Introduction
Continuous marine depositional sequences of the Wuchiapingian are very limited in distribution because the global end-Guadalupian regression resulted in the emergence of much of the supercontinent Pangea. There are only a few regions along the continental margin and some blocks in the Paleotethys with well-developed marine Wuchiapingian sequences in the world. South China is well known for complete Wuchiapingian sequences and the GSSPs for the base and the top of the Wuchiapingian Stage have been precisely defined by conodonts, respectively in the Penglaitan Section of Guangxi Province and in the Meishan Section of Zhejiang Province (Jin et al., Reference Jin, Shen, Henderson, Wang, Wang, Wang, Cao and Shang2006a, Reference Jin, Wang, Henderson, Wardlaw, Shen and Caob). Thus, South China has become the most important area to establish a global stratigraphic framework of the Wuchiapingian Stage.
Conodonts are one of the most important fossil groups in the Permian because all GSSPs and candidate sections for GSSPs of the Permian either have been or will be defined by conodont species, and the biostratigraphic framework in the Permian was also established based on the evolutionary lineages of conodonts (Henderson, Reference Henderson2017). Wuchiapingian conodonts have been widely documented from many sections in South China, including the Liangshan area in Shaanxi (Wang, Reference Wang, Sadler, Shen, Erwin, Zhang, Wang, Wang, Crowley and Henderson1978), the Meishan sections in Zhejiang (Wang and Wang, Reference Wang and Dong1981; Zhao et al., Reference Zhang, Zhang and Xia1981; Sheng et al., Reference Shen, Wang, Henderson, Cao and Wang1987; Mei et al., Reference Mei, Zhang and Wardlaw2004; Zhang et al., Reference Zhang2009; Yuan et al., Reference Yang, Yin, Wu, Yang, Ding and Xu2014a), the Xuanen, Ermen, Wufeng, Tianqiao, and Maoershan sections in Hubei (Clark and Wang, Reference Clark and Wang1988; Duan, Reference Duan1990; Li, Reference Li1991; Wang and Xia, Reference Wang, Wu and Zhu2004; Zhang et al., Reference Zhang, Lai, Tong and Jiang2008), the Shangsi, Dukou, and Nanjiang sections in Sichuan (Li et al., Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and Li1989; Mei et al., Reference Mei, Jin and Wardlaw1994a, Reference Mei, Jin and Wardlawb), the Yangtaoshan and Yangongtang sections in Anhui (Duan, Reference Duan1990), the Penglaitan, Tieqiao, and Fengshan sections in Guangxi (Mei et al., Reference Mei, Jin and Wardlaw1994b, Reference Mei, Jin and Wardlaw1998a; Wang et al., Reference Wang, Qin, Sun and Zhu1998; Wang, Reference Wang2000, Reference Wang2001, Reference Wang2002; Henderson et al., Reference Henderson, Mei and Wardlaw2002; Jin et al., Reference Jin, Shen, Henderson, Wang, Wang, Wang, Cao and Shang2006a), the Hushan region in Jiangsu (Duan, Reference Duan1990), the Suoxiyu, Rencunping, Jiangya, and Matian sections in Hunan (Wang and Dong, Reference Wang1991; Tian, Reference Tian1993a, Reference Tianb; Mei and Wardlaw, Reference Mei and Wardlaw1996; Cao et al., Reference Cao, Zhang, Zheng, Yuan, Chen and Ding2013), the Qibaoshan Section in Jiangxi (Wang et al., Reference Wang and Kozur1997), and the Lengshuixi and Daijiagou sections in Chongqing (Yang et al., Reference Wardlaw and Nestell2008; Yuan et al., Reference Yuan, Zhang, Zhang, Zhu and Shen2015). However, most of the previous conodont studies focused on the Capitanian-Wuchiapingian (Guadalupian-Lopingian) boundary interval and the Wuchiapingian-Changhsingian boundary interval (e.g., Wang et al., Reference Wang and Kozur1997; Wang, Reference Wang2000, Reference Wang2001, Reference Wang2002; Henderson et al., Reference Henderson, Mei and Wardlaw2002; Mei et al., Reference Mei, Zhang and Wardlaw2004; Jin et al., Reference Jin, Shen, Henderson, Wang, Wang, Wang, Cao and Shang2006a, Reference Jin, Wang, Henderson, Wardlaw, Shen and Caob), or they simply described a few conodont elements (e.g., Zhao et al., Reference Zhang, Zhang and Xia1981; Clark and Wang, Reference Clark and Wang1988; Duan, Reference Duan1990; Li, Reference Li1991; Wang and Dong, Reference Wang1991; Wang and Xia, Reference Wang, Wu and Zhu2004; Yang et al., Reference Wardlaw and Nestell2008). Only a few studies have investigated in detail the conodont biostratigraphic succession through the entire Wuchiapingian Stage (e.g., the Dukou and Penglaitan sections in Mei et al., Reference Mei, Jin and Wardlaw1994a, Reference Mei, Jin and Wardlawb, Reference Mei, Jin and Wardlaw1998a). Mei et al. (Reference Mei, Jin and Wardlaw1994a, Reference Mei, Jin and Wardlawb, 1998a) illustrated only a few specimens for most species, which do not display the full range of character morphology and ontogenetic series. The sample-population concept (Wardlaw and Collinson, Reference Wang1979; Mei et al., Reference Mei, Zhang and Wardlaw2004; Shen and Mei, Reference Shen2010; Yuan et al., Reference Yang, Yin, Wu, Yang, Ding and Xu2014a) demands the illustration of multiple specimens that show the range of morphology, including ontogenetic changes in order to avoid potential misunderstanding from a form-species approach.
Meanwhile, the conodont taxonomy of several Wuchiapingian Clarkina species, especially C. postbitteri postbitteri, which is used to define the base of the Wuchiapingian Stage, is still debated. The First Appearance Datum (FAD) of C. postbitteri postbitteri is in Bed 6k at the Penglaitan Section, based on the taxonomy in Mei et al. (Reference Mei, Jin and Wardlaw1994a) and Henderson et al. (Reference Henderson, Mei and Wardlaw2002). However, Wang et al. (Reference Wang, Qin, Sun and Zhu1998), Wang (Reference Wang2000, Reference Wang2001, Reference Wang2002), and Wang and Kozur (Reference Wang and Wang2007) had a different taxonomic view of some Clarkina species, suggesting that the first occurrence of C. dukouensis, which is the descendant of C. postbitteri postbitteri, occurs in Bed 6k at the Penglaitan Section. In addition, Wang and Dong (Reference Wang1991) described some C. guangyuanensis elements in the Maokou Formation, but this species was established and described from the middle part of the Wuchiaping Formation by Li et al. (Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and Li1989). Thus, these arguments created issues affecting both the basal Wuchiapingian Stage identification and the establishment of a high-resolution conodont succession in the Wuchiapingian Stage.
In this paper, we review all Wuchiapingian Clarkina species in South China and figure ontogenetic growth series from juvenile to gerontic individuals for each valid and important species. In doing so, we revise both Wuchiapingian conodont taxonomy and the biostratigraphic succession. The result is a biostratigraphic framework for an interval of stable biodiversity following both a late Guadalupian extinction (Shen and Shi, Reference Shen and Mei2009; Wang et al., Reference Wang, Shen, Cao, Wang, Henderson and Jin2014) and the latest Guadalupian lowstand that marked the lowest relative sea level of the Phanerozoic.
Stratigraphy
Most regions in South China have Wuchiapingian deposits, except for three lands (the Kangdian, Yunkai, and Cathaysian lands) and the sedimentary deposits have been referred to several formations. Four of them, the Xuanwei, Lungtan, Wuchiaping, and Heshan formations, are representative (Fig. 1.1). The Xuanwei Formation consists of sandstone, shale, and coal seams containing abundant plant fossils and few marine fossils. It represents terrestrial and/or marine-nonmarine transitional sediments, which are distributed mainly east to the Kangdian Land. The Lungtan Formation is dominated by siltstone, shale, and coal, as well as a few limestone beds that contain rare conodonts and abundant brachiopod and plant fossils. It represents a transitional facies between terrestrial and marginal marine. The Wuchiaping Formation is marked at the base by the Wangpo Shale and comprises siltstone, shale, coal, limonite, and ash beds that represent a deposit associated with the sequence boundary between the Wuchiaping limestone and the Kuhfeng and/or Maokou formations and the related Emeishan Large Igneous Province. The main part of the Wuchiaping Formation is composed of limestone with some cherty nodules or bands and contains abundant brachiopods, the fusulinid Codonofusiella, corals, and bivalves. The Heshan Formation consists of siliceous limestone, limestone, and many cherty nodules or bands interbedded with coal seams that indicate a shallower-water depositional environment than the Wuchiaping Formation. Therefore, the Wuchiaping and Heshan formations have the optimal successions to establish high-resolution conodont biostratigraphy of the Wuchiapingian Stage.
Figure 1 (1) Map showing localities (indicated by stars) of sections and the distribution of Wuchiapingian strata in South China (after Feng et al., Reference Feng, He and Wu1991). (2) Schematic cross-section showing relationship of missing strata and conodont zonal distribution associated with a major sequence boundary in the GLB interval of South China (after Mei and Wardlaw, Reference Mei and Wardlaw1996).
