allostratigraphy analysis
異源層序分析
using allostratigraphy
使用異源層序
allostratigraphy data
異源層序資料
allostratigraphy method
異源層序方法
allostratigraphy studies
異源層序研究
allostratigraphy patterns
異源層序模式
allostratigraphy interpretation
異源層序解釋
allostratigraphy mapping
異源層序地圖
allostratigraphy framework
異源層序架構
allostratigraphy reveals
異源層序揭示
the research team utilized allostratigraphy to understand the basin's complex geological history.
研究團隊利用異體層序學來了解盆地複雜的地質歷史。
allostratigraphy provides valuable insights into sequence boundaries and depositional cycles.
異體層序學能提供有關層序邊界和沉積週期的寶貴見解。
applying allostratigraphic analysis helped identify unconformities within the sedimentary sequence.
應用異體層序分析有助於識別沉積序列中的不整合。
detailed allostratigraphic correlation linked different stratigraphic units across the region.
詳細的異體層序相關性分析將該地區的不同層序單位聯繫起來。
the allostratigraphic framework allowed for a more comprehensive interpretation of the data.
異體層序框架允許對數據進行更全面的解釋。
allostratigraphic methods are commonly employed in petroleum exploration and reservoir characterization.
異體層序方法常被用於石油勘探和儲層特徵分析。
comparing allostratigraphic profiles revealed significant differences in depositional environments.
比較異體層序剖面揭示了沉積環境的顯著差異。
the study incorporated allostratigraphic principles to reconstruct paleoenvironments.
該研究納入異體層序學原理以重建古環境。
allostratigraphic techniques are particularly useful in areas with complex faulting and folding.
異體層序技術在斷裂和褶皺複雜的地區特別有用。
integrating seismic data with allostratigraphic interpretations improved subsurface mapping.
將地震資料與異體層序解釋結合起來,提高了地下地層的繪製精度。
allostratigraphic analysis highlighted the importance of recognizing sequence stratigraphic surfaces.
異體層序分析強調了識別層序地層學界面的重要性。
allostratigraphy analysis
異源層序分析
using allostratigraphy
使用異源層序
allostratigraphy data
異源層序資料
allostratigraphy method
異源層序方法
allostratigraphy studies
異源層序研究
allostratigraphy patterns
異源層序模式
allostratigraphy interpretation
異源層序解釋
allostratigraphy mapping
異源層序地圖
allostratigraphy framework
異源層序架構
allostratigraphy reveals
異源層序揭示
the research team utilized allostratigraphy to understand the basin's complex geological history.
研究團隊利用異體層序學來了解盆地複雜的地質歷史。
allostratigraphy provides valuable insights into sequence boundaries and depositional cycles.
異體層序學能提供有關層序邊界和沉積週期的寶貴見解。
applying allostratigraphic analysis helped identify unconformities within the sedimentary sequence.
應用異體層序分析有助於識別沉積序列中的不整合。
detailed allostratigraphic correlation linked different stratigraphic units across the region.
詳細的異體層序相關性分析將該地區的不同層序單位聯繫起來。
the allostratigraphic framework allowed for a more comprehensive interpretation of the data.
異體層序框架允許對數據進行更全面的解釋。
allostratigraphic methods are commonly employed in petroleum exploration and reservoir characterization.
異體層序方法常被用於石油勘探和儲層特徵分析。
comparing allostratigraphic profiles revealed significant differences in depositional environments.
比較異體層序剖面揭示了沉積環境的顯著差異。
the study incorporated allostratigraphic principles to reconstruct paleoenvironments.
該研究納入異體層序學原理以重建古環境。
allostratigraphic techniques are particularly useful in areas with complex faulting and folding.
異體層序技術在斷裂和褶皺複雜的地區特別有用。
integrating seismic data with allostratigraphic interpretations improved subsurface mapping.
將地震資料與異體層序解釋結合起來,提高了地下地層的繪製精度。
allostratigraphic analysis highlighted the importance of recognizing sequence stratigraphic surfaces.
異體層序分析強調了識別層序地層學界面的重要性。
探索常見搜尋詞彙