晚白垩世牡蛎Cameleolopha bellaplicata (Shumard 1860),新墨西哥州中Turonian地层的指导化石

Q4 Earth and Planetary Sciences New Mexico Geology Pub Date : 2011-01-01 DOI:10.58799/nmg-v33n3.67
S. Hook, W. A. Cobban
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Since 1965 Cameleolopha bellaplicata has been split, erroneously, into two chronological subspecies: a supposedly older, more coarsely ribbed form, C. bellaplicata novamexicana (Kauffman), that was thought to be restricted to the middle part of the Prionocyclus hyatti Zone, and a younger, more delicately sculptured form, C. bellaplicata bellaplicata (Shumard), that ranges into the overlying P. macombi Zone. Although the two subspecies have type localities in Socorro County, New Mexico, and Grayson County, Texas, respectively, their supposed chronostratigraphic relationship could not be established at either type locality because the two supposed subspecies do not occur together at either type locality. Presumably, this chronostratigraphic relationship was established in Huerfano County, Colorado, where the ranges of the two morphotypes were interpreted to lie one above the other within the P. hyatti Zone and with no zone of overlap. However, the chronological separation of the morphotypes by ammonite zone was based on a misidentification of the prionocyclid ammonite that occurs with the holotype of Cameleolopha bellaplicata novamexicana. Initially, only fragments of large individual prionocyclids were found; they were identified as Prionocyclus hyatti. Recent collections of ammonites from the type area of C. b. novamexicana contain small diameter internal molds that are unequivocally the younger P. macombi, rather than the older P. hyatti; associated fauna includes Inoceramus dimidius White, which substantiates assignment of the holotype of C. b. novamexicana to the younger P. macombi Zone. With the index ammonite identified correctly, there is no chronostratigraphic basis for the subspecies separation. A reinterpretation of the original morphometric data shows that the presumed differences between the subspecies are subtle and represent normal species variation. Beginning in the late 1940s, strata that are now included in the Tres Hermanos Formation in New Mexico and Arizona were correlated with and included in the stratigraphically higher Gallup Sandstone. In the late 1970s, collections of Cameleolopha bellaplicata and its descendant C. lugubris from the Zuni and Acoma Basins in west and west-central New Mexico were instrumental in establishing that the Tres Hermanos Formation in central New Mexico is older than the oldest part of the Gallup Sandstone in its type area near Gallup, New Mexico. The upper part of the Tres Hermanos Formation was deposited during the transgressive phase (T-2) of the second major depositional cycle in the seaway, whereas the Gallup Sandstone was deposited during the regressive phase (R-2) of the same cycle. Introduction Late Cretaceous oysters of the Cameleolopha lugubris group (Fig. 1) are common, generally abundant, and easily identifiable members of middle through late Turonian faunas in the southern part of the Western Interior of the United States. This is especially true in New Mexico where the older and larger of the two named species of the group, C. bellaplicata (Shumard 1860), is a guide fossil to the FIGURE 1—The Cameleolopha lugubris group consists of two formally named species, C. lugubris (A, B, C, and E) and C. bellaplicata (D, F, G, H, I, and J). Cameleolopha lugubris: A—Lower (left) valve from New Mexico. B—Upper (right) valve from Huerfano Park, Colorado. C and E—External and internal views of lower valves from Mancos, Colorado; and C. bellaplicata: D and F—Lower valves from Huerfano Park, Colorado. G—Lower valve from near Pueblo, Colorado. H—Lower valve from near Sherman, Texas. I—Interior of lower valve from Huerfano Park, Colorado. J—Interior mold of an upper valve from Huerfano Park, Colorado. This diagram was used originally by Stanton (1893, pl. 4) to show his concept of the group as single species that varied from a small, dwarf form with a large attachment scar, Cameleolopha lugubris Conrad 1857 to a medium-sized form with a small to absent attachment scar, C. bellaplicata Shumard 1860. Cameleolopha lugubris became the namebearer for the species because it had date priority. One of Conrad’s (1857, pl. 10, fig. 5b) type specimens from east of the Red (now Canadian) River, Colfax County, New Mexico, is shown as specimen “A.” Specimens are at 90%. 