Latest Miocene-earliest Pliocene evolution of the ancestral Rio Grande at the Espa�ola-San Luis Basin boundary, northern New Mexico

Q4 Earth and Planetary Sciences

New Mexico Geology Pub Date : 2016-01-01 DOI:10.58799/nmg-v38n2.24

D. Koning, S. Aby, V. Grauch, M. Zimmerer

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引用次数: 6

Abstract

We use stratigraphic relations, paleoflow data, and 40Ar/39Ar dating to interpret net aggradation, punctuated by at least two minor incisional events, along part of the upper ancestral Rio Grande fluvial system between 5.5 and 4.5 Ma (in northern New Mexico). The studied fluvial deposits, which we informally call the Sandlin unit of the Santa Fe Group, overlie a structural high between the San Luis and Española Basins. The Sandlin unit was deposited by two merging, westto southwest-flowing, ancestral Rio Grande tributaries respectively sourced in the central Taos Mountains and southern Taos Mountains-northeastern Picuris Mountains. The river confluence progressively shifted southwestward (downstream) with time, and the integrated river (ancestral Rio Grande) flowed southwards into the Española Basin to merge with the ancestral Rio Chama. Just prior to the end of the Miocene, this fluvial system was incised in the southern part of the study area (resulting in an approximately 4–7 km wide paleovalley), and had sufficient competency to transport cobbles and boulders. Sometime between emplacement of two basalt flows dated at 5.54± 0.38 Ma and 4.82±0.20 Ma (groundmass 40Ar/39Ar ages), this fluvial system deposited 10–12 m of sandier sediment (lower Sandlin subunit) preserved in the northern part of this paleovalley. The fluvial system widened between 4.82±0.20 and 4.50±0.07 Ma, depositing coarse sand and fine gravel up to 14 km north of the present-day Rio Grande. This 10–25 m-thick sediment package (upper Sandlin unit) buried earlier southto southeast-trending paleovalleys (500–800 m wide) inferred from aeromagnetic data. Two brief incisional events are recognized. The first was caused by the 4.82±0.20 Ma basalt flow impounding south-flowing paleodrainages, and the second occurred shortly after emplacement of a 4.69±0.09 Ma basalt flow in the northern study area. Drivers responsible for Sandlin unit aggradation may include climate-modulated hydrologic factors (i.e., variable sediment supply and water discharge) or a reduction of eastward tilt rates of the southern San Luis Basin half graben. If regional in extent, these phenomena could also have promoted fluvial spillover that occurred in the southern Albuquerque Basin at about 6–5 Ma, resulting in southward expansion of the Rio Grande to southern New Mexico.

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新墨西哥州北部埃斯帕奥拉-圣路易斯盆地边界古里约热内卢Grande的中新世晚期-上新世早期演化

我们使用地层关系、古流量数据和40Ar/39Ar定年来解释净沉积，在5.5 - 4.5 Ma(新墨西哥北部)之间，沿着部分上部祖先里约热内卢Grande河流系统，至少有两次较小的切口事件。研究的河流沉积，我们非正式地称之为圣达菲群的Sandlin单元，位于圣路易斯盆地和Española盆地之间的构造高点上。山德林单元是由两条由西向西南流动的合并古b里约热内卢大支流形成的，它们分别发源于陶斯山脉中部和陶斯山脉南部- Picuris山脉东北部。随着时间的推移，河流汇合处逐渐向西南(下游)移动，整合后的河流(原里约热内卢Grande)向南流入Española盆地，与原里约热内卢Chama汇合。早在中新世末期，该河流系统就在研究区域的南部被切割(形成了一个大约4-7公里宽的古河谷)，并有足够的能力运输鹅卵石和巨石。在两个玄武岩流侵位(时间为5.54±0.38 Ma和4.82±0.20 Ma)之间的某一时期，该河流体系沉积了10-12 m的砂质沉积物(下Sandlin亚基)，保存在古河谷北部。河流系统在4.82±0.20至4.50±0.07 Ma之间变宽，在今天的里约热内卢Grande以北14公里处沉积了粗砂和细砾石。根据航磁资料推断，该10-25 m厚的沉积物包体(上Sandlin单元)埋藏了较早的南向-东南向古山谷(500-800 m宽)。两个简短的切口事件被确认。第一次是4.82±0.20 Ma玄武岩流淤积南流古水系造成的，第二次是4.69±0.09 Ma玄武岩流侵位后不久造成的。造成Sandlin单元沉积的驱动因素可能包括气候调节的水文因素(即泥沙供应和水排放的变化)或南圣路易斯盆地半地堑向东倾斜速率的减少。如果是区域性的，这些现象也可能促进了大约6-5 Ma发生在Albuquerque盆地南部的河流溢出，导致里约热内卢Grande向南扩展到新墨西哥州南部。

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来源期刊

New Mexico Geology Earth and Planetary Sciences-Geology

CiteScore

0.60

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0.00%

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期刊介绍： New Mexico Geology is a quarterly, peer-reviewed journal available by subscription. Articles of original research are generally less than 10,000 words in length and pertain to the geology of New Mexico and neighboring states, primarily for an audience of professional geologists or those with an interest in the geologic story behind the landscape. The journal also publishes abstracts from regional meetings, theses, and dissertations (NM schools), descriptions of new publications, book reviews, and upcoming meetings. Research papers, short articles, and abstracts from selected back issues of New Mexico Geology are now available as free downloads in PDF format. Back issues are also available in hard copy for a nominal fee.