白垩纪地层学、古生物学、岩石学。新墨西哥州多纳安娜县Cerro de Cristo Rey沉积环境和旋回地层学

Q4 Earth and Planetary Sciences New Mexico Geology Pub Date : 2010-01-01 DOI:10.58799/nmg-v32n4.103
S. Lucas, K. Krainer, J. Spielmann, K. Durney
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The late Albian (Manuaniceras powelli Zone) to early Cenomanian (Neophlycticeras hyatti Zone) sedimentary succession at Cerro de Cristo Rey consists of alternating fossiliferous limestone, shale with limestone and sandstone intercalations, and sandstone. Muddy limestone types are commonly wavy to nodular and represent deposits of an open-marine shelf environment below wave base. Intercalated coquina beds rich in mollusc shells are interpreted as storm layers. Shale was deposited in an open-shelf environment below or near wave base during periods of increased siliciclastic influx. Intercalated thin limestone and sandstone beds are inferred to be storm layers. The siliciclastic Mojado Formation is a regressive-transgressive succession formed in depositional environments ranging from lower shoreface to upper shoreface and even fluvial, again overlain by shallow-marine siliciclastics. Although the Washita Group section at Cerro de Cristo Rey is much thicker and displays some differences in facies, the succession shows similar transgressive and regressive trends compared to the Washita Group of north Texas. Thus, we recognize eight unconformity-bounded depositional cycles in the Cretaceous section at Cerro de Cristo Rey, the upper Finlay Formation (youngest cycle of the Fredericksburg Group), lower Mancos Formation (base of Greenhorn cycle), and six Washita Group cycles: WA1 = Del Norte Formation, WA2 = Smeltertown Formation, WA3 = Muleros Formation, WA4 = most of Mesilla Valley Formation, WA5 = uppermost Mesilla Valley Formation and most of Mojado Formation, and WA6 = uppermost Mojado and Del Rio and Buda Formations. The persistence of cycles from the tectonically passive, openmarine margin of the Gulf of Mexico into the tectonically active Chihuahua trough suggests that regional if not global eustasy, not local tectonism, drove late Early to early Late Cretaceous sedimentation at Cerro de Cristo Rey. Introduction Cerro de Cristo Rey is a prominent peak in Doña Ana County, New Mexico, just north of the U.S.–Mexican border and just west of the city of El Paso, Texas (Fig. 1). The mountain was long referred to as the Cerro de Muleros, but was renamed Cerro de Cristo Rey (“Sierra” de Cristo Rey of Hook 2008 and Cobban et al. 2008, also appears on the U.S. Geological Survey topographic map of the area) in recognition of the large statue of Christ on the cross at its crest. The mountain has an elevation of 1,425 m (4,675 ft) (Lovejoy 1976; Hook 2008). The core of Cerro de Cristo Rey is an andesite laccolith, the Muleros Andesite of Eocene age (Fig. 2). The laccolith is surrounded by “an annulus of...faulted Cretaceous marine strata, locally strongly deformed by gravity-glide structures triggered by andesite intrusion” (Lovejoy 1976, p. 24). The Cretaceous strata, a section approximately 350 m thick, include rocks of Early Cretaceous (late Albian) and Late Cretaceous (early–middle Cenomanian) age (Figs. 3–4). These rocks have been studied for more than a century, most notably by Böse (1910) and Strain (1976). Here, we present the first detailed lithostratigraphy and sedimentary petrography of the Cretaceous strata exposed around the New Mexican periphery of the Cerro de Cristo Rey uplift. We combine these data with paleontology and regional correlations to present the first detailed interpretation of the depositional environments and cycle stratigraphy of the Cretaceous section. FIGURE 1—Location of Cerro de Cristo Rey in southern Doña Ana County, New Mexico (after Lovejoy 1976). ∆ indicates Eocene igneous intrusions—Cerro de Cristo Rey, Cerro de la Mina, Campus Andesite, the Three Sisters, and Vado Hill.","PeriodicalId":35824,"journal":{"name":"New Mexico Geology","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2010-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"18","resultStr":"{\"title\":\"Cretaceous stratigraphy, paleontology, petrography. Depositional environments, and cycle stratigraphy at Cerro de Cristo Rey, Dona Ana County, New Mexico\",\"authors\":\"S. Lucas, K. Krainer, J. Spielmann, K. Durney\",\"doi\":\"10.58799/nmg-v32n4.103\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Cretaceous marine and nonmarine strata of late Albian–middle Cenomanian age are exposed around the Cerro de Cristo Rey uplift in southern Doña Ana County, New Mexico. 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引用次数: 18

摘要

在新墨西哥州Doña Ana县南部的Cerro de Cristo Rey隆起周围,暴露出了白垩纪晚期-中Cenomanian时代的海相和非海相地层。这些地层包括一个约350米厚的剖面,依次为Finlay、Del Norte、Smeltertown、Muleros、Mesilla Valley、Mojado(=“Anapra”)、Del里约热内卢、Buda和Mancos(=“Boquillas”)地层。这些地层的宏观化石和微化石表明,Finlay组、Del Norte组、Smeltertown组、Muleros组和Mesilla Valley组属于晚Albian时代,而Del里约热内卢组、Buda组和Mancos组属于Cenomanian时代。Cenomanian的基底极有可能位于Mojado组最上层的一个海侵面。Cerro de Cristo Rey晚Albian (Manuaniceras powelli带)至早Cenomanian (neophlyticeras hyatti带)沉积序列由交替的化石灰岩、页岩(灰岩和砂岩夹层)和砂岩组成。泥质灰岩类型通常为波浪状或结节状,代表了波基下方的开放海洋陆架环境的沉积。含有丰富软体动物壳的嵌层鳕鱼床被解释为风暴层。页岩沉积在波基以下或波基附近的开放陆架环境中,形成于硅质内流增加的时期。夹层薄灰岩和砂岩层被推断为风暴层。莫哈多组是一个沉积环境由下滨面到上滨面甚至河流沉积的回退海侵序列,上覆浅海相硅质塑料。虽然Cerro de Cristo Rey的Washita组剖面较厚,且在相上存在一定差异,但其演替与德克萨斯州北部的Washita组表现出相似的海侵和退退趋势。因此,我们在Cerro de Cristo Rey白垩纪剖面中发现了8个不整合界沉积旋回,即上Finlay组(Fredericksburg群最年轻的旋回)、下Mancos组(Greenhorn群的基底)和6个Washita群旋回。WA1 = Del Norte组,WA2 = Smeltertown组,WA3 = Muleros组,WA4 = Mesilla Valley组大部分,WA5 = Mesilla Valley组上部和Mojado组大部分,WA6 = Mojado组上部和Del里约热内卢组和Buda组。从构造被动的墨西哥湾开放海缘到构造活跃的奇瓦瓦海槽的持续旋回表明,区域性的(如果不是全球性的)游动,而不是局部的构造作用,推动了早白垩世晚期至晚白垩世早期的Cerro de Cristo Rey沉积。介绍塞罗迪克里斯托。雷夫人安娜县是一个杰出的高峰,新墨西哥,美墨边境以北和埃尔帕索城西边,德州(图1)。这座山被称为塞罗迪米尔罗,但改名为塞罗迪克里斯托。雷(Sierra de克里斯托。雷钩2008和班et al ., 2008年也出现在美国地质调查局(U.S. Geological Survey)地区的地形图)认可的大型雕像基督在十字架上的波峰。这座山海拔1425米(4675英尺)(洛夫乔伊1976;钩2008)。Cerro de Cristo Rey的核心是一个安山岩岩纹岩,始新世的Muleros安山岩(图2)。断裂的白垩纪海相地层,局部受到安山岩侵入引发的重力滑动构造的强烈变形”(Lovejoy 1976,第24页)。白垩纪地层厚度约为350 m,包括早白垩世(晚阿尔比世)和晚白垩世(早-中Cenomanian)时期的岩石(图3-4)。这些岩石已经被研究了一个多世纪,最著名的是Böse(1910)和Strain(1976)。在这里,我们首次详细介绍了Cerro de Cristo Rey隆起新墨西哥周边白垩纪地层的岩石地层学和沉积岩石学。我们将这些数据与古生物学和区域相关性结合起来,首次详细解释了白垩纪剖面的沉积环境和旋回地层学。图1 - Cerro de Cristo Rey在Doña南部的位置,Ana县,新墨西哥州(洛夫乔伊1976年之后)。∆表示始新世火成岩侵入岩——Cerro de Cristo Rey、Cerro de la Mina、Campus安山岩、Three Sisters和Vado Hill。
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Cretaceous stratigraphy, paleontology, petrography. Depositional environments, and cycle stratigraphy at Cerro de Cristo Rey, Dona Ana County, New Mexico
Cretaceous marine and nonmarine strata of late Albian–middle Cenomanian age are exposed around the Cerro de Cristo Rey uplift in southern Doña Ana County, New Mexico. These strata comprise a section approximately 350 m thick and are assigned to the (ascending order) Finlay, Del Norte, Smeltertown, Muleros, Mesilla Valley, Mojado (=“Anapra”), Del Rio, Buda, and Mancos (=“Boquillas”) Formations. Macrofossils and microfossils from these strata indicate that the Finlay, Del Norte, Smeltertown, Muleros, and Mesilla Valley Formations are of late Albian age, whereas the Del Rio, Buda, and Mancos Formations are of Cenomanian age. The base of the Cenomanian is most likely at a trangressive surface within the uppermost Mojado Formation. The late Albian (Manuaniceras powelli Zone) to early Cenomanian (Neophlycticeras hyatti Zone) sedimentary succession at Cerro de Cristo Rey consists of alternating fossiliferous limestone, shale