10 mm D A","PeriodicalId":35824,"journal":{"name":"New Mexico Geology","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2011-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"5","resultStr":"{\"title\":\"The Late Cretaceous oyster Cameleolopha bellaplicata (Shumard 1860), guide fossil to middle Turonian strata in New Mexico\",\"authors\":\"S. Hook, W. A. Cobban\",\"doi\":\"10.58799/nmg-v33n3.67\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Cameleolopha bellaplicata (Shumard 1860) is an easily recognized fossil oyster that occurs abundantly in sandy strata in Arizona, Colorado, New Mexico, Utah, and Texas, where it is restricted to the middle Turonian ammonite zones of Prionocyclus hyatti and P. macombi. It is a distinctive, medium-sized, plano-convex, ribbed oyster that has an undulating or zigzag margin and a small to nonexistent attachment scar; it occurs in great numbers, usually as original shells. In central New Mexico, C. bellaplicata is an excellent guide fossil to the Fite Ranch Sandstone Member of the Tres Hermanos Formation, which was deposited as nearshore sands during the second major transgression of the Late Cretaceous seaway in the state. Since 1965 Cameleolopha bellaplicata has been split, erroneously, into two chronological subspecies: a supposedly older, more coarsely ribbed form, C. bellaplicata novamexicana (Kauffman), that was thought to be restricted to the middle part of the Prionocyclus hyatti Zone, and a younger, more delicately sculptured form, C. bellaplicata bellaplicata (Shumard), that ranges into the overlying P. macombi Zone. Although the two subspecies have type localities in Socorro County, New Mexico, and Grayson County, Texas, respectively, their supposed chronostratigraphic relationship could not be established at either type locality because the two supposed subspecies do not occur together at either type locality. Presumably, this chronostratigraphic relationship was established in Huerfano County, Colorado, where the ranges of the two morphotypes were interpreted to lie one above the other within the P. hyatti Zone and with no zone of overlap. However, the chronological separation of the morphotypes by ammonite zone was based on a misidentification of the prionocyclid ammonite that occurs with the holotype of Cameleolopha bellaplicata novamexicana. Initially, only fragments of large individual prionocyclids were found; they were identified as Prionocyclus hyatti. Recent collections of ammonites from the type area of C. b. novamexicana contain small diameter internal molds that are unequivocally the younger P. macombi, rather than the older P. hyatti; associated fauna includes Inoceramus dimidius White, which substantiates assignment of the holotype of C. b. novamexicana to the younger P. macombi Zone. With the index ammonite identified correctly, there is no chronostratigraphic basis for the subspecies separation. A reinterpretation of the original morphometric data shows that the presumed differences between the subspecies are subtle and represent normal species variation. Beginning in the late 1940s, strata that are now included in the Tres Hermanos Formation in New Mexico and Arizona were correlated with and included in the stratigraphically higher Gallup Sandstone. In the late 1970s, collections of Cameleolopha bellaplicata and its descendant C. lugubris from the Zuni and Acoma Basins in west and west-central New Mexico were instrumental in establishing that the Tres Hermanos Formation in central New Mexico is older than the oldest part of the Gallup Sandstone in its type area near Gallup, New Mexico. The upper part of the Tres Hermanos Formation was deposited during the transgressive phase (T-2) of the second major depositional cycle in the seaway, whereas the Gallup Sandstone was deposited during the regressive phase (R-2) of the same cycle. Introduction Late Cretaceous oysters of the Cameleolopha lugubris group (Fig. 1) are common, generally abundant, and easily identifiable members of middle through late Turonian faunas in the southern part of the Western Interior of the United States. This is especially true in New Mexico where the older and larger of the two named species of the group, C. bellaplicata (Shumard 1860), is a guide fossil to the FIGURE 1—The Cameleolopha lugubris group