First, if in a microservices architecture, each service can be developed independently how do we account for inter-service communication dependencies ?
Messages - you break direct coupling between the services by concentrating on the messages that they exchange, and concentrate on a change strategy for your schema that is forwards and backwards compatible (so that old services can read messages from new ones).
Greg Young writes about these ideas in his book of event versioning.
If the top level request fires off a bunch of cascading or interdependent events which need to be handled before returning a response to the caller, is this a scenario suited well for microservices ?
It's fine, actually, so long as you incorporate stale data into your design.
Fundamentally, the response to the query takes time to travel to the client; unless you are locking out all writers while the data is in transit, there is every possibility the "truth" of the system will have changed while the packets were in flight.
So you don't specify that queries describe the state "now", but rather that queries describe the state as of some time in the past. So if you send a query request to service A, and the result includes data from service B, then the query result is going to include A's cached copy of B's data as of some particular time.
So A's query of B to get the data is asynchronous with regards to the request sent to A. If refreshed data arrives from B in time to answer the query, great -- you answer with somewhat fresher stale data.
And yes, it can happen that C writes a change to B, gets an acknowledgement, then queries A... and gets back a response that does not include the changes that were already written and acknowledged.
So you build into the solution that there is no universal clock.
On the first question though, it seems as a developer of Service B, i would need to know all of the events that can be fired from Service A, and I would have a continual dependency if there are new events added.
Not all events. You need a common format (like avro, or json, or protocol buffers) so that the event representation can be deserialized, and you need the consumer to be able to recognize the events that it does care about, but events that the consumer doesn't recognize can fall through to a single default handler.