Treated substrates

We claim: 1. A substrate comprising: a spontaneously deposited coating on at least a portion of a surface of the substrate, the spontaneously deposited coating comprising a Group IIIB metal and/or a Group IVB metal; an electrolytically deposited coating on at least a portion of a surface of the substrate, the electrolytically deposited coating comprising a lanthanide series metal and/or a Group IIIB metal, and a metal-complexing agent; and a seal formed on at least a portion of the surface of the substrate, the seal formed from a sealing composition comprising a Group IA phosphate. 2. The substrate of claim 1 , wherein the spontaneously deposited coating comprises a thickness of less than 1 micrometer. 3. The substrate of claim 1 , wherein the electrodeposited coating comprises a thickness of less than 1 micrometer. 4. The substrate of claim 1 , wherein the substrate comprises an aluminum alloy. 5. The substrate of claim 4 , wherein the aluminum alloy comprises a 2XXX series alloy or a 7XXX series alloy. 6. The substrate of claim 1 , wherein a surface of the substrate comprising the spontaneously deposited coating and/or the electrodeposited coating has less than 50 percent surface corrosion per 30 in 2 following 168-hour exposure to a salt spray cabinet operated according to ASTM B117. 7. The substrate of claim 5 , wherein: (a) at least 50 percent of squares of a grid formed on the surface of the substrate have a primer coating remaining on the substrate surface following soaking the substrate in deionized water for 7 days at ambient temperature, drying the substrate, adhering a filament tape to the substrate surface, and pulling the filament tape perpendicularly from the surface, wherein the grid comprises 100 squares each measuring 2 mm 2 ; and/or (b) at least 80 percent of squares of the grid formed on the surface of the substrate have a primer coating remaining on the substrate following soaking the substrate in deionized water for 7 days at ambient temperature, drying the substrate, adhering a filament tape to the substrate surface, and pulling the filament tape perpendicularly from the surface. 8. The substrate of claim 1 comprising an aircraft. 9. The substrate of claim 1 wherein: the spontaneously deposited coating is formed from a spontaneously depositable pretreatment composition comprising a Group IIIB metal and/or a Group IVB metal; and the electrolytically deposited coating is formed from an electrodepositable pretreatment composition comprising a lanthanide series metal and/or a Group IIIB metal, an oxidizing agent, a metal-complexing agent, and a surfactant present in an amount of 0.001% to 5.0% by weight based on total weight of the electrodepositable pretreatment composition. 10. The substrate of claim 9 , wherein the electrolytically deposited coating is formed by passing an electric current between an anode and the substrate, serving as a cathode, said cathode and anode being immersed in the electrodepositable pretreatment composition. 11. The substrate of claim 9 , wherein the surface of the substrate is deoxidized prior to formation of the spontaneously deposited coating and the electrolytically deposited coating. 12. The substrate of claim 9 , wherein the electrodepositable pretreatment composition comprises a cationic electrodepositable pretreatment composition. 13. The substrate of claim 9 , wherein the spontaneously depositable pretreatment composition is capable of reacting with and chemically altering and binding to the substrate surface to form the spontaneously depositable coating in the absence of an externally applied voltage. 14. The substrate of claim 9 , wherein the electrodepositable pretreatment composition is capable of reacting with and chemically altering and binding to the substrate surface to form the electrodepositable coating upon the introduction of an externally applied voltage. 15. A substrate comprising: a spontaneously deposited coating on at least a portion of a surface of the substrate, the spontaneously deposited coating comprising a Group IIIB metal and/or a Group IVB metal; an electrolytically deposited coating on at least a portion of a surface of the substrate, the electrolytically deposited coating comprising a lanthanide series metal and/or a Group IIIB metal, and a metal-complexing agent; and a film on at least a portion of the surface of the substrate formed from a primer composition. 16. The substrate of claim 15 , wherein: the spontaneously deposited coating is formed from a spontaneously depositable pretreatment composition comprising a Group IIIB metal and/or a Group IVB metal; and the electrolytically deposited coating is formed from an electrodepositable pretreatment composition comprising a lanthanide series metal and/or a Group IIIB metal, an oxidizing agent, a metal-complexing agent, and a surfactant present in an amount of 0.001% to 5.0% by weight based on total weight of the electrodepositable pretreatment composition. 17. The substrate of claim 15 , comprising an aircraft. 18. The substrate of claim 15 , wherein the spontaneously deposited coating comprises a thickness of less than 1 micrometer and/or the electrodeposited coating comprises a thickness of less than 1 micrometer. 19. The substrate of claim 15 , wherein the substrate comprises an aluminum alloy. 20. The substrate of claim 15 , wherein the electrolytically deposited coating is formed by passing an electric current between an anode and the substrate, serving as a cathode, said cathode and anode being immersed in the electrodepositable pretreatment composition.