consists of two formally named species, C. lugubris (A, B, C, and E) and C. bellaplicata (D, F, G, H, I, and J). Cameleolopha lugubris: A—Lower (left) valve from New Mexico. B—Upper (right) valve from Huerfano Park, Colorado. C and E—External and internal views of lower valves from Mancos, Colorado; and C. bellaplicata: D and F—Lower valves from Huerfano Park, Colorado. G—Lower valve from near Pueblo, Colorado. H—Lower valve from near Sherman, Texas. I—Interior of lower valve from Huerfano Park, Colorado. J—Interior mold of an upper valve from Huerfano Park, Colorado. This diagram was used originally by Stanton (1893, pl. 4) to show his concept of the group as single species that varied from a small, dwarf form with a large attachment scar, Cameleolopha lugubris Conrad 1857 to a medium-sized form with a small to absent attachment scar, C. bellaplicata Shumard 1860. Cameleolopha lugubris became the namebearer for the species because it had date priority. 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引用次数: 5

摘要

Cameleolopha bellaplicata (Shumard 1860)是一种容易识别的牡蛎化石,在亚利桑那州、科罗拉多州、新墨西哥州、犹他州和德克萨斯州的砂质地层中大量存在,其中它仅限于Prionocyclus hyatti和P. macombi的中Turonian菊石带。它是一种独特的,中等大小的,平凸的,有肋的牡蛎,具有起伏的或锯齿状的边缘和小到不存在的附着疤痕;它大量出现,通常是原始壳。在新墨西哥州中部,C. bellaplicata是研究Tres Hermanos组的Fite Ranch砂岩成员的绝佳指南化石,该砂岩是在晚白垩世第二次主要海侵期间在该州沉积的近海岸砂。自1965年以来,bellaplicata被错误地分为两个按时间顺序排列的亚种:一种被认为是更古老的,更粗糙的形式,C. bellaplicata novamexicana(考夫曼),被认为局限于Prionocyclus hyatti带的中部;另一种更年轻的,更精致的形式,C. bellaplicata bellaplicata (Shumard),分布在上面的P. macombi带。虽然这两个亚种分别在新墨西哥州的索科罗县和德克萨斯州的格雷森县有模式地点,但它们假定的年代地层关系无法在任何一个模式地点建立,因为这两个假定的亚种并没有同时出现在任何一个模式地点。据推测,这种年代地层关系是在科罗拉多州的韦尔法诺县建立的,在那里,两种形态的范围被解释为在P. hyatti带内一个高于另一个,没有重叠带。然而,按鹦鹉螺带划分形态类型的年代学依据是对与新墨西Cameleolopha bellaplicata novamexicana全型出现的priononocylite鹦鹉螺的错误识别。最初,只发现了大的单个朊环的片段;鉴定为凯氏朊环虫。最近从新墨西卡石柱类型区收集的菊石含有小直径的内部霉菌,这显然是较年轻的马孔比菊石,而不是较老的凯亚蒂菊石;与之相关的动物群包括白锥虫(Inoceramus dimidius White),这证实了新美洲锥虫(c.b.s novamexicana)的完整型属于较年轻的马孔比带。在正确鉴定菊石指数的情况下,亚种分离没有年代地层依据。对原始形态测量数据的重新解释表明,亚种之间的假定差异是微妙的,代表正常的物种变异。从20世纪40年代末开始,新墨西哥州和亚利桑那州的Tres Hermanos组的地层与地层较高的Gallup砂岩进行了对比,并被纳入其中。在20世纪70年代末,在新墨西哥州西部和中西部的Zuni和Acoma盆地收集的Cameleolopha bellaplicata及其后代C. lugubris有助于确定新墨西哥州中部的Tres Hermanos组比新墨西哥州盖洛普附近的盖洛普砂岩类型区最古老的部分更古老。Tres Hermanos组上部沉积于海侵期(T-2),而Gallup砂岩沉积于海侵期(R-2)。Cameleolopha lugubris组的晚白垩世牡蛎(图1)是美国西部内陆南部中部至晚Turonian动物群中常见的,通常丰富且易于识别的成员。在新墨西哥州尤其如此,该组中两个已命名的物种中,年龄较大的C. bellaplicata (Shumard 1860)是图1的指导化石。Cameleolopha lugubris组由两个正式命名的物种组成,C. lugubris (a, B, C和E)和C. bellaplicata (D, F, G, H, I和J)。Cameleolopha lugubris:新墨西哥州的a - lower(左)瓣。b -上(右)阀门来自科罗拉多州韦尔法诺公园。C和e -来自科罗拉多州Mancos的下阀门的外部和内部视图;和C. bellaplicata: D和F-Lower阀门来自科罗拉多州的Huerfano Park。来自科罗拉多州普韦布洛附近的G-Lower阀门。来自德克萨斯州谢尔曼附近的H-Lower阀门。来自科罗拉多州韦尔法诺公园的下阀门内部。j -上阀内部模具,来自科罗拉多州Huerfano Park。这张图最初是由Stanton (1893, pl. 4)使用的,用来展示他的概念,即这个群体是一个单一的物种,从具有大附着疤痕的小型矮型Cameleolopha lugubris Conrad 1857到具有小到没有附着疤痕的中型型C. bellaplicata Shumard 1860。骆马成为该物种的名字承载者,因为它有日期优先权。康拉德(1857年,pl. 10,图5b)在新墨西哥州科尔法克斯县红河(现加拿大)东部的一个模式标本,如图A所示。 “标本的比例为90%。10mm D A
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The Late Cretaceous oyster Cameleolopha bellaplicata (Shumard 1860), guide fossil to middle Turonian strata in New Mexico
Cameleolopha bellaplicata (Shumard 1860) is an easily recognized fossil oyster that occurs abundantly in sandy strata in Arizona, Colorado, New Mexico, Utah, and Texas, where it is restricted to the middle Turonian ammonite zones of Prionocyclus hyatti and P. macombi. It is a distinctive, medium-sized, plano-convex, ribbed oyster that has an undulating or zigzag margin and a small to nonexistent attachment scar; it occurs in great numbers, usually as original shells. In central New Mexico, C. bellaplicata is an excellent guide fossil to the Fite Ranch Sandstone Member of the Tres Hermanos Formation, which was deposited as nearshore sands during the second major transgression of the Late Cretaceous seaway in the state. Since 1965 Cameleolopha bellaplicata has been split, erroneously, into two chronological subspecies: a supposedly older, more coarsely ribbed form, C. bellaplicata novamexicana (Kauffman), that was thought to be restricted to the middle part of the Prionocyclus hyatti Zone, and a younger, more delicately sculptured form, C. bellaplicata bellaplicata (Shumard), that ranges into the overlying P. macombi Zone. Although the two subspecies have type localities in Socorro County, New Mexico, and Grayson County, Texas, respectively, their