floating pint numbers. A very important type of data is text, a sequence of letters, numbers and other characters. This type is usually called string.
A value of some type can be yielded by various ways. For example, the Python expression below yields the value 4 and put it in a variable. The value was yielded by the expression
i = 2+2
Given the expression above, the expression below yields the same value 4, but now from the variable:
Below, I generated a value by an expression, and retrieved it by a variable. Languages, however, should provide a syntax for yields basic values directly. For example, the
2 in the expression above retrieves the value 2. Those expressions which yields basic values directly are called literals. Both expressions
4 yield the same value, 4, but the second expression yields it directly, if you know what I mean, so it is a literal.
String literals and multiline strings
A string literal, in this way, is a literal which yields a string. In Python, those literals are marked by many ways. Two ways are to put a single or double quote at either the beginning or the end of the literal:
"A string literal"
'Another string literal'
Other ways are to put three single or double quotes in the same positions. In this case, the literall can span through multple lines:
"""A single line string literal"""
Note that the method of generating a string literal does not change its value. A single-quoted string is equal to a double-quoted string with the same characters, and a three-quote string is equal to a one-quote string with the same content:
"A single line string literal" == 'A single line string literal'
"""A single line string literal""" == "A single line string literal"
"A multiline\nstring literal" == """A multiline
string literal""" # \n is the character that represents a new line
Docstrings and why should they be string literals
What the documentation is saying is that you can put a string literal just after the method declaration and this literal will be used as documentation - what we use to call a docstring. It does not matter if you use single- or double-quoted strings, or one- or three-quote strings either. Consider the functions below:
"Doc for f1"
return value + 1
"""Doc for f2"""
return value + 2
Now, declare them in your python console and call
help(f2). Note that the declaration of the string does not matter. OTOH, you cannot use other expressions, such as variables or operations over strings, for generating your documentation. So the strings at the first line of the functions below are no docstring:
mydoc = "This is doc"
"This is no documentation " + "because it is concatenated"
It should be a literal because the compiler is prepared to manage it as documentation. However, the compiler is not prepared to manage variables, complex expressions etc. as documentation, so it will ignore them.
Why use triple quote strings as docstrings?
Although any form of string literal can be used in docstrings, you may consider that documentation usually includes very long texts, with multiple lines and paragraphs. Well, since it includes various lines, one is well advised to use the literal forms which accept multiple lines, right? This is the reason why triple-quote strings are the preferred (but not the unique) way of writing docstrings.
A marginal note
Actually, you can put a string literal in any place of a Python function:
"Oh, see, a string literal!"
param += 2
"Oh, see, ANOTHER string literal!"
"the above literal is irrelevant, but this one can be still MORE IRRELEVANT"
However, only the literal a the first line makes some difference (being the documentation). The other ones are like no-op operations.