学名(拉丁名) | Glyptostrobus pensilis |
中文名 | 水松 |
命名人 | (Staunt.) Koch |
中文科名 | 杉科 |
拉丁属名 | Glyptostrobus |
类型 | species |
拉丁科名 | Taxodiaceae |
中文属名 | 水松属 |
学名(拉丁名) | Glyptostrobus pensilis |
中文名 | 水松 |
中文科名 | 杉科 |
拉丁属名 | Glyptostrobus |
类型 | species |
拉丁科名 | Taxodiaceae |
中文属名 | 水松属 |
学名(拉丁名) | Glyptostrobus pensilis |
中文名 | 水松 |
中文科名 | 杉科 |
类型 | |
拉丁科名 | TAXODIACEAE |
学名(拉丁名) | Glyptostrobus pensilis |
中文名 | 水松 |
中文科名 | 杉科 |
类型 | |
拉丁科名 | TAXODIACEAE |
学名(拉丁名) | Glyptostrobus pensilis |
命名人 | (Staunton ex D. Don) K. Koch (accepted name) |
拉丁属名 | Glyptostrobus |
类型 | species |
拉丁科名 | Cupressaceae |
学名(拉丁名) | Glyptostrobus pensilis |
命名人 | (Staunton ex D.Don) K.Koch |
发表年份 | 1873(年) |
拉丁属名 | Glyptostrobus |
类型 | species |
拉丁科名 | Cupressaceae |
学名(拉丁名) | Glyptostrobus pensilis |
中文名 | 水松 |
拉丁属名 | Glyptostrobus |
类型 | species |
拉丁科名 | Taxodiaceae |
学名(拉丁名) | Glyptostrobus pensilis |
中文名 | 水松 |
中文科名 | 杉科 |
拉丁属名 | Glyptostrobus |
类型 | species |
拉丁科名 | Taxodiaceae |
中文属名 | 水松属 |
学名(拉丁名) | Glyptostrobus pensilis |
发表年份 | 1873(年) |
拉丁属名 | Glyptostrobus |
类型 | species |
拉丁科名 | Cupressaceae |
学名(拉丁名) | Glyptostrobus pensilis |
拉丁属名 | Glyptostrobus |
类型 | species |
拉丁科名 | Taxodiaceae |
中国植物志 |
|
学名 | 状态 | 来源 | 命名人 |
---|---|---|---|
Cuprespinnata sinensis | Synonym | The Plant List | (J. Forbes) J. Nelson |
Cupressepinnata sinensis | Synonym | The Plant List | (J.Forbes) J.Nelson |
Glyptostrobus aquaticus | Synonym | The Plant List | (Roxb.) R.Parker |
Glyptostrobus heterophyllus | Synonym | The Plant List | (Brongn.) Endl. |
Glyptostrobus sinensis | Synonym | The Plant List | A.Henry ex Loder |
Juniperus aquatica | Synonym | The Plant List | Roxb. |
Sabina aquatica | Synonym | The Plant List | (Roxb.) Antoine |
Schubertia nucifera | Synonym | The Plant List | Denham ex Endl. |
Taxodium heterophyllum | Synonym | The Plant List | Brongn. |
Taxodium japonicum | Synonym | The Plant List | Dehnh. ex Gordon |
Taxodium japonicum var. heterophyllum | Synonym | The Plant List | Brongn. |
Cuprespinnata heterophylla | Synonym | The Plant List | (Brongn.) J. Nelson |
Taxodium sinense | Synonym | The Plant List | J.Forbes |
Thuja lavandulifolia | Synonym | The Plant List | Poir. |
Thuja pensilis | Synonym | The Plant List | Abel |
Cupressepinnata heterophylla | Synonym | The Plant List | (Brongn.) J.Nelson |
Cupressus nucifera | Synonym | The Plant List | Carrière |
乔木,高8—10米,稀可达25米,生于湿润环境者树干基部膨大成柱槽状,柱槽高达70余厘米,并有伸出土面或水面的吸收根。条状钻形叶长4—11毫米,两侧扁,背部有棱脊,先端渐尖或尖钝,微向外弯;条形叶扁平而薄,长1—3厘米;鳞叶长2—4毫米,先端钝尖,基部下延。球果倒卵圆形,长2—2.5厘米,径1.3—1.5厘米,具1.3—1.9厘米长的梗,种鳞大小不等;种子椭圆形,褐色,微扁,长5—7毫米,宽3—4毫米,种翅长4—7毫米。花期1—2月,果期10—11月。
产屏边大围山、富宁,昆明有栽培。为我国特有树种,水松主要分布在广东珠江三角洲、福建中部及闽江下游海拔1000米以下地区,在分布区内几无天然林,多系人工栽培的树木,南京、上海、杭州等地均有栽培。
Thuja pensilis Staunton ex D. Don in Lambert, Descr. Pinus, ed. 2, 2: 115. 1828; Glyptostrobus aquaticus (Antoine) R. Parker; G. heterophyllus (Brongniart) Endlicher; G. sinensis A. Henry ex Loder; Sabina aquatica Antoine; Taxodium japonicum (Thunberg ex Linnaeus f.) Brongniart var. heterophyllum Brongniart; T. sinense J. Forbes.