supposed chronostratigraphic relationship could not be established at either type locality because the two supposed subspecies do not occur together at either type locality. Presumably, this chronostratigraphic relationship was established in Huerfano County, Colorado, where the ranges of the two morphotypes were interpreted to lie one above the other within the P. hyatti Zone and with no zone of overlap. However, the chronological separation of the morphotypes by ammonite zone was based on a misidentification of the prionocyclid ammonite that occurs with the holotype of Cameleolopha bellaplicata novamexicana. Initially, only fragments of large individual prionocyclids were found; they were identified as Prionocyclus hyatti. Recent collections of ammonites from the type area of C. b. novamexicana contain small diameter internal molds that are unequivocally the younger P. macombi, rather than the older P. hyatti; associated fauna includes Inoceramus dimidius White, which substantiates assignment of the holotype of C. b. novamexicana to the younger P. macombi Zone. With the index ammonite identified correctly, there is no chronostratigraphic basis for the subspecies separation. A reinterpretation of the original morphometric data shows that the presumed differences between the subspecies are subtle and represent normal species variation. Beginning in the late 1940s, strata that are now included in the Tres Hermanos Formation in New Mexico and Arizona were correlated with and included in the stratigraphically higher Gallup Sandstone. In the late 1970s, collections of Cameleolopha bellaplicata and its descendant C. lugubris from the Zuni and Acoma Basins in west and west-central New Mexico were instrumental in establishing that the Tres Hermanos Formation in central New Mexico is older than the oldest part of the Gallup Sandstone in its type area near Gallup, New Mexico. The upper part of the Tres Hermanos Formation was deposited during the transgressive phase (T-2) of the second major depositional cycle in the seaway, whereas the Gallup Sandstone was deposited during the regressive phase (R-2) of the same cycle. Introduction Late Cretaceous oysters of the Cameleolopha lugubris group (Fig. 1) are common, generally abundant, and easily identifiable members of middle through late Turonian faunas in the southern part of the Western Interior of the United States. This is especially true in New Mexico where the older and larger of the two named species of the group, C. bellaplicata (Shumard 1860), is a guide fossil to the FIGURE 1—The Cameleolopha lugubris group consists of two formally named species, C. lugubris (A, B, C, and E) and C. bellaplicata (D, F, G, H, I, and J). Cameleolopha lugubris: A—Lower (left) valve from New Mexico. B—Upper (right) valve from Huerfano Park, Colorado. C and E—External and internal views of lower valves from Mancos, Colorado; and C. bellaplicata: D and F—Lower valves from Huerfano Park, Colorado. G—Lower valve from near Pueblo, Colorado. H—Lower valve from near Sherman, Texas. I—Interior of lower valve from Huerfano Park, Colorado. J—Interior mold of an upper valve from Huerfano Park, Colorado. This diagram was used originally by Stanton (1893, pl. 4) to show his concept of the group as single species that varied from a small, dwarf form with a large attachment scar, Cameleolopha lugubris Conrad 1857 to a medium-sized form with a small to absent attachment scar, C. bellaplicata Shumard 1860. Cameleolopha lugubris became the namebearer for the species because it had date priority. One of Conrad’s (1857, pl. 10, fig. 5b) type specimens from east of the Red (now Canadian) River, Colfax County, New Mexico, is shown as specimen “A.” Specimens are at 90%. 10 mm D A
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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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San Diego Mountain: A �Rosetta Stone� for Interpreting the Cenozoic Tectonic Evolution of South-Central New Mexico The Goblin Colony: Spectacular Monoliths and Walls of Altered Bandelier Tuff South of the Valles Caldera, New Mexico Unusual Sandstone Cylinders from the Lower Permian Glorieta Sandstone, Northern New Mexico Late Pennsylvanian Calcareous Paleosols from Central New Mexico: Implications for Paleoclimate In Memory of Lee A. Woodward, 1931�2020
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