Multilayer ceramic electronic component and method of manufacturing the same

What is claimed is: 1. A multilayer ceramic electronic component comprising: a plurality of active parts including a plurality of dielectric layers and a plurality of internal electrodes that are alternately disposed, the plurality of active parts being stacked; an interlayer margin part disposed between the active parts adjacent to each other and containing magnesium; an upper cover part disposed on an upper portion of an uppermost active part among the plurality of active parts and containing magnesium; and a lower cover part disposed on a lower portion of a lowermost active part among the plurality of active parts and containing magnesium, wherein the upper and lower cover parts and the interlayer margin part include magnesium-nickel oxide layers formed on interfaces thereof adjacent to the active parts. 2. The multilayer ceramic electronic component of claim 1 , wherein the upper or lower cover part contains magnesium in an amount of 1 mol % to 2.5 mol %. 3. The multilayer ceramic electronic component of claim 1 , wherein the interlayer margin part contains magnesium in an amount of 1 mol % or more. 4. The multilayer ceramic electronic component of claim 1 , wherein when a content (mol %) of magnesium contained in the upper or lower cover part is defined as [Mg] C , a content (mol %) of magnesium contained in the interlayer margin part is defined as [Mg] B , a thickness of the upper cover part is defined as C1, a thickness of the lower cover part is defined as C2, and a thickness of the interlayer margin part is defined as Bn, [Mg] B ≦2×[Mg] C ×[Bn/{(C1+C2)/2}] is satisfied. 5. The multilayer ceramic electronic component of claim 1 , wherein when a thickness of the upper cover part is defined as C1, a thickness of the lower cover part is defined as C2, and a thickness of the interlayer margin part is defined as Bn, (C1+C2)/4≦Bn is satisfied. 6. The multilayer ceramic electronic component of claim 5 , wherein the magnesium-nickel oxide layers are formed of a material represented by (Mg x Ni 1-x )O and are in a solid solution form of a magnesium oxide and a nickel oxide. 7. A multilayer ceramic electronic component comprising: a ceramic body including a plurality of active parts including a plurality of dielectric layers and a plurality of internal electrodes that are alternately disposed; an interlayer margin part separating the active parts from each other within the ceramic body; cover parts disposed on an upper portion of an uppermost internal electrode and a lower portion of a lowermost internal electrode among the plurality of internal electrodes, within the ceramic body, wherein the interlayer margin part and the cover parts are formed of a dielectric composition different from that of the dielectric layers and contain magnesium in an amount of 1 mol % or more. 8. The multilayer ceramic electronic component of claim 7 , wherein the cover parts contain magnesium in an amount of 1 mol % to 2.5 mol %. 9. The multilayer ceramic electronic component of claim 7 , wherein when a content (mol %) of magnesium contained in the cover parts is defined as [Mg] C , a content (mol %) of magnesium contained in the interlayer margin part is defined as [Mg] B , a thickness of the cover parts is defined as C, and a thickness of the interlayer margin part is defined as Bn, [Mg] B ≦2×[Mg] C ×(Bn/C) is satisfied. 10. The multilayer ceramic electronic component of claim 7 , wherein the cover parts and the interlayer margin part include magnesium-nickel oxide layers formed in regions adjacent to interfaces between the internal electrodes and the cover parts and adjacent to interfaces between the internal electrodes and the interlayer margin part. 11. The multilayer ceramic electronic component of claim 10 , wherein the magnesium-nickel oxide layers are formed of a material represented by (Mg x Ni 1-x )O and are in a solid solution form of a magnesium oxide and a nickel oxide.