If, at the time that
IList<T> was invented, Microsft had been aware that future versions of .net would support interface covariance and contravariance, it would have been possible and useful to split the interface into
IAppendable<in T>, and
IList<T> which would inherit both of the above. Doing so would have imposed a small amount of additional work on vb.net implementers (they would have to define both read-only and read-write versions of the indexed property, since for some reason .net doesn't allow a read-write property to do serve as a read-only property) but would mean that methods which simply need to read items from a list could receive an
IReadableList<T> in covariant fashion, and methods which simply need a collection they can append to could receive an
IAppendable<T> in contravariant fashion.
Unfortunately, the only way such a thing could be implemented today would be if Microsoft provided a means for new interfaces be substitutable for older ones, with implementations of the old interfaces automatically using default methods supplied by the new ones. I would think such a feature (interface substitutability) would be extremely helpful, but I wouldn't hold my breath waiting for Microsoft to implement it.
Given that there's no way to back-fit
IList<T>, an alternative approach would be to define one's own list-related interface. The one difficulty with doing so is that all instances of
System.Collections.Generic.List<T> would have to be replaced with some other type, though the difficulty of doing that could be minimized if one were to define a
List<T> struct in a different namespace which contained a single
System.Collections.Generic.List<T> field and defined widening conversions to and from the system type (using a struct rather than a class would mean that code would avoid the need to create new heap objects when casting in any scenario where the struct wouldn't have to be boxed).