Trees to 15(-25) m tall; trunk to 1.2 m d.b.h., basal part (ca. 0.7 m) buttressed; bark brown or grayish white with brown tinge, cracking into long, irregular strips; main branches spreading horizontally; lateral branchlets in 2 rows, those of older branches often very dense and broomlike. Scale leaves on mature branchlets appressed, 1.5-3 × 0.4-0.6 mm, with scattered, white, stomatal spots, adaxial surface convex, base decurrent, apex incurved, slightly hooked. Leaves of 1st year branchlets erect-spreading at 40-45° to axis, 1.5-2 mm apart, forming a narrowly oblong-lanceolate branchlet outline, subulate, slightly falcately recurved distally, 2-7 × 0.4-0.6 mm, with stomatal lines along all surfaces and on branchlet axis, trailing edge with narrow, membranous wing decurrent onto branchlet axis. Seed cones obovoid, 1.4-2.5 × 0.9-1.5 cm; bracts ± connate with cone scales except for triangular apex located in middle or distal middle part of cone scale; cone scales flattened, median scales obovate, 1-1.3 cm × 3-5.5 mm, base cuneate, apical margin with 6-10 triangular, outwardly curved teeth adaxially. Seeds brown, elliptic, slightly flattened, 5-7 × 3-4 mm, with a basal wing 4-7 mm. Pollination Jan-Mar, seed maturity Sep-Oct(-Nov), persisting until following spring.
River deltas, etc., on flooded or waterlogged soil in full sun; near sea level. Fujian, S Guangdong, S Guangxi, Hainan, E Jiangxi, E Sichuan, SE Yunnan (Pingbian Miaozu Zizhixian), Zhejiang [N Vietnam (extinct in the wild)].
May no longer exist in the wild anywhere in China; rare in all provinces except Guangdong. Most frequent along the Zhu Jiang delta, in Guangdong, and along the lower reaches of the Min Jiang in Fujian, but possibly not native in the latter province. Somewhat similar in vegetative features to the introduced Taxodium distichum var. imbricatum, which is planted in similar habitats within the range of Glyptostrobus pensilis. The former differs in its flat leaves (of young branchlets), which lack a narrow wing along their trailing edges, and in its subulate, spreading leaves (of 1st year branchlets on older trees), which are softer, with incurved (not recurved) apices.
Wind-felled trees are used in constructing buildings, bridges and furniture. The roots have high buoyancy and are used to make life buoys, bottle corks, etc. Tannins extracted from the bark and the cone scales are used in tanning, dyeing, and fishing nets. Often planted in wet places for erosion control, as a windbreak, and because it is believed to bring good luck; consequently the tree is not normally deliberately felled by villagers.
水松(广东) 图版69
Glyptostrobus pensilis (Staunt.) Koch, Dendr. 2(2): 191. 1873; Rehd. Man. Cult. Trees and Shrubs 25. 1927, ed. 2. 50. 1940, et. Bibliogr. 43. 1949; 胡先骕、陈焕镛, 中国植物图谱 2: 1.图版51. 1929; Beissn. u. Fitsch. Handb. Nadelh. ed. 3. 455. 1930; Merr. in Trans. Amer. Philos. Soc. 24(2): 65. 1935; 陈嵘, 中国树木分类学 50. 图37. 1937; Metcalf, Fl. Fukien 1: 29. 1942; 刘玉壶, 中研汇报 1(1): 159. 1948; Dallimore and Jack son, Handb. Conif. ed. 3. 290. 1948; 侯宽昭等, 广州植物志 71. 图 13. 1956; 郑万钧等, 中国树木学 1: 219. 图98. 1961; S. Y. Hu in Taiwania 10: 60. 1964; 中国科学院植物研究所, 中国高等植物图鉴 1: 314. 图628. 1972. ——Thuja pensilis Staunt. Auth. Account Embassy China 2: 436. 1797, nom. nud.; D. Don in Lamb. Descr. Gen. Pinus ed. 2. 2: 115. 1828. ——Juniperus aquatica Roxb. Hort. Bengal. 73. 1814, nom. nud., et Fl. Ind. ed. 2. 3: 838. 1832, nom. subnud. ——Taxodium japonicum var. heterophyllum Brongn. in Ann. Sci. Nat. 30: 184. 1833. ——Taxodium heterophyllum Brongn. l. c. pro syn.; Kent, Veitch's Man. Conif. ed. 2. 286. 1900. ——Taxodium sinensis Forbes, Pinet. Woburn. 179. 1839. ——Glyptostrobus heterophyllus (Brongn.) Endl. Syn. Conif. 70. 1847; Parl. in DC. Prodr. 16(2): 439. 1868; Chun, Chinese Econ. Trees 34. 1921; 郝景盛, 中国裸子植物志 95. 图20. 1947, 再版80. 图20. 1951. ——Glyptostrobus sinensis Henry ex Loder in Gard. Chron. ser. 3. 66: 259. f. 118. 122. 123. 1919. ——Glyptostrobus aquaticus (Roxb.) Parker in Ind. Forest. 15: 61. 1925. ——Glyptostrobus lineatus auct. non Druce: Franco in An. Inst. Super. Agron. 19: 15. 1952; Moore in Bailey 14(1): 10. 1966; Dallimore and Jackson, rev. Harrison, Handb. Conif. and Ginkgo. ed. 4. 233. 1966.
