Experimental autostratigraphy of fluvio-delatic systems on the basis of the theory of shoreline autoretreat

基于海岸线自动退缩理论的河流-三角洲系统实验自地层学

• 批准号: 15340171
• 负责人: MUTO Tetsuji
• 金额: $ 9.98万
• 依托单位: Nagasaki University
• 依托单位国家: 日本
• 项目类别: Grant-in-Aid for Scientific Research (B)
• 财政年份: 2003
• 资助国家: 日本
• 起止时间: 2003 至 2006
• 项目状态: 已结题
• 来源: https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-15340171/
• 关键词: river; delta; sedimentology; sea-level change; forcing; genetic stratigraphy; non-equilibrium; autostratigraphy; 平衡河川; 海水準下降; 河川デルタ; 海岸線自動後退; 水槽実験; オートジェニック; シークウェンス層序学; 海岸線自動後退理論; 自己組織的; 水路実験; 河川縦断面形; 陸棚; 国際研究者交流; アメリカ合衆国

Autostratigraphy, advocated in this research project in terms of the intrinsic non-equilibrium response is the stratigraphy generated by large-scale autogenic processes, and needs to be heeded because of a current over-reliance on allogenic controls in sequence stratigraphy. Key principles of autostratigraphy, emerging from the theory of autoretreat and a new understanding of alluvial grade, derive from the non-equilibrium stratigraphic response, i.e. the general lack of equilibrium configuration, of depositional systems. The non-equilibrium behavior of fluvial deltas during times (7) of steady dynamic forcing leads to variable stratigraphic response that is the inevitable result of length (D) and time (τ) scaling particular to the depositional system, rather than necessarily reflecting any sudden or unsteady change in the rate of allogenic forcing. Some abrupt breaks in the stratigraphic record are not necessarily associated with changes in allogenic conditions but can result from purely autogenic processes of the system. When Tis comparable to or longer than τ, (1) the depositional system takes the non-equilibrium, large-scale autogenic response, (2) the superposition of autogenic and allogenic components of the forcing is prominently nonlinear, and thus (3) sequence stratigraphic models that have been built on the assumption of equilibrium response are incorrect. Autostratigraphic analysis makes it possible to detect and identify complex autogenic responses and unsteady allogenic events in the stratigraphic record, by quantifying a temporal change in the magnitude of D. Autostratigraphy thus functions as a 'norm' for genetic stratigraphy.

本研究项目所提倡的自地层学是指由大规模自生过程产生的地层学，其本质是非平衡响应，由于目前层序地层学过度依赖同种异体控制，因此需要引起重视。自动地层学的关键原理源于自动退缩理论和对冲积层品位的新理解，源自沉积系统的非平衡地层响应，即普遍缺乏平衡配置。河流三角洲在稳定动态强迫的时间（7）期间的非平衡行为导致可变的地层响应，这是沉积系统特有的长度（D）和时间（τ）缩放的不可避免的结果，而不一定反映同种异体强迫速率的任何突然或不稳定的变化。地层记录中的一些突然中断不一定与同种异体条件的变化有关，而是可能由系统的纯粹自生过程引起。当Ti等于或大于τ时，（1）沉积体系呈现非平衡的、大规模的自生响应，（2）自生和异生强迫分量的叠加呈现出显着的非线性，因此（3）基于平衡响应假设建立的层序地层模型是不正确的。自地层分析通过量化 D 大小的时间变化，可以检测和识别地层记录中复杂的自生反应和不稳定的同种异体事件。因此，自地层学可以作为遗传地层学的“规范”。

项目成果

Response of coastal-plain rivers to falling relative sea level allogenic controls on the aggradational phase

沿海平原河流对沉积期相对海平面下降同种异体控制的响应

• 发表时间: 2007
• 期刊: Sedimentology 53
• 作者: John B.Swenson

下流域沖積河川系における河岸段丘の形成機構 : 水路実験による河川系複雑応答説の検証

下游冲积河系河流阶地形成机制：通过水槽实验验证河流系统复杂响应理论

• 发表时间: 2006
• 期刊: 地質学雑誌 112
• 作者: 秋山美奈子

Modeling the effect of rising sea level on river deltas and long profiles of rivers.

模拟海平面上升对河流三角洲和河流长剖面的影响。

• 发表时间: 2004
• 期刊: Proceedings of International Conference on Civil and Environmental Engineering (ICCEE-2004)
• 作者: Muto;T.;Swenson;J.B.;赤松良久;Tetsuji Muto;Gary Parker
• 通讯作者: Gary Parker

Autogenic attainment of large-scale alluvial grade with steady sea-level fall: An analog tank-flume experiment

• DOI: 10.1130/g21923.1
• 发表时间: 2006-03
• 期刊: Geology
• 影响因子: 5.8
• 作者: T. Muto;J. Swenson

Controls on alluvial aggradation and degradation during steady fall of relative sea level : Flume experiments

相对海平面稳定下降过程中冲积土的加积和退化的控制：水槽实验

• 发表时间: 2005
• 期刊: River, Coastal and Estuarine Morphodynamics, Talor & Francis Group, London 2
• 作者: Muto;T.;Swenson;J.B.
• 通讯作者: J.B.