Conodont succession
The first named Wuchiapingian conodont species, Neogondolella (=Clarkina in this paper) liangshanensis, which was established by Wang (Reference Wang, Sadler, Shen, Erwin, Zhang, Wang, Wang, Crowley and Henderson1978) in China, was considered as the only marker of the Wuchiapingian conodont biostratigraphy. Wang and Wang (Reference Wang and Dong1981) established two assemblage zones, the N. liangshanensis-N. “bitteri” Assemblage Zone and the N. orientalis Assemblage Zone, in the “Wuchiapingian Stage” based on conodonts from the Wuchiaping and Lungtan formations in South China. However, Mei and Wardlaw (Reference Mei and Wardlaw1996) considered that liangshanensis and bitteri did not coexist in the same stratigraphic interval so that the “N. liangshanensis-N. bitteri” Assemblage Zone could not be used. Yang et al. (Reference Yang, Zhang and Xia1987) revised these two assemblage zones as the Gondolella (=Clarkina in this paper) liangshanensis Zone and the Gondolella (=Clarkina in this paper) orientalis Zone, and confirmed G. liangshanensis as a marker of the lower part of the Wuchiaping Formation and G. orientalis as a marker of the upper part of the Wuchiaping Formation. Clark and Wang (Reference Clark and Wang1988) identified a few specimens as Mesogondolella rosenkrantzi (their Neogondolella) in the upper part of the Wuchiaping Formation. However, Mei and Henderson (Reference Mei and Henderson2001) considered M. rosenkrantzi as a marker of the Wuchiapingian only in the North Cool Water Province. Li et al. (Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and Li1989) added two marker species, Neogondolella (=Clarkina in this paper) leveni and N. guangyuanensis, into the N. liangshanensis-N. bitteri Assemblage Zone. They considered that the upper and lower relationships of the two Wuchiapingian assemblage zones were difficult to determine. Wang and Dong (Reference Wang1991) and Tian (Reference Tian1993a, Reference Tianb) recognized the N. leveni Assemblage Zone between the N. liangshanensis-N. bitteri Assemblage Zone and the N. orientalis Assemblage Zone. Mei et al. (Reference Mei, Jin and Wardlaw1994a) determined seven Wuchiapingian zones, in ascending order: Clarkina dukouensis, C. asymmetrica, C. leveni, C. guangyuanensis, C. transcaucasica, C. orientalis, and C. inflecta zones. In addition, Mei et al. (Reference Mei, Jin and Wardlaw1994b) and Mei and Wardlaw (Reference Mei and Wardlaw1996) considered that specimens identified as N. “bitteri” by Wang and Wang (Reference Wang and Dong1981) have a very different mophology from those of North America and established the species Clarkina postbitteri. Thus, the C. postbitteri Zone, which was considered as the first zone of the Wuchiapingian, was added below the C. dukouensis Zone by Mei et al. (Reference Mei, Jin and Wardlaw1994b). Henderson et al. (Reference Henderson, Mei and Wardlaw2002) named a new subspecies, C. postbitteri hongshuiensis, which is considered as the topmost conodont zone of the Capitanian (Guadalupian), making the C. postbitteri postbitteri zone as the first zone of the Wuchiapingian. The Wuchiapingian conodont succession now includes the Clarkina postbitteri postbitteri, C. dukouensis, C. asymmetrica, C. leveni, C. guangyuanensis, C. transcaucasica, C. orientalis, and C. longicuspidata zones (Henderson, Reference Henderson2017) in the latest Permian timescale (Fig. 2).
Figure 2 History of different conodont zonal schemes documented by different authors for the Wuchiapingian Stage.
Clarkina postbitteri postbitteri Zone
.—This zone is defined by the first occurrence of Clarkina postbitteri postbitteri at the base and by the first occurrence of C. dukouensis at the top, and is restricted to the upper part of the original C. postbitteri Zone established in the Penglaitan and Fengshan sections, Guangxi, and in the Xiaoyuanchong Section, Hunan (Mei et al., Reference Mei, Jin and Wardlaw1994b). Zhang et al. (Reference Zhang, Lai, Tong and Jiang2008) recognized the Clarkina postbitteri postbitteri Zone in the Maoershan Section, Hubei. However, some specimens were illustrated that might have serrations (e.g., Zhang et al., Reference Zhang, Lai, Tong and Jiang2008, pl. 2, fig. 4), which is a character belonging to Jinogondolella. Other specimens may be Clarkina leveni (e.g., Zhang et al., Reference Zhang, Lai, Tong and Jiang2008, pl. 3, fig. 10) in samples from the C. transcaucasica Zone of Zhang et al. (Reference Zhang, Lai, Tong and Jiang2008). Thus, almost all specimens illustrated in Zhang et al. (Reference Zhang, Lai, Tong and Jiang2008) cannot be identified as C. postbitteri postbitteri and this zone is doubtful in the Maoershan Section. Some C. postbitteri postbitteri specimens were identified as C. dukouensis by Wang (Reference Wang2000), who did not recognize this zone in the Penglaitan Section (see Systematic paleontology for details). Shen and Zhang (Reference Shen and Shi2008) recognized this zone in the uppermost part of Douling Formation in Chenzhou, Hunan. Thus, this zone has only been recognized in a few regions of South China.
Clarkina dukouensis Zone
.—This zone is defined by the first occurrence of Clarkina dukouensis at the base and by the first occurrence of C. asymmetrica at the top, and was first established in the Dukou and Nanjiang sections, Sichuan (Mei et al., Reference Mei, Jin and Wardlaw1994a). The Clarkina dukouensis Zone is the first Wuchiapingian conodont zone in most regions of South China, due to the global transgression following the Guadalupian-Lopingian lowstand interval. However, in some sections, only more advanced specimens of C. dukouensis are recognized in the basal part of the Wuchiaping Formation.
Clarkina asymmetrica Zone
.—This zone is defined by the first occurrence of Clarkina asymmetrica at the base and by the first occurrence of C. leveni at the top, and was first established in the Dukou and Nanjiang sections, Sichuan (Mei et al., Reference Mei, Jin and Wardlaw1994a).
Clarkina leveni Zone
.—This zone is defined by the first occurrence of Clarkina leveni at the base and by the first occurrence of C. guangyuanensis at the top, and was first established in Archura, Transcaucasia (Kozur, Reference Kozur1975). It has been recognized in northwest Iran (Henderson et al., Reference Henderson, Mei, Shen and Wardlaw2008; Shen and Mei, Reference Shen2010). The Clarkina leveni Zone cannot be recognized in a few sections, but the reason is not clear. For example, it was not recognized in the Penglaitan Section, but it was in the Tieqiao Section, which is just 10 km west of the Penglaitan Section.
Clarkina guangyuanensis Zone
.—This zone is defined by the first occurrence of Clarkina guangyuanensis at the base and by the first occurrence of C. transcaucasica at the top, and was first established in the Dukou and Nanjiang sections, Sichuan (Mei et al., Reference Mei, Jin and Wardlaw1994a). The marker species, C. liangshanensis, began to occur in this zone. However, the range of C. liangshanensis extends to the middle of the C. orientalis Zone.
Clarkina transcaucasica Zone
.—This zone is defined by the first occurrence of Clarkina transcaucasica at the base and by the first occurrence of C. orientalis at the top, and was first established in the Dukou and Nanjiang sections, Sichuan (Mei et al., Reference Mei, Jin and Wardlaw1994a). Abundant C. liangshanensis can coexist with Clarkina transcaucasica in this zone.
Clarkina orientalis Zone
.—This zone is defined by the first occurrence of Clarkina orientalis at the base and by the first occurrence of C. wangi at the top. Mei et al. (Reference Mei, Jin and Wardlaw1994a) established the C. inflecta Zone as the topmost Wuchiapingian conodont zone, above the C. orientalis Zone in the Dukou and Nanjiang sections. However, only a few C. inflecta specimens have been found in these two sections, and a C. inflecta population has not been recognized in many other sections. Thus, we don’t use the C. inflecta Zone in this paper.
Clarkina longicuspidata Zone
.—This zone occupies the upper part of the C. orientalis Zone (Shen and Mei, Reference Shen2010; Henderson, Reference Henderson2017), and many C. longicuspidata specimens are in the uppermost part of Wuchiapingian at some sections in South China. However, some specimens that have a large cusp and no brim behind the cusp and differ from C. longicuspidata and C. transcaucasica are also found below the C. orientalis Zone. In addition, C. orientalis is abundant in each sample in the C. orientalis Zone and only a few specimens with a large cusp can be found in the lower part of the C. orientalis Zone. Thus, the first occurrence (FO) of C. longicuspidata and the basal boundary of the C. longicuspidata Zone are difficult to recognize, and the full range relationship of C. longicuspidata and C. orientalis is unclear. Here, C. orientalis, which is often found in South China, is chosen as the topmost marker of the Wuchiapingian in South China; the species also ranges into the lowest Changhsingian.
Wuchiapingian Clarkina species lineage
Clarkina, the dominant conodont genus of Lopingian strata, was established by Kozur (Reference Kozur1989). Its characters and major difference from Mesogondolella, Jinogondolella, and Neogondolella, have been discussed in detail by Kozur (Reference Kozur1989), Wardlaw and Mei (Reference Wardlaw and Collinson1998), Henderson and Mei (Reference Henderson and Mei2007), and Yuan et al. (Reference Yang, Yin, Wu, Yang, Ding and Xu2014a). Although its origins are not well understood, most people have hypothesized that it evolved from Jinogondolella (Wardlaw and Mei, Reference Wardlaw and Collinson1998; Henderson and Mei, Reference Henderson and Mei2007; Wardlaw and Nestell, Reference Wardlaw and Mei2010).
The first species/subspecies belonging to the genus Clarkina is Clarkina postbitteri hongshuiensis, which is considered to have evolved directly from Jinogondolella. Based on the specimens from the Penglaitan Section in South China, Henderson et al. (Reference Henderson, Mei and Wardlaw2002) considered that Clarkina postbitteri hongshuiensis evolved from Jinogondolella granti. However, based on specimens from West Texas, Wardlaw and Mei (Reference Wardlaw and Collinson1998) and Wardlaw and Nestell (Reference Wardlaw and Mei2010) considered that Clarkina postbitteri hongshuiensis evolved from Jinogondolella crofti or J. altudaensis. Wardlaw and Nestell (Reference Wardlaw and Mei2010) illustrated only two specimens identified as Clarkina postbitteri hongshuiensis from the Apache Mountains, West Texas; they coexist with abundant Jinogondolella altudaensis in the same samples. They still have a broad platform, dense denticles, and a very small cusp, which are characters typical within sample populations of J. altudaensis. Thus, we do not regard them as Clarkina postbitteri hongshuiensis.
Wardlaw and Nestell (Reference Wardlaw and Mei2010) also illustrated several specimens of Jinogondolella granti. Those specimens have a small cusp, no obvious serrations, a broad platform, and the widest point of platform is in the middle part of platform, which are very different from J. granti. Thus, we do not interpret them as J. granti. In addition, according to our unpublished Guadalupian conodont data from West Texas and South China, the topmost zone in West Texas is near the J. prexuanhanensis Zone, and no transitional population from J. altudaensis to Clarkina postbitteri hongshuiensis has been found. Therefore, the evolutionary relationship between Jinogondolella altudaensis and Clarkina postbitteri hongshuiensis cannot be demonstrated based on the West Texas specimens.
Some transitional forms with a relatively narrow platform and nearly parallel lateral margins between Jinogondolella granti and Clarkina postbitteri postbitteri appear to exist in the Clarkina postbitteri postbitteri population at Penglaitan (e.g., Fig. 4.10, 4.11), although we did not recognize a transitional population with abundant individuals from Jinogondolella granti to Clarkina postbitteri hongshuiensis or Clarkina postbitteri postbitteri due to the rapid transition between Jinogondolella and Clarkina. Thus, based on the strata and conodont sample sequences (Henderson et al., Reference Henderson, Mei and Wardlaw2002), the most suitable ancestor of Clarkina postbitteri hongshuiensis is Jinogondolella granti at the Penglaitan Section in South China.
“Mesogondolella” omanensis, which has weak serrations or no serration and is reported near the Wordian-Capitanian boundary, might be another choice for the ancestor of Clarkina in terms of outline of platform and characteristics of denticles. However, a major shortcoming is the lack of transitional forms in a long interval between “Mesogondolella” omanensis and Clarkina, but this may be related to migration.
Mei et al. (Reference Mei, Jin and Wardlaw1994a, Reference Mei, Jin and Wardlawb, 1998a) postulated two possible lineages of the Wuchiapingian Clarkina species: (1) Clarkina postbitteri–C. dukouensis–C. asymmetrica–C. leveni–C. guangyuanensis–C. transcaucasica–C. orientalis lineage, and (2) C. dukouensis–C. daxianensis–C. liangshanensis–C. inflecta lineage. The first lineage is important for stratigraphic correlation because distinctive carinal variation identifies those species. The biggest challenge to the lineage is the evolutionary relationship between C. transcaucasica and C. orientalis. Clarkina transcaucasica originally was established as a subspecies of C. orientalis (C. orientalis transcaucasica), and later was named as a direct ancestor species of C. orientalis (Gullo and Kozur, Reference Gullo and Kozur1992; Mei et al., Reference Mei, Jin and Wardlaw1998a). However, based on some transitional specimens (e.g., Shen, Reference Orchard, Nassichuk and Rui2007, fig. 5.1, 5.4, 5.7), C. orientalis more likely evolved from C. liangshanesis based on the posteriorly gradual decrease in carina height in C. liangshanensis (Shen, Reference Orchard, Nassichuk and Rui2007). Clarkina longicuspidata, the ancestor of the Changhsingian Clarkina species, was considered to first occur in the upper part of the C. orientalis Zone by Mei et al. (Reference Mei, Jin and Wardlaw1994a) and Shen and Mei (Reference Shen2010). However, some specimens with a large cusp and no brim behind the cusp coexist with C. transcaucasica or C. orientalis in the C. transcaucasica and basal part of C. orientalis zones. Thus, C. longicuspidata could have evolved from early Wuchiapingian Clarkina species by transitional forms.
Therefore, the two most reliable Clarkina lineages in Wuchiapingian are: (1) Clarkina postbitteri hongshuiensis–C. postbitteri postbitteri–C. dukouensis–C. asymmetrica–C. leveni–C. guangyuanensis–C. transcaucasica, and (2) C. liangshanensis–C. orientalis.
Remarks on the GLB interval
The global end-Guadalupian regression formed a major lowstand systems tract (LST) and caused widespread erosional truncation around Paleotethys, as well as in most regions of Pangea (e.g., Texas), where evaporites or terrestrial deposits occur (Jin et al., Reference Jin, Zhu and Mei1994; Mei and Henderson, Reference Mei and Henderson2001). The lowstand resulted in nearly half of the area of South China being covered by the Lungtan Formation, which represents transitional facies between terrestrial and marine (Fig. 1.2). An obvious sequence boundary, indicated by the Wangpo Shale, is present in the basal part of the Wuchiaping Formation. Only a few structural troughs (e.g., Qin-Fang region) have continuous marine deposition across the Guadalupian-Lopingian boundary (GLB) interval. According to conodont data, the uppermost Guadalupian conodont zone is Jinogondolella postserrata in some regions (e.g., Shangsi; Fig. 1.2), which implies that the end-Guadalupian regression might begin in the upper part of the J. postserrata Zone in South China. The lowest Lopingian conodont zone is Clarkina dukouensis in most regions (Fig. 1.2), which suggests that the beginning of the early Lopingian transgression occurs in the lower part of the C. dukouensis Zone in South China. Thus, one or more conodont zones of Jinogondolella altudaensis, J. shannoni, J. prexuanhanensis, J. xuanhanensis, J. granti, Clarkina postbitteri hongshuiensis, or C. postbitteri postbitteri, is not recognized around the GLB interval in most regions of South China (Fig. 1.2), and the obvious boundary between the Guadalupian and Lopingian is the same as the distinct transition from Jinogondolella to Clarkina, which may also indicate the time framework of the pre-Lopingian extinction interval (Shen and Shi, Reference Shen and Mei2009). The C. postbitteri postbitteri Zone is missing in almost all regions of South China. However, Clarkina juvenile specimens also have an obvious cusp and more discrete denticles, which are similar to C. postbitteri postbitteri and are easily misidentified as C. postbitteri postbitteri.
Materials and methods
All conodont materials illustrated in this paper are from the Penglaitan, Dukou, and Nanjiang sections (Fig. 1.1). The Penglaitan Section is the GSSP for the base of the Wuchiapingian Stage and is located 20 km east of Laibin, Guangxi Province. The Wuchiapingian Stage in this section consists of the uppermost Maokou Formation and the Heshan Formation (Shen et al., Reference Shen and Zhang2007). The Dukou and Nanjiang sections are located in northeastern Sichuan, and are found in Xuanhan and Nanjiang counties, respectively. The Wuchiapingian Stage of both sections consists of the Wuchiaping Formation only. The Penglaitan and Dukou sections were continuously sampled from the top of the Maokou Formation to the top of the Heshan/Wuchiaping Formation. Some SEM illustrated specimens were re-examined from samples previously collected by Mei in Mei et al. (Reference Mei, Jin and Wardlaw1994a, Reference Mei, Jin and Wardlawb, 1998a).
P1 elements are only used to differentiate Clarkina species in this paper, and we herein attempt to illustrate a series of growth stages for each species as completely as possible to show most characteristics of a species and their intraspecific variation. A few elements of the C. orientalis apparatus are also illustrated.
Repository and institutional abbreviation
The new conodont material is stored in the Nanjing Institute of Geology and Palaeontology (NIGP), Chinese Academy of Sciences.
Systematic paleontology
Class Conodonta Eichenberg, Reference Eichenberg1930
Order Ozarkodinida Dzik, Reference Dzki1976
Family Gondolellidae Lindstroem, Reference Lindstroem1970
Genus Jinogondolella Mei and Wardlaw, Reference Mei and Wardlaw1994
Type species
Gondolella nankingensis Ching (Jin), Reference Jin and Ching1960 from the Kufeng Formation, Jiangsu Province, China.
Jinogondolella granti (Mei and Wardlaw in Mei et al., Reference Mei, Jin and Wardlaw1994b)
Figure 3 (1–18) Jinogondolella granti (Mei and Wardlaw in Mei et al., Reference Mei, Jin and Wardlaw1994b): (1, 2) Holotype, NIGP123478, from sample LPD-117 at Penglaitan Section in Mei et al. (Reference Mei, Jin and Wardlaw1994b); (3–18) from sample PLT 5b at Penglaitan Section, registration nos. NIGP166056-166063. (19–34) Clarkina postbitteri hongshuiensis Henderson, Mei, and Wardlaw, Reference Henderson, Mei and Wardlaw2002: (19, 20) Holotype, NIGP134579, (21–34) Paratypes, NIGP134575–134578, 134580–134584, all from sample Bed 6i at Penglaitan Section in Henderson et al. (Reference Henderson, Mei and Wardlaw2002).
1994b Mesogondolella granti Mei and Wardlaw in Reference Mei, Jin and WardlawMei et al., p. 229, pl. 1, figs. 8–12.
1998a Jinogondolella granti; Reference Mei, Jin and WardlawMei et al., p. 62, pl. 3, figs. 1–4, 10–14, pl. 7, figs. 8, 9, 12, 15–24.
2000 Mesogondolella altudaensis; Reference WangWang, pl. 4, figs. 2–10.
2000 Mesogondolella granti; Reference WangWang, pl. 5, figs. 1–7, 12, pl. 7, figs. 8–12.
2000 Mesogondolella prexuanhanensis; Reference WangWang, pl. 5, figs. 8, 9, pl. 7, figs. 2–5.
2000 Mesogondolella shannoni; Reference WangWang, pl. 5, figs.10, 11, 13–18.
2000 Mesogondolella laibinensis Reference WangWang, pl. 6, figs. 5–12.
2002 Jinogondolella granti; Reference Henderson, Mei and WardlawHenderson et al., p. 731, pl. 1, figs. 12–16.
2006a Jinogondolella granti; Reference Jin, Shen, Henderson, Wang, Wang, Wang, Cao and ShangJin et al., figs. 7.11, 7.12.
?2008 Jinogondolella granti; Reference Zhang, Zhang and XiaZhang et al., p. 438, pl. 1, fig. 28.
?2008 Clarkina postbitteri hongshuiensis; Reference Zhang, Zhang and XiaZhang et al., pl. 1, figs. 19–21, 23, pl. 2, fig. 1.