乔木,高8-10米,稀高达25米,生于湿生环境者,树干基部膨大成柱槽状,并且有伸出土面或水面的吸收根,柱槽高达70余厘米,干基直径达60-120,厘米,树干有扭纹;树皮褐色或灰白色而带褐色,纵裂成不规则的长条片;枝条稀疏,大枝近平展,上部枝条斜伸;短枝从二年生枝的顶芽或多年生枝的腋芽伸出,长8-18厘米,冬季脱落;主枝则从多年生及二年生的顶芽伸出,冬季不脱落。叶多型:鳞形叶较厚或背腹隆起,螺旋状着生于多年生或当年生的主枝上,长约2毫米,有白色气孔点,冬季不脱落;条形叶两侧扁平,薄,常列成二列,先端尖,基部渐窄,长1-3厘米,宽1.5-4毫米,淡绿色,背面中脉两侧有气孔带;条状钻形叶两侧扁,背腹窿起,先端渐尖或尖钝,微向外弯,长4-11毫米,辐射伸展或列成三列状;条形叶及条状钻形叶均于冬季连同侧生短枝一同脱落。球果倒卵圆形,长2-2.5厘米,径1.3-1.5厘米;种鳞木质,扁平,中部的倒卵形,基部楔形,先端圆,鳞背近边缘处有6-10个微向外反的三角状尖齿;苞鳞与种鳞几全部合生,仅先端分离,三角状,向外反曲,位于种鳞背面的中部或中上部;种子椭圆形,稍扁,褐色,长5-7毫米,宽3-4毫米,下端有长翅,翅长4-7毫米。子叶4-5枚,条状针形,长1.2-1.6厘米,宽不及1毫米,无气孔线;初生叶条形,长约2厘米,宽1.5毫米,轮生、对生或互生,主茎有白色小点。花期1-2月,球果秋后成熟。
为我国特有树种,主要分布在广州珠江三角洲和福建中部及闽江下游海拔1000米以下地区。广东东部及西部、福建西部及北部、江西东部、四川东南部、广西及云南东南部也有零星分布。此外南京、武汉、庐山、上海、杭州等地有栽培。几模式标本采自广东广州。
木材淡红黄色,材质轻软,纹理细,耐水湿,比重0.37-0.42。也可作建筑、桥梁、家具等用材。根部的木质轻松,比重为0.12,浮力大,可做救生圈、瓶塞等软木用具。种鳞、树皮含单宁,可染鱼网或制皮革。根系发达,可栽于河边、堤旁,作固堤护岸和防风之用。树形优美,可作庭园树种。水松的学名, 自M. T. Masters及A. Rehder等人考证以来, 长期以Glyptostrobus pensilis (Staunt.) Koch为有效学名。近来J. Franco, H. E. Moore及S. G. Harrison则主张用G. lineatus (Poir.) Druce为其有效学名。经胡秀英(in Taiwania 10: 60-61. 1964)查考, 她认为A. Rehder等人的意见正确。因1817年J. L. M. Poiret发表Thuja lineata (Encycl. Meth. Bot. Suppl. 5: 303)所依据的标本, 是采自栽培于M. Noisette花园的幼龄植物。1838年, J. C. Loudon命名同样的植物为Taxodium sinense Noisette ex Loudon (Arb. Frut. Brit. 4: 2462)。根据M. T. Masters及A. Rehder等人的考证, L. Noisette命名所依据的植物是Taxodium ascendens Brongn. f. nutans (Ait. ) Rehder. 1917年G. C. Druce (in Bot. Exch. Club. Brit. Isles 4: 624)没有讲明任何理由, 而将J. L. M. Poiret的Thuja lineata转隶于水松。1952年, J. Franco亦没有任何材料为依据, 仅单纯根据命名的先后, 把Glyptostrobus lineatus (Poir.) Druce作为水松的学名。实则这一学名应作为Taxodium ascendens cv. 'Nutans'的异名。
水松在其分布区内几无天然林,多系人工栽培的树木。为喜光树种,喜温暖湿润的气侯及水湿的环境,耐水湿不耐低温,对土壤的适应性较强,除盐碱土之外,在其他各种土壤上均能生长。而以水分较多的冲渍土上生长最好。
Glyptostrobus pensilis | |||
Family Name: | Taxodiaceae | Genera name: | Glyptostrobus |
Species name: | pensilis | Genera status: | |
NLR: | Comