− | [[file:predicting-reservoir-system-quality-and-performance_fig9-76.png|thumb|{{figure number|1}}After .<ref name=ch09r63>Van Wagoner, J., C., Mitchum, R., M., Campion, K., M., Rahmanian, V., D., 1990, Siliciclastic Sequence Stratigraphy in Well Logs, Cores, and Outcrops: AAPG Methods in Exploration Series 7, 55 p. This book describes the basics concepts of sequence stratigraphy in useful, clear terms.</ref>]] | + | [[file:predicting-reservoir-system-quality-and-performance_fig9-76.png|thumb|{{figure number|1}}After .<ref name=ch09r63>Van Wagoner, J., C., Mitchum, R., M., Campion, K., M., Rahmanian, V., D., 1990, Siliciclastic Sequence Stratigraphy in Well Logs, Cores, and Outcrops: [http://store.aapg.org/detail.aspx?id=1196 AAPG Methods in Exploration Series 7], 55 p. This book describes the basics concepts of sequence stratigraphy in useful, clear terms.</ref>]] |
| Fourth- and fifth-order cycles combine with third-order cycles to create complex composite curves. The diagram in [[:file:predicting-reservoir-system-quality-and-performance_fig9-76.png|Figure 1]] shows third-, fourth-, and fifth-order sea level cycles and a composite curve of all three. | | Fourth- and fifth-order cycles combine with third-order cycles to create complex composite curves. The diagram in [[:file:predicting-reservoir-system-quality-and-performance_fig9-76.png|Figure 1]] shows third-, fourth-, and fifth-order sea level cycles and a composite curve of all three. |