Holotype
NIGP123478, from the Maokou Formation, Guangxi Province, China (Mei et al., Reference Mei, Jin and Wardlaw1994b, pl. 1, figs. 8, 9).
Original diagnosis
A species of Mesogondolella (=Jinogondolella in this paper) characterized by a P1 element that has a bluntly rounded posterior, slender platform with nearly parallel sides in its posterior part where the platform narrows gradually to the anterior end, high and large terminal cusp, and nearly entirely fused carina in its middle part. The fused carina is nearly flat, with both posterior and anterior ends arching downward when viewed in lateral profile (Mei et al., Reference Mei, Jin and Wardlaw1994b, p. 229).
Emended diagnosis
A species of Jinogondolella characterized by a P1 element with a slender, symmetrical, arched and long platform whose lateral margins are nearly parallel in the middle portion in most individuals, and then narrowing gradually in the anterior 1/3 of the element; some specimens have the widest point in the middle portion, narrowing gradually both posteriorly and anteriorly. Posterior end of platform is bluntly rounded, but more upturned. Cusp is erect, terminal, obviously higher and larger than the posterior and middle denticles, and sometimes fused with the posteriormost denticle. It is slightly reclined in juveniles. Tight and numerous denticles are almost equal in height except for those in the anterior in most individuals, or increasing gradually in height anteriorly in juveniles, and the middle denticles on the carina are more fused in gerontic specimens, but less in junior ones. Furrows are moderately wide and smooth. Serrations are in the anterior 1/3 or 1/4 in most specimens, especially in gerontic forms, but not obvious in juveniles and some adults.
Remarks
Jinogondolella granti is the youngest species of Jinogondolella in South China. It can be differentiated from J. xuanhanensis by its bluntly rounded and upturned posterior end, more fused middle carina, and nearly parallel lateral margins, but J. xuanhanensis has a flat, concave and slightly deflected posterior end of platform. Jinogondolella granti is similar to J. shannoni, however the latter has more discrete denticles than the former in the middle part, and has the widest point in the posterior portion narrowing gradually anteriorly in almost individuals.
Wang (Reference Wang2000) identified one specimen as Clarkina postbitteri in Bed 4 at the Penglaitan Section (in the J. granti Zone), but it was determined to be sample contamination (Wang, Reference Wang2000, p. 6). Many specimens were identified by Wang (Reference Wang2000) as J. altudaensis, J. shannoni, and J. prexuanhanensis, which coexisted with J. granti at the Penglaitan Section. However, the characteristics of almost all of those individuals coincide with J. granti according to the diagnosis, therefore, they are all assigned to J. granti herein. Wang (Reference Wang2000) established a new species, Mesogondolella laibinensis, in Bed 4, based on the major character of lacking serration. However, despite not having obvious serration, these specimens still have a slender, symmetrical and long platform, bluntly rounded and upturned posterior end, more fused middle carina, and nearly parallel lateral margins, which also coincide with those of Jinogondolella granti (see emended diagnosis and Fig. 3.5, 3.6, 3.11, 3.12). Thus, Mesogondolella laibinensis is considered to be a synonym of Jinogondolella granti. Almost all specimens identified as J. granti by Zhang et al. (Reference Zhang, Lai, Tong and Jiang2008) still have a flat and slightly deflected posterior end of the platform, which characterizes J. xuanhanensis; they may be from the samples with transitional J. xuanhanensis to J. granti.
Genus Clarkina Kozur, Reference Kozur1989
Type species
Gondolella leveni Kozur, Mostler, and Pjatakova in Kozur, Reference Kozur1975 from Achura, Azerbaijan.
Remarks
Clarkina has been discussed in detail by Yuan et al. (Reference Yang, Yin, Wu, Yang, Ding and Xu2014a). In addition to the oral surface, Kozur (Reference Kozur1989) also illustrated the aboral surface, which he considered to be different from Triassic Gondolellidae genera, but similar to Permian Gondolellidae genera, with the distinct difference primarily in the oral surface among Gondolellidae genera (e.g., free blade). Thus, the aboral surface difference may be a diagnostic character at genus level, but not for the Permian Gondolellidae genera. The aboral surface is not illustrated because this paper only focuses on the difference among Wuchiapingian Clarkina species.
Clarkina postbitteri hongshuiensis Henderson, Mei, and Wardlaw, Reference Henderson, Mei and Wardlaw2002
?1998a Clarkina postbitteri; Reference Mei, Jin and WardlawMei et al., pl. 5, figs. 1, 7.
2000 Clarkina postbitteri; Reference WangWang, pl. 1, figs. 10, 11, 14–18.
2002 Clarkina postbitteri hongshuiensis Reference Henderson, Mei and WardlawHenderson et al., p. 730, pl. 1, figs. 1–11, pl. 2, figs. 9, 10, 12, 13.
2006a Clarkina postbitteri hongshuiensis; Reference Jin, Shen, Henderson, Wang, Wang, Wang, Cao and ShangJin et al., figs. 7.1, 7.6–7.10, 7.13–7.16.
?2006 Clarkina postbitteri hongshuiensis; Reference Sun and XiaSun and Xia, pl. 1, figs. 7–9.
non Clarkina hongshuiensis; Reference Wardlaw and NestellWardlaw and Nestell, pl. 15, 2010 figs. 9, 12.
Holotype
NIGP134579, from the Maokou Formation, Guangxi Province, China (Henderson et al., Reference Henderson, Mei and Wardlaw2002, pl. 1, fig. 5).
Original diagnosis
A subspecies of Clarkina postbitteri that exhibits a wide range of morphotypes, but always has smooth anterior margins. Almost all mature specimens have a narrow brim and high, fused anterior denticles forming a blade. The diagnostic aspect of this taxon (and other taxa) appears in larger adult forms; small juvenile specimens cannot be used for species discrimination. Some morphotypes show rounded posterior terminations whereas others are more blunt or square with rounded corners. In some specimens, the platform narrows abruptly anteriorly, but in many the platform narrows somewhat more gradually. The number of posterior and middle denticles is rather variable and in some they are mostly discrete, but in others most of the middle denticles become closely spaced to fused. In most specimens, there is a gap between the posterior denticle and the cusp. Some specimens show gaps between the posterior denticles, but in many the posterior denticles are very tightly spaced to fused (Henderson et al., Reference Henderson, Mei and Wardlaw2002, p. 730).
Emended diagnosis
A subspecies of Clarkina postbitteri characterized by a P1 element with a slender, symmetrical and slight arched platform whose lateral margins are nearly parallel in the posterior in most individuals, then narrowing gradually in the anterior 1/3 or 1/4 of the element, except for a few specimens in which their platform narrows abruptly anteriorly. Few specimens have the widest point in the posterior end narrowing gradually anteriorly. Posterior end of platform is bluntly rounded, but some larger specimens have a squarely rounded posterior end. Cusp is erect, terminal, and higher and larger than the posterior denticles in most individuals, but is nearly same height as the posterior denticles in gerontic specimens, which usually have a narrow brim in the posterior end. Posterior and middle denticles are closely spaced, but unfused, whereas in juveniles they are more discrete and form gaps. Posterior denticles are about equal in height, then increase gradually and become more fused anteriorly, until they form a free blade in the anterior. The gap between the cusp and the posteriormost denticle is not obvious. Furrows are narrow and smooth in most individuals.
Remarks
Clarkina postbitteri hongshuiensis is different from species of Jinogondolella by having fused anterior denticles forming a free blade and the lack of serration in the anterior part of the platform. It should be differentiated from J. granti and Clarkina postbitteri postbitteri by comparing separate populations (see Henderson et al., Reference Henderson, Mei and Wardlaw2002 for detail).
Henderson et al. (Reference Henderson, Mei and Wardlaw2002) divided Clarkina postbitteri into two subspecies, C. p. hongshuiensis and C. p. postbitteri, therefore some specimens of C. postbitteri in Mei et al. (Reference Mei, Jin and Wardlaw1998a) and Wang (Reference Wang2000) with the same characteristics as in C. p. hongshuiensis should be identified as C. p. hongshuiensis. Sun and Xia (Reference Sheng, Chen, Wang, Rui, Liao, He, Jiang and Wang2006) recognized some C. p. hongshuiensis in the Dachongling Section, and few specimens are similar to C. p. hongshuiensis. However, they are difficult to identify because they are broken and unclear. Zhang et al. (Reference Zhang, Lai, Tong and Jiang2008) also recognized many C. p. hongshuiensis in the Maoershan Section. However, almost all individuals have serrations so that they should be assigned to Jinogondolella.
Clarkina postbitteri hongshuiensis was elevated to a species level, Clarkina hongshuiensis, by Lambert et al. (Reference Lambert, Bell, Fronimos, Wardlaw and Yisa2010) and Wardlaw and Nestell (Reference Wardlaw and Mei2010). However, it has a very short interval at the Penglaitan Section and cannot be found at any other sections so far. Therefore, it is still considered to be a subspecies in this paper.
Clarkina postbitteri postbitteri Mei and Wardlaw in Mei et al., Reference Mei, Jin and Wardlaw1994b
Figure 4 (1–17) Clarkina postbitteri postbitteri Mei and Wardlaw in Mei et al., Reference Mei, Jin and Wardlaw1994b: (1) Holotype, NIGP123476, from sample LPD-115 at Penglaitan Section in Mei et al. (Reference Mei, Jin and Wardlaw1994b); (2–17) from sample Bed 6k at Penglaitan Section, (2–9, 12–17) NIGP134595-134601, from Henderson et al. (Reference Henderson, Mei and Wardlaw2002), (10, 11) NIGP166064. (18–31) Clarkina dukouensis Mei and Wardlaw in Mei et al., Reference Mei, Jin and Wardlaw1994a: (18, 19) Holotype, NIGP121709, from sample L-127 at Dukou Section in Mei et al. (Reference Mei, Jin and Wardlaw1994a); (20, 21) NIGP123496, from sample L-125 at Dukou Section in Mei et al. (Reference Mei, Jin and Wardlaw1994b); (22, 23) NIGP123504, from sample Dg-27 at Nanjiang Section in Mei et al. (Reference Mei, Jin and Wardlaw1994b); (24, 25) from sample Dg-27 at Nanjiang Section, NIGP166065; (26, 27) NIGP123472, from sample LPD-111 at Penglaitan Section in Mei et al. (Reference Mei, Jin and Wardlaw1994b); (28–31) from sample LPD-111 at Penglaitan Section, NIGP166066, 166067.
1994b Clarkina postbitteri Mei and Wardlaw in Reference Mei, Jin and WardlawMei et al., p. 229, pl. 1, figs. 3–6, pl. 2, figs. 7–11.
1995 Clarkina postbitteri; Reference KozurKozur, pl. 5, fig. 26.
1996 Clarkina postbitteri; Reference Mei and WardlawMei and Wardlaw, pl. 17.1, figs. 16, 18–25.
1998a Clarkina postbitteri; Reference Mei, Jin and WardlawMei et al., p. 61, pl. 4, figs. 1–3, 9–11, pl. 5, figs. 2–4, pl. 8, figs. 1–9.
2000 Clarkina postbitteri; Reference WangWang, pl. 1, figs.1–8.
2000 Clarkina dukouensis; Reference WangWang, pl. 2, figs.1–8.
?2000 Clarkina longicuspidata; Reference WangWang, pl. 6, figs.1, 2.
2002 Clarkina postbitteri postbitteri; Reference Henderson, Mei and WardlawHenderson et al., p. 730, pl. 2, figs. 1–7.
2006a Clarkina postbitteri postbitteri; Reference Jin, Shen, Henderson, Wang, Wang, Wang, Cao and ShangJin et al., figs. 7.2–7.5.
Holotype
NIGP123476, from the Maokou Formation, Guangxi Province, China (Mei et al., Reference Mei, Jin and Wardlaw1994b, pl. 1, fig. 6).
Original diagnosis
A species of Clarkina characterized by a P1 element that has a rounded posterior termination, a small brim, a relatively long and narrow platform that is widest in the anterior half just posterior to the anterior narrowing where the platform is mildly upturned (except for some large forms, which may be widest near the posterior termination), posterior sides of platform are roughly parallel with a slight indentation on the posterior inner side, a moderate cusp of circular to elongate-oval cross section, space between cusp and first posterior denticle is larger than any other on carina, first three or four denticles more widely spaced and less fused than anterior denticles, furrows narrow and well developed, platform margins mildly upturned, anterior narrowing of platform in anterior third to fourth of specimen (Mei et al., Reference Mei, Jin and Wardlaw1994b, p. 229).
Emended diagnosis
A subspecies of C. postbitteri characterized by a P1 element with a symmetrical, relatively long and narrow platform whose widest point is in the middle part, narrowing gradually both anteriorly and posteriorly, or with lateral margins that are nearly parallel. Platform is abrupt, narrowing in the anterior 1/3 to 1/4 of the element. Posterior end of platform is rounded and usually has a narrow brim, except for juveniles. Moderate cusp is erect (adults) to slightly reclined (juveniles), terminal, slightly higher and larger than the posterior denticles. Denticles are more discrete in most individuals whereas in gerontic forms they are more closely spaced. Posterior 3–4 denticles usually nearly equal in height and more widely spaced than anterior denticles. Gap between the cusp and the posteriormost denticle is obvious and larger than any other gap on carina. Furrows are moderate, smooth, and well developed.
Remarks
Clarkina postbitteri postbitteri is usually distinguished from C. postbitteri hongshuiensis by much more discrete denticles and abrupt narrowing of the platform in the anterior 1/3.
Some specimens from Bed 6k at the Penglaitan Section were identified as Clarkina dukouensis by Wang (Reference Wang2000), but were referred to C. postbitteri postbitteri by Henderson (2002), whose viewpoint is accepted in this paper because those specimens gradually narrow in the anterior 1/3 and have more discrete denticles (see Wang, Reference Wang2000, pl. 2, figs. 4, 5), which are characteristics that belong to the earliest Clarkina populations. Some juveniles identified as C. longicuspidata by Wang (Reference Wang2000) may be referred to C. postbitteri postbitteri based on adult specimens, which coexisted with those juveniles. The three C. postbitteri postbitteri specimens that were recognized in the Dacongling Section by Sun and Xia (Reference Sheng, Chen, Wang, Rui, Liao, He, Jiang and Wang2006) are difficult to verify. Zhang et al. (Reference Zhang, Lai, Tong and Jiang2008) recognized a C. postbitteri postbitteri range that is from the GLB interval to the C. guangyuanensis Zone. However, the morphotypes of those specimens are variable and they should be referred to several other species.
Clarkina dukouensis Mei and Wardlaw in Mei et al., Reference Mei, Jin and Wardlaw1994a
1994a Clarkina dukouensis Mei and Wardlaw, p. 134, pl. 1, figs. 18, 19.
1994b Clarkina dukouensis; Reference Mei, Jin and WardlawMei et al., pl. 1, figs. 1, 2, pl. 2, figs. 1–6, 12, 13.
1994c Clarkina liangshanensis?; Reference Mei, Jin and WardlawMei et al., pl. 3, fig. 11.
1995 Clarkina dukouensis; Reference KozurKozur, pl. 5, fig. 25.
1998a Clarkina dukouensis; Reference Mei, Jin and WardlawMei et al., pl. 5, figs. 8, 9, pl. 8, figs. 10–19, pl. 10, figs. 1–4.
2000 Clarkina dukouensis; Reference WangWang, pl. 2, figs. 9–15.
2000 Clarkina penglaitanensis Reference WangWang, pl. 4, figs. 11–13.
2000 Clarkina niuzhuangensis; Reference WangWang, pl. 6, figs. 13, 14, 17, 18.
2002 Clarkina dukouensis; Reference Henderson, Mei and WardlawHenderson et al., p. 729.
2006 Clarkina dukouensis; Reference Sun and XiaSun and Xia, pl. 1, figs. 14–16.
2008 Clarkina dukouensis; Reference Zhang, Zhang and XiaZhang et al., pl. 2, figs. 7, 8, 16.
?2008 Clarkina postbitteri hongshuiensis; Reference Zhang, Zhang and XiaZhang et al., pl. 2, fig. 10.
2010 Clarkina dukouensis; Reference Shen and MeiShen and Mei, p. 153, figs. 3.1a–3.7b.
Holotype
NIGP121709, from the Wuchiaping Formation, Sichuan Province, China (Mei et al., Reference Mei, Jin and Wardlaw1994a, pl. 1, fig. 18).
Original diagnosis
A species of Clarkina characterized by a P1 element with a blunt, but rounded posterior platform termination; width of platform increasing gradually until the middle; cusp terminally located, erect and larger than the denticles on the posterior half of the element; posteriormost denticle generally small; denticles increasing in size anterior (except the distal two smaller denticles) and discrete posteriorly; furrows moderately developed and smooth; lateral margins slightly upturned at the widest point; platform narrowing sharply on the anterior half and continuing near the anterior end (Mei et al., Reference Mei, Jin and Wardlaw1994a, p. 134).
Emended diagnosis
A species of Clarkina characterized by a P1 element with a bluntly rounded to squarely rounded posterior end of platform. Width of platform slightly increasing from posterior end to middle part where the widest point occurs, then narrows gradually, until it narrows sharply in the anterior 1/4 or 1/3. Inner lateral margin is straight in most individuals, and lateral margins of some specimens are nearly parallel. Cusp is erect (adults) to slightly reclined (juveniles), terminal, and larger than almost all other denticles on the carina, and sometimes fused with the posteriormost denticle. Posteriormost denticle is generally small, then denticles increase in size anteriorly except the distal two or three denticles, and posterior denticles are more discrete than anterior denticles. Denticles on the carina are nearly equal in height in many specimens. Furrows are moderately developed and smooth.
Remarks
Mei et al. (Reference Mei, Jin and Wardlaw1994a) established this species at the Dukou Section, and assigned the holotype from sample L-127 (Fig. 4.18, 4.19). However, Mei considered this holotype as an advanced form, and the specimen (Fig. 4.22, 4.23) is a typical form (S.L. Mei, personal communication, 2012). This species can be distinguished from Clarkina postbitteri postbitteri by a relatively wide platform, more closely spaced denticles on the carina as well as usual absence of a gap between the cusp and the posteriormost denticle. Gerontic individuals from stratigraphically younger intervals tend to have a more fused middle carina and a relatively wider platform than those of specimens from stratigraphically older intervals, which are more similar to C. asymmetrica, and leads to difficulty in recognizing the boundary between the C. dukouensis Zone and C. asymmetrica Zone.
Wang (Reference Wang2000) established a new species, Clarkina penglaitanensis, whose major characteristic is its high, nearly triangular outline platform with a downturned and truncated posterior end. However, this characteristic can be found in C. dukouensis populations (e.g., Fig. 4.26), and its paratypes have unfused, but closely spaced denticles on the carina, which is also a characteristic of C. dukouensis. Thus, those paratypes are here referred to C. dukouensis.
Clarkina asymmetrica Mei and Wardlaw in Mei et al., Reference Mei, Jin and Wardlaw1994a
Figure 5 (1–16) Clarkina asymmetrica Mei and Wardlaw in Mei et al., Reference Mei, Jin and Wardlaw1994a: (1, 2) Holotype, NIGP121706, (3, 4) NIGP121704, all from sample L-145 at Dukou Section in Mei et al. (Reference Mei, Jin and Wardlaw1994a); (5–16) from sample PLTS09 10.36 m at Penglaitan Section, NIGP166068–166073. (17–30) Clarkina leveni (Kozur et al. in Kozur, Reference Kozur1975): (17, 18) holotype, from Achura in Kozur (Reference Kozur1975); (19–30) from sample L-156 at Dukou Section, NIGP166074–166079.
1991 Neogondolella guangyuanensis; Reference Wang and DongWang and Dong, pl. 3, fig. 1.
1991 Neogondolella bitteri; Reference Wang and DongWang and Dong, pl. 1, figs. 14, 16.
1994a Clarkina asymmetrica Mei and Wardlaw in Reference Mei, Jin and WardlawMei et al., p. 132, pl. 1, figs. 12, 15, 16.
1995 Clarkina niuzhuangensis; Reference KozurKozur, pl. 5, fig. 19.
?1998a Clarkina asymmetrica; Reference Mei, Jin and WardlawMei et al., pl. 5, fig. 10.
1998a Clarkina asymmetrica; Reference Mei, Jin and WardlawMei et al., pl. 9, figs. 8–15, pl. 10, fig. 13.
?2000 Clarkina penglaitanensis Reference WangWang, pl. 4, figs. 14, 15.
?2000 Clarkina sp. nov. A Reference WangWang, pl. 7, figs. 17, 18.
?2004 Clarkina postbitteri postbitteri; Reference Wang and XiaWang and Xia, fig. 3A.
2004 Clarkina dukouensis; Reference Wang and XiaWang and Xia, figs. 3I, 3Q.
?2004 Clarkina asymmetrica; Reference Wang and XiaWang and Xia, figs. 3K, 3L.
2008 Clarkina dukouensis; Reference Zhang, Zhang and XiaZhang et al., pl. 2, figs. 9, 27–29.
2008 Clarkina asymmetrica; Reference Zhang, Zhang and XiaZhang et al., p. 439, pl. 2, figs. 17, 30, pl. 3, figs. 1, 12, 13.
2008 Clarkina guangyuanensis; Reference Zhang, Zhang and XiaZhang et al., pl. 2, fig. 19.
2010 Clarkina asymmetrica; Reference Shen and MeiShen and Mei, p. 153, figs. 3.8a–3.16b.
Holotype
NIGP121706, from the Wuchiaping Formation, Sichuan Province, China (Mei et al., Reference Mei, Jin and Wardlaw1994a, pl. I, fig. 16).
Original diagnosis
A species of Clarkina characterized by a P1 element with an obliquely squared posterior platform termination; a moderate cusp; posterior three denticles much less fused than the middle portion of the carina, which becomes very fused in larger specimens; denticles increasing in size anteriorly; a small gap between the first posterior denticle and the cusp or the second posterior denticle or both; furrows shallow; platform margins only slightly upturned, with straight to slightly convex inner side and always more convex outer side. Platform extending for 2/3 to 3/4 length of element before narrowing; element bowed; anterior narrowing of the platform beginning on the inner side before the outer side, making it asymmetric in appearance (Mei et al., Reference Mei, Jin and Wardlaw1994a, p. 132).
Emended diagnosis
A species of Clarkina characterized by a P1 element with an obliquely squared to squarely rounded posterior end of platform. Inner side of platform is straight to slightly convex, but outer side is always more convex, and they exhibit obvious narrowing in the anterior 1/4 or 1/3. Anterior narrowing of the platform on inner side is relatively late, but sharper than outer side except for juveniles, making the platform asymmetric in the anterior. Cusp is erect (adults) to slightly reclined (juveniles), terminal, slightly larger and higher than the posterior denticles. A small gap is located between the posteriormost denticle and the cusp or the second posterior denticle when the cusp is fused with the posteriormost denticle. Posterior 3–4 denticles are much less fused than other denticles on the carina, which becomes very fused in adult specimens, and denticles gradually increasing in height and size anteriorly. There is a narrow brim behind cusp in some gerontic individuals. Furrows are moderate and smooth.
Remarks
Clarkina asymmetrica can be distinguished from Clarkina dukouensis by asymmetric anterior narrowing of the platform, fused denticles on the middle carina, and a small gap between the posteriormost denticle and the cusp. However, a few gerontic C. dukouensis that have a more fused carina are similar to C. asymmetrica, and some juvenile C. asymmetrica that have unfused denticles, as in other Clarkina juveniles, are similar to C. dukouensis.
The holotype of Clarkina penglaitanensis assigned by Wang (Reference Wang2000) has more fused denticles and an obvious gap, and coexisted with C. asymmetrica. Thus, it might be C. asymmetrica. Some specimens in Wang and Xia (Reference Wang, Wu and Zhu2004) and Zhang et al. (Reference Zhang, Lai, Tong and Jiang2008) identified as C. dukouensis already have a fused carina and an obvious gap, so that they are assigned to C. asymmetrica in this paper.
Clarkina leveni (Kozur, Mostler, and Pjatakova in Kozur, Reference Kozur1975)
1975 Gondolella leveni Kozur, Mostler, and Pjatakova in Reference KozurKozur, p. 16, pl. 3, figs. 1–7.
?1988 Neogondolella leveni; Reference Clark and WangClark and Wang, fig. 3.17, 3.18.
1991 Neogondolella leveni; Reference Wang and DongWang and Dong, pl. 1, figs. 4, 5.
?1991 Neogondolella sp. A Reference Wang and DongWang and Dong, pl. 2, fig. 9.
?1993a Neogondolella leveni; Reference TianTian, pl. 1, fig. 17.
1994a Clarkina leveni; Reference Mei, Jin and WardlawMei et al., p. 135, pl. 1, figs. 13, 17.
1994c Clarkina leveni; Reference Mei, Jin and WardlawMei et al., pl. 3, figs. 12, 13.
1995 Clarkina leveni; Reference KozurKozur, pl. 5, fig. 3.
1998a Clarkina leveni; Reference Mei, Jin and WardlawMei et al., pl. 5, figs. 5, 6.
?2004 Clarkina bizarrensis; Reference Wang and XiaWang and Xia, figs. 3D, 3E.
2004 Clarkina leveni; Reference Wang and XiaWang and Xia, fig. 3J.
?2008 Clarkina postbitteri postbitteri; Reference Zhang, Zhang and XiaZhang et al., pl. 3, fig. 10.
2008 Clarkina leveni; Reference Zhang, Zhang and XiaZhang et al., pl. 3, fig. 14.
2008 Clarkina bizarrensis; Reference Zhang, Zhang and XiaZhang et al., pl. 3, figs. 16, 17.
2008 Clarkina longicuspidata; Reference Zhang, Zhang and XiaZhang et al., pl. 3, fig. 18.
2010 Clarkina leveni; Reference Shen and MeiShen and Mei, p. 153, figs. 4.1a–4.10b.
Holotype
PK1–2, from the basal Dzhulfian, Achura, Azerbaijan (Kozur, Reference Kozur1975, pl. 3, fig. 1).
Original diagnosis
Platform moderately wide to wide. The clear free blade comprises about a third of the total length of the conodont. At the point where the platform narrows abruptly, a clear tooth occurs on the carina. The 10–13 teeth of the carina are flattened at the front and at the sides, the lower surface and the keel are flat and very broad, distinctly longitudinal (Kozur, Reference Kozur1975, p. 16 [in German]).
Emended diagnosis
A species of Clarkina characterized by a P1 element with a relatively short platform. It is gradually increasing in width from posterior end to the widest point, which is near the middle of the platform, then narrowing gradually anteriorly, but sharply narrowing in the anterior 1/2 to1/3 of the element. Anterior narrowing of the platform on inner side is relatively sharper than outer side in some individuals. Posterior end of platform is squared to obliquely squared. Cusp is erect, terminal, and nearly equal to the posteriormost denticle in height in most individuals. Denticles are robust and closely spaced, but not fused, generally increasing gradually in height anteriorly; may be fused in a few gerontic specimens. Furrows are wide, deep, smooth, and well developed. Lateral margins are high, upturned, and sharply decline on sharply narrowing platform.
Remarks
Clarkina leveni can be distinguished from C. asymmetrica by a relatively short platform, robust but unfused denticles, high upturned lateral margins, and sharp narrowing in the anterior half of the platform.
Clarkina guangyuanensis (Dai and Zhang in Li et al., Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and Li1989)
Figure 6 (1–14) Clarkina liangshanensis (Wang, Reference Wang, Sadler, Shen, Erwin, Zhang, Wang, Wang, Crowley and Henderson1978): (1, 2) Holotype, NIGP45448, from sample Acf 2-83 at Liangshan region in Wang (Reference Wang, Sadler, Shen, Erwin, Zhang, Wang, Wang, Crowley and Henderson1978); (3–14) from sample PLTNC-1 at Penglaitan Section, NIGP166080–166085. (15–28) Clarkina guangyuanensis (Dai and Zhang in Li et al., Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and Li1989): (15, 16) holotype, DY83028, from sample GSC-11-1 at Shangsi Section in Li et al. (Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and Li1989); (17–28) from sample QT-120 at Nanjiang Section, NIGP166086–166091.
1989 Neogondolella guangyuanensis Dai and Zhang in Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and LiLi et al., p. 228, pl. 42, figs. 8–10.
1989 Neogondolella liangshanensis; Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and LiLi et al., pl. 42, figs. 1, 2, 5–7.
1989 Neogondolella paraleveni Dai and Zhang in Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and LiLi et al., pl. 42, figs. 3, 4, pl. 51, figs. 20–22, pl. 52, figs. 1–3, 9, 10.
?1989 Neogondolella paraleveni Dai and Zhang in Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and LiLi et al., pl. 42, figs. 11–14.
1989 Neogondolella deflecta; Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and LiLi et al., pl. 42, figs. 15–17, pl. 51, figs. 12, 13.
1989 Neogondolella bitteri; Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and LiLi et al., pl. 51, figs. 7–9, 16–19, pl. 52, figs. 4, 5, 22.
1989 Neogondolella cf. leveni; Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and LiLi et al., pl. 52, figs. 6–8, 23.
1991 Neogondolella guangyuanensis; Reference Wang and DongWang and Dong, p. 48, pl. II, figs. 4, 10, 11.
1993b Neogondolella leveni; Reference TianTian, pl. 1, figs. 5, 6.
1994a Clarkina guangyuanensis; Reference Mei, Jin and WardlawMei et al., p. 134, pl. 1, figs. 1, 10.
1998a Clarkina guangyuanensis; Reference Mei, Jin and WardlawMei et al., pl. 9, figs. 1–6; pl. 10, figs. 12.
?2004 Clarkina transcaucasica; Reference Wang and XiaWang and Xia, fig. 3F, 3G..
2004 Clarkina guangyuanensis; Reference Wang and XiaWang and Xia, fig. 3R, 3S.
?2008 Clarkina transcaucasica; Reference Zhang, Zhang and XiaZhang et al., pl. 3, fig. 8.
?2008 Clarkina postbitteri postbitteri; Reference Zhang, Zhang and XiaZhang et al., pl. 3, fig. 9.
2008 Clarkina dukouensis; Reference Zhang, Zhang and XiaZhang et al., pl. 3, fig. 11.
?2008 Clarkina longicuspidata; Reference Zhang, Zhang and XiaZhang et al., pl. 3, fig. 19.
2010 Clarkina guangyuanensis; Reference Shen and MeiShen and Mei, p. 155, figs. 5.1a–5.7b.
Holotype
DY83028, from the Wuchiaping Formation, Sichuan Province, China (Li et al., Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and Li1989, pl. 42, figs. 8–10).
Original diagnosis
Symmetric or near symmetric platform conodont. Platform short and wide, about 2/3 of unit in length. At the middle of the platform margin it is so constrictive that it emerges “Guitarlike” in oral view. Posterior margin narrow and cusp small. Carina with 11–13 denticles. Aboral surface, keel is the 2/3 of platform width (Li et al., Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and Li1989, p. 228, 432).
Emended diagnosis
A species of Clarkina characterized by a P1 element with a wide and nearly symmetric platform whose width is gradually increasing from posterior end to the widest point, which is in the anterior 1/3 of the element in most specimens, then sharply narrowing anteriorly, but the widest point is in the anterior 2/3 of element in some individuals. Posterior end is bluntly rounded to squarely rounded. Cusp is erect (adults) to slightly reclined (juveniles), terminal, and larger and higher than the posterior denticles. Denticles increase gradually in size and height anteriorly and become more fused in some senile specimens. A small gap is between the posteriormost denticle and the cusp or the second posterior denticle when the posteriormost denticle is closed or fused with the cusp. A narrow brim is behind the cusp in some individuals. Furrows are wide, but shallow. Upturned lateral margins are variable.
Remarks
Clarkina guangyuanensis can be distinguished from C. leveni by a relatively wide and long platform, short sharply narrowing part in the anterior, and a small gap before cusp, and distinguished from C. asymmetrica by a wide and symmetric platform and more robust denticles.
The diagnosis of a new species, Neogondolella paraleveni, established by Dai and Zhang in Li et al. (Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and Li1989) is the same as N. guangyuanensis (Clarkina guangyuanensis) except for outline of platform, and those two new species were established in one population. Thus, Neogondolella paraleveni is considered to be a synonym of N. guangyuanensis (=Clarkina guangyuanensis).
Clarkina liangshanensis (Wang, Reference Wang, Sadler, Shen, Erwin, Zhang, Wang, Wang, Crowley and Henderson1978)
1978 Neogondolella liangshanensis Reference Zhang, Lai, Tong and JiangWang, p. 221, pl. 2, figs. 1–5, 9–13, 16–19, 27–33.
1981 Neogondolella liangshanensis; Reference Wang and WangWang and Wang, pl. 1, figs. 1–3, 11, 12, 14, 15.
?1993b Neogondolella liangshanensis; Reference TianTian, pl. 1, fig. 2.
?1993b Dicerogondolella mononica Reference TianTian, pl. 1, fig. 17.
1994a Clarkina liangshanensis; Reference Mei, Jin and WardlawMei et al., p. 135, pl. 2, figs. 10–12.
1995 Clarkina liangshanensis; Reference KozurKozur, pl. 5, fig. 2.
1996 Clarkina liangshanensis; Reference Mei and WardlawMei and Wardlaw, pl. 17.1, figs. 1–9.
1998a Clarkina liangshanensis; Reference Mei, Jin and WardlawMei et al., pl. 7, fig. 7.
?1998a Clarkina aff. liangshanensis; Reference Mei, Jin and WardlawMei et al., pl. 10, fig. 5.
1998a Clarkina liangshanensis; Reference Mei, Jin and WardlawMei et al., pl. 10, figs. 8, 9.
2007 Clarkina liangshanensis; Reference ShenShen, figs. 5.1–5.10.
2010 Clarkina liangshanensis; Reference Shen and MeiShen and Mei, p. 155, figs. 5.8a–5.17b.
2014b Clarkina liangshanensis; Reference Yuan, Zhang, Zhang, Zhu and ShenYuan et al., figs. 3A–3T.
2015 Clarkina liangshanensis; Reference Yuan, Chen, Zhang, Zheng and ShenYuan et al., pl. 1, figs. 1–5.
Holotype
NIGP45448, from the Wuchiaping Formation, Shaanxi Province, China (Wang, Reference Wang, Sadler, Shen, Erwin, Zhang, Wang, Wang, Crowley and Henderson1978, pl. 2, figs. 28, 29).
Original diagnosis
Platform wide, smooth without sculpture, posterior end rounded or nearly square, lateral margins nearly parallel, and sharply narrowing in the anterior 1/3. Denticles small, low and fused on the posterior and middle carina, cusp is not obvious. Keel wide and flat, loop end nearly square (Wang, Reference Wang, Sadler, Shen, Erwin, Zhang, Wang, Wang, Crowley and Henderson1978, p. 221 [in Chinese]).
Emended diagnosis
A species of Clarkina characterized by a P1 element with a moderately wide, elongate, and tear-drop platform, which has a little twist in lateral view. The widest point of platform is in the middle, and it sharply narrows in the anterior 1/3 or 1/4 of the element. There is a small concavity in the posterior around 1/3 of inner margin in a few adult individuals. Posterior end is rounded to nearly square in adult specimens. Cusp is very small or even indistinct, and around same size as, or even smaller than, the posteriormost denticle. Denticles are small and slightly increasing in height and more fused anteriorly. Carina is very low in most specimens, and has a downfold in the posterior part. It extends to the posterior end of platform in many individuals. Some specimens have a narrow brim behind the cusp if carina does not extend to posterior end of platform. Furrows are narrow and very shallow.
Remarks
Clarkina liangshanensis is easily found and identified in the middle-upper part of the Wuchiapingian Stage in South China. It can be distinguished from C. orientalis by a relatively long platform, extended carina with posteriorly gradually decreasing denticles, and no or very narrow brim.
Dicerogondolella mononica, established by Tian (Reference Tian1993b), has a very small cusp, very low carina, extended carina, and very narrow brim, but a variable outline of the platform. It may be a gerontic specimen of Clarkina liangshanensis.
Clarkina transcaucasica Gullo and Kozur, Reference Gullo and Kozur1992
Figure 7 (1–13) Clarkina transcaucasica Gullo and Kozur, Reference Gullo and Kozur1992: (1) holotype, from Achura in Kozur (Reference Kozur1975); (2–13) from sample L-202 at Dukou Section, NIGP166092–166097. (14–27) Clarkina longicuspidata Mei and Wardlaw in Mei et al., Reference Mei, Jin and Wardlaw1994a: (14) holotype, NIGP121717, (15) NIGP121718, all from sampleQT-67 at Nanjiang Section; (16–27) from sample L-219 at Dukou Section, NIGP166098–166103.
1975 Gondolella orientalis; Reference KozurKozur, pl. 2, figs. 5–8.
1992 Clarkina orientalis transcaucasica Gullo and Kozur, p. 217.
1994a Clarkina transcaucasica; Reference Mei, Jin and WardlawMei et al., p. 137, pl. 1, figs. 5, 14.
1995 Clarkina transcaucasica; Reference KozurKozur, pl. 5, fig. 4.
1998a Clarkina transcaucasica; Reference Mei, Jin and WardlawMei et al., pl. 10, fig.7.
2010 Clarkina transcaucasica; Reference Shen and MeiShen and Mei, p.155.
?2017 Clarkina transcaucasica; Reference Sun, Liu, Yan, Li, Chen, Bond, Joachimski, Wignall, Wang and LaiSun et al., pl. 5, fig. 15.
Holotype
PK1–13, from the Dzhulfian, Achura, Azerbaijan (Kozur, Reference Kozur1975, pl. 2, fig. 6).
Original diagnosis
Platform very broad. Posterior platform end broad, blunt, mostly with rounded corners, often somewhat oblique, sometimes broadly rounded. Platform widest at about midlength; in front of its widest part, the platform becomes suddenly narrow, but its height drops gradually. Platform outline asymmetrical; one side is convex to straight, the other side displays mostly a slight to distinct constriction behind the midlength, or one side is convex, the other one straight or less convex. Free blade very long, only with very narrow platform rudiments. Platform surfaces with microreticulation except the smooth adcarinal furrows.
Carina straight, at its posterior end sometimes a little bent, exceptionally also bifurcated. It ends at, or a little before, the platform end. Therefore, the platform brim behind the carina is either very narrow or missing. The 12–15 denticles on the free blade are long and highly fused. The posterior part of the carina is considerably lower; here the denticles in adult forms are mostly totally fused to a humpy or smooth line.
The “keel” is broad, flat, in adult forms with numerous distinct longitudinal stripes. Basal filling often preserved. Pit elongate, subterminal. Around the pit the “keel” is distinctly elevated (Gullo and Kozur, Reference Gullo and Kozur1992, p. 217).
Emended diagnosis
A species of Clarkina characterized by a P1 element with a wide and nearly symmetric platform whose widest point is in the middle part, and narrowing gradually posteriorly and anteriorly, but narrowing sharply in the anterior 1/3. Posterior end is squared or obliquely squared. Cusp is erect, terminal, small, and around same size as the posteriormost denticle. Denticles increase gradually in height anteriorly and become more fused in gerontic individuals. There is a small gap between the cusp and the posteriormost denticle in a few specimens, but not obvious in typical forms. A very narrow brim is behind the cusp in most specimens. Furrows are narrow to moderate, and shallow. Carina deflects towards inner side in the posterior end in a few gerontic individuals.
Remarks
Clarkina transcaucasica is extremely difficult to differentiate from C. guangyuanensis based on just a single specimen. It is also very similar to C. liangshanensis in view of its characters of the carina, except for the squared posterior end of the platform. Therefore, all three of these species are difficult to distinguish in some samples, and their relationship needs to be re-evaluated based on studies of large populations. Generally, C. transcaucasica differs from C. guangyuanensis by a small cusp and no gap between cusp and posterior denticle, and from C. liangshanensis by its squared (truncated) posterior margin of the platform and more obvious carina in the posterior (Shen and Mei, Reference Shen2010; Yuan et al., Reference Yuan, Shen, Henderson, Chen, Zhang and Feng2014b).
Clarkina longicuspidata Mei and Wardlaw in Mei et al., Reference Mei, Jin and Wardlaw1994a
1987 Neogondolella orientalis; Reference Nestell and WardlawNestell and Wardlaw, pl. 5, figs. 1, 2, 5.
?1993 Neogondolella subcarinata; Reference WangWang, pl. 51, fig. 19.
1994a Clarkina longicuspidata Mei and Wardlaw in Reference Mei, Jin and WardlawMei et al., p. 136, pl. 2, figs. 7–9.
2003 Clarkina longicuspidata; Reference Wang and HendersonWang and Henderson, figs. 11–13.
2004 Clarkina longicuspidata; Reference Mei, Henderson and CaoMei et al., p. 117, figs. 3a1–3b2, 4a1–4o2, 5a1–5h2, 6a1–6n.
2006 Clarkina longicuspidata; Reference Wang, Shen, Cao, Wang, Henderson and JinWang et al., figs. 11–13.
2014a Clarkina longicuspidata; Reference Yuan, Shen, Henderson, Chen, Zhang and FengYuan et al., p. 235, pl. 2, figs. 18–29.
Holotype
NIGP121717, from the Wuchiaping Formation, Sichuan Province, China (Mei et al., Reference Mei, Jin and Wardlaw1994a, pl. 2, fig. 7).
Remarks
The range of this species is unclear, but its diagnosis and distinction were discussed in detail in Mei et al. (Reference Mei, Zhang and Wardlaw2004) and Yuan et al. (Reference Yang, Yin, Wu, Yang, Ding and Xu2014a).
Clarkina orientalis (Barskov and Koroleva, Reference Barskov and Kororleva1970)
Figure 8 (1–31) Clarkina orientalis (Barskov and Koroleva, 1970): (1–16) from sample PLTNC-15 at Penglaitan Section, registration nos. NIGP166104-166111; (17, 18) from sample QT-14 at Nanjiang Section, registration no. NIGP166112; (19–31) from sample MRC-12 at Penglaitan Section, registration nos. NIGP166113-166125, (21–24) P2 elements, (25) M element, (26, 27) S0 elements, (28, 29) S2 elements, (30) S3 element, (31) S4 element.
1970 Gondolella orientalis Barskov and Koroleva, p. 933, figs. 1a–c.
1973 Neogondolella orientalis; Reference Teichert, Kummel and SweetTeichert et al., pl. 13, figs. 4–11.
1981 Neogondolella orientalis; Reference Wang and WangWang and Wang, pl. 1, figs. 16, 17.
1981 Neogondolella orientalis; Wang and Wang in Reference Zhao, Sheng, Yao, Liang, Chen, Rui and LiaoZhao et al., pl. 5, figs. 12–14, 17, 18.
1981 Neogondolella orientalis mediconstricta Wang and Wang in Reference Zhao, Sheng, Yao, Liang, Chen, Rui and LiaoZhao et al., pl. 6, figs. 12, 13.
1987 Gondolella orientalis; Reference ZhangZhang, pl. 1, fig. 20.
1987 Neogondolella orientalis; Reference DuanDuan, pl. 1, figs. 6, 7.
1988 Neogondolella latimarginata Reference Clark and WangClark and Wang, figs. 3.20–3.23.
1989 Neogondolella orientalis; Dai and Zhang in Reference Li, Zhan, Dai, Jin, Zhu, Zhang, Huang, Xu, Yan and LiLi et al., p. 231, pl. 43, figs. 19, 20.
1990 Neogondolella orientalis; Reference DuanDuan, pl. 2, figs. 11, 16.
1993 Neogondolella latimarginata; Reference WangWang, pl. 51, fig. 18.
1993 Neogondolella cf. latimarginata; Reference WangWang, pl. 52, figs. 13, 14.
1993b Neogondolella parallela Reference TianTian, pl. 1, figs. 7, 9.
1993b Neogondolella orientalis; Reference TianTian, pl. 1, figs. 8, 10.
1994a Clarkina orientalis; Reference Mei, Jin and WardlawMei et al., p. 136, pl. 1, figs. 2, 4, 8; pl. 2, figs. 15, 17, 22.
?1994a Clarkina demicornis Mei and Wardlaw in Reference Mei, Jin and WardlawMei et al., pl. 2, figs. 4–6.
1994c Clarkina orientalis; Reference Mei, Jin and WardlawMei et al., pl. 3, fig. 15.
1994 Neogondolella ex. gr. orientalis; Reference Orchard, Nassichuk and RuiOrchard et al., pl. 1, figs. 1, 2.
1995 Clarkina orientalis; Reference KozurKozur, pl. 5, fig. 5.
1995 Clarkina mediconstricta; Reference KozurKozur, pl. 5, fig. 6.
1998a Clarkina orientalis; Reference Mei, Jin and WardlawMei et al., pl. 10, figs. 10, 16, 17.
?1998a Clarkina orientalis; Reference Mei, Jin and WardlawMei et al., pl. 10, figs. 11, 18.
1998a Clarkina demicornis; Reference Mei, Jin and WardlawMei et al., pl. 10, fig. 15.
1998b Clarkina orientalis; Reference Mei, Zhang and WardlawMei et al., pl. 3, fig. F.
2003 Clarkina orientalis; Reference Wang and HendersonWang and Henderson, fig. 14.
2004 Clarkina orientalis; Reference Mei, Henderson and CaoMei et al., fig. 4p.
2006 Clarkina orientalis; Reference Nafi, Xia and ZhangNafi et al., pl. 4, figs. 1, 2, pl. 5, fig. 22.
2006 Clarkina orientalis; Reference Wang, Shen, Cao, Wang, Henderson and JinWang et al., fig. 4.14.
2007 Clarkina orientalis; Reference ShenShen, figs. 1.1–1.12, 2.1–2.17, 3.1–3.13.
2010 Clarkina orientalis; Reference Shen and MeiShen and Mei, p. 155, figs. 6.1a–6.11b.
2012 Clarkina orientalis; Reference Fang, Jing, Deng and WangFang et al., fig. 3.17.
2014a Clarkina orientalis; Reference Yuan, Shen, Henderson, Chen, Zhang and FengYuan et al., pl. 1, figs. 11–20.
2014b Clarkina orientalis; Reference Yuan, Zhang, Zhang, Zhu and ShenYuan et al., figs. 3U–3X.
Holotype
From the Dzhulfian, USSR (Barskov and Koroleva, Reference Barskov and Kororleva1970, fig. 1).
Original diagnosis
Platform is oval in outline. Inferior surface a broad low carina and small narrow groove. Median crest with flattened denticles that merge anteriorly where they form a laminated, short, practically adenticulate free blade (Barskov and Koroleva, Reference Barskov and Kororleva1970, p. 933 [in Russian]).
Emended diagnosis
A species of Clarkina characterized by a P1 element with an oval-shaped or tapered platform. Posterior end is bluntly rounded to rounded. Cusp is small, just slightly larger than the posteriormost denticle in most individuals and in some cases fused with the posterior denticles. Posterior denticles are more closed, but not fused; become increasingly fused with age, forming a fused carina in gerontic individuals. They increase gradually in size and height anteriorly. There is an obvious gap between cusp and the posteriormost denticle in most specimens. Posterior brim behind cusp is usually broad. Furrows are very shallow.
Remarks
Clarkina orientalis can be distinguished from C. transcaucasica by a broad brim and an obvious gap between cusp and the posteriormost denticle. The C. orientalis Zone may occupy nearly 2/3 of the upper part of the Wuchiapingian.
Wang and Wang in Zhao et al. (Reference Zhang, Zhang and Xia1981) established a new subspecies, Neogondolella (=Clarkina) orientalis mediconstricta, based on the contraction of the middle platform, which was considered as major difference from Clarkina orientalis. We recognize the holotype of that new subspecies as a gerontic C. orientalis specimen with variable outline of platform. Clark and Wang (Reference Clark and Wang1988, p. 137) established Neogondolella latimarginata based on “a distinct wide brim around the posterior platform and a completely fused carina.” After Gullo and Kozur (Reference Gullo and Kozur1992) divided Clarkina transcaucasica, which has a narrower brim than C. orientalis, a broad brim and more fused carina became major characteristics of C. orientalis. Thus, Neogondolella latimarginata is considered to be a synonym of Clarkina orientalis. Tian (Reference Tian1993a, Reference Tianb) established Neogondolella parallela in the upper part of the Wuchiapingian, and considered it to have evolved from N. leveni by losing the end-node of the carina, and differs from N. orientalis by a rectangular platform. However, most characteristics of those specimens belong to Clarkina orientalis, so they are referred to C. orientalis in this paper. Clarkina demicornis established by Mei and Wardlaw in Mei et al. (Reference Mei, Jin and Wardlaw1994a) may be a synonym of C. orientalis based on a tapered platform, a small cusp, an obvious gap, and shallow furrows.
Acknowledgements
We thank two anonymous reviewers for comments to improve the manuscript. This work was supported by the National Natural Science Foundation of China (41290260, 41420104003), the Strategic Priority Research Program (B) of the Chinese Academy of Sciences (XDB18000000) for SSZ and DXY, a NSERC Discovery Grant to CMH, and the State Key Laboratory of Palaeobiology and Stratigraphy (20162112) to DXY. A NSERC DG and Chinese Scholarship Council supported DXY during his post-doc at the University of Calgary.
