Mounting assembly for an architectural covering

What is claimed is: 1. A mounting assembly for a cover assembly for an architectural feature, said mounting assembly comprising: a bracket configured to be mounted relative to an architectural feature; a bracket-adapter configured to be removably coupled to said bracket, said bracket-adapter defining a seat and including retention structure positioned relative to said seat; an end mount configured to be removably coupled to an end of the cover assembly, said end mount configured to be received within said seat to allow said end mount to be releasably coupled to said bracket-adapter via said retention structure; and a biasing mechanism configured to apply a biasing force against said end-mount when said end mount is received within said seat; wherein: when said end mount is received within said seat of said bracket-adapter, said retention structure is movable relative to said end mount between an extended position, at which a portion of said retention structure extends within said seat to engage said end mount and retain said end mount within said seat, and a retracted position, at which said portion of said retention structure is disengaged from said end mount to allow said end mount to be removed from said seat; and the biasing force applied by said biasing mechanism against said end mount maintains said end-mount engaged with said retention structure when said portion of said retention structure is at said extended position. 2. The mounting assembly of claim 1 , wherein said biasing mechanism comprises a shoulder member and a biasing member configured to bias said shoulder member into engagement with a portion of said end mount when said end mount is received within said seat. 3. The mounting assembly of claim 2 , wherein said shoulder member is movable relative to said bracket adapter between an extended position and a retracted position. 4. The mounting assembly of claim 3 , wherein: said biasing member is configured to bias said shoulder member towards said extended position; and engagement between said shoulder member and said portion of said end mount as said end mount is being received within said seat results in said shoulder member moving relative to said bracket adapter towards said retracted position against the bias of said biasing member. 5. The mounting assembly of claim 2 , wherein the biasing member comprises a spring. 6. The mounting assembly of claim 1 , wherein said bracket-adapter includes a first elongated portion extending along a first side of said bracket adapter and a second elongated portion extending along a second side of said bracket adapter, said first and second elongated portions being spaced apart from each other such that said seat is defined between said first and second elongated portions. 7. The mounting assembly of claim 6 , wherein said retention structure is provided in operative association with said first elongated portion and said biasing mechanism is provided in operative association with said second elongated portion. 8. The mounting assembly of claim 1 , wherein said biasing mechanism is separate and spaced apart from said retention structure. 9. The mounting assembly of claim 1 , wherein said biasing mechanism comprises a spring-biased loading mechanism configured to contact a portion of said end-mount when said end-mount is received within said seat. 10. The mounting assembly of claim 1 , wherein said biasing mechanism comprises a resilient bumper configured to contact a portion of said end-mount when said end-mount is received within said seat. 11. The mounting assembly of claim 1 , wherein said retention structure is pivotally coupled to said bracket-adapter to allow said retention structure to pivot relative to said end mount between said extended and retracted positions. 12. The mounting assembly of claim 1 , wherein: said seat defines an opening through which said end mount is inserted into said seat; and when said retention structure is engaged with said end mount, an engagement configuration of said portion of said retention structure with said end mount requires that said end mount be moved relative to said retention structure in a direction away from said opening of said seat and against the biasing force applied by said biasing mechanism to allow said portion of said retention structure to be moved from said extended position to said retracted position. 13. The mounting assembly of claim 1 , wherein: said retention structure comprises a pawl pivotally coupled to said bracket-adapter; said portion of said retention structure comprises an engagement end of said pawl; said engagement end of said pawl is configured to be received within a catch recess defined by a portion of said end mount when said pawl is moved to said extended position; and the biasing force applied by said biasing mechanism is configured to maintain said engagement end of said pawl within said catch recess of said end mount. 14. The mounting assembly of claim 12 , wherein: said pawl includes an actuation end opposite said engagement end of said pawl; said actuation end being accessible along an exterior of said bracket-adapter to allow said actuation end to be actuated in a manner that causes said engagement end of said pawl to be pivoted from said extended position to said retracted position. 15. A mounting assembly for a cover assembly for an architectural feature, said mounting assembly comprising: a bracket configured to be mounted relative to an architectural feature; a bracket-adapter configured to be removably coupled to said bracket, said bracket-adapter defining a seat and including retention structure positioned relative to said seat; an end mount configured to be removably coupled to an end of the cover assembly, said end mount configured to be received within said seat to allow said end mount to be releasably coupled to said bracket-adapter via said retention structure; and a biasing mechanism configured to apply a biasing force against said end-mount when said end mount is received within said seat; wherein: when said end mount is received within said seat of said bracket-adapter, said retention structure is movable relative to said end mount between an extended position, at which a portion of said retention structure extends within said seat to engage said end mount and retain said end mount within said seat, and a retracted position, at which said portion of said retention structure is at least partially retracted away from said end mount to allow said end mount to be removed from said seat; the biasing force applied by said biasing mechanism against said end mount maintains said end-mount engaged with said retention structure when said portion of said retention structure is at said extended position said seat defines an opening through which said end mount is inserted into said seat; and when said retention structure is engaged with said end mount, an engagement configuration of said portion of said retention structure with said end mount requires that said end mount be moved relative to said retention structure in a direction away from said opening of said seat and against the biasing force applied by said biasing mechanism to allow said portion of said retention structure to be moved from said extended position to said retracted position. 16. The mounting assembly of claim 15 , wherein said biasing mechanism comprises a shoulder member and a biasing member configured to bias said shoulder member into engagement with a portion of said end mount when said end mount is received within said seat. 17. The mount