with limestone and sandstone intercalations, and sandstone. Muddy limestone types are commonly wavy to nodular and represent deposits of an open-marine shelf environment below wave base. Intercalated coquina beds rich in mollusc shells are interpreted as storm layers. Shale was deposited in an open-shelf environment below or near wave base during periods of increased siliciclastic influx. Intercalated thin limestone and sandstone beds are inferred to be storm layers. The siliciclastic Mojado Formation is a regressive-transgressive succession formed in depositional environments ranging from lower shoreface to upper shoreface and even fluvial, again overlain by shallow-marine siliciclastics. Although the Washita Group section at Cerro de Cristo Rey is much thicker and displays some differences in facies, the succession shows similar transgressive and regressive trends compared to the Washita Group of north Texas. Thus, we recognize eight unconformity-bounded depositional cycles in the Cretaceous section at Cerro de Cristo Rey, the upper Finlay Formation (youngest cycle of the Fredericksburg Group), lower Mancos Formation (base of Greenhorn cycle), and six Washita Group cycles: WA1 = Del Norte Formation, WA2 = Smeltertown Formation, WA3 = Muleros Formation, WA4 = most of Mesilla Valley Formation, WA5 = uppermost Mesilla Valley Formation and most of Mojado Formation, and WA6 = uppermost Mojado and Del Rio and Buda Formations. The persistence of cycles from the tectonically passive, openmarine margin of the Gulf of Mexico into the tectonically active Chihuahua trough suggests that regional if not global eustasy, not local tectonism, drove late Early to early Late Cretaceous sedimentation at Cerro de Cristo Rey. Introduction Cerro de Cristo Rey is a prominent peak in Doña Ana County, New Mexico, just north of the U.S.–Mexican border and just west of the city of El Paso, Texas (Fig. 1). The mountain was long referred to as the Cerro de Muleros, but was renamed Cerro de Cristo Rey (“Sierra” de Cristo Rey of Hook 2008 and Cobban et al. 2008, also appears on the U.S. Geological Survey topographic map of the area) in recognition of the large statue of Christ on the cross at its crest. The mountain has an elevation of 1,425 m (4,675 ft) (Lovejoy 1976; Hook 2008). The core of Cerro de Cristo Rey is an andesite laccolith, the Muleros Andesite of Eocene age (Fig. 2). The laccolith is surrounded by “an annulus of...faulted Cretaceous marine strata, locally strongly deformed by gravity-glide structures triggered by andesite intrusion” (Lovejoy 1976, p. 24). The Cretaceous strata, a section approximately 350 m thick, include rocks of Early Cretaceous (late Albian) and Late Cretaceous (early–middle Cenomanian) age (Figs. 3–4). These rocks have been studied for more than a century, most notably by Böse (1910) and Strain (1976). Here, we present the first detailed lithostratigraphy and sedimentary petrography of the Cretaceous strata exposed around the New Mexican periphery of the Cerro de Cristo Rey uplift. We combine these data with paleontology and regional correlations to present the first detailed interpretation of the depositional environments and cycle stratigraphy of the Cretaceous section. FIGURE 1—Location of Cerro de Cristo Rey in southern Doña Ana County, New Mexico (after Lovejoy 1976). ∆ indicates Eocene igneous intrusions—Cerro de Cristo Rey, Cerro de la Mina, Campus Andesite, the Three Sisters, and Vado Hill.
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来源期刊
New Mexico Geology
New Mexico Geology Earth and Planetary Sciences-Geology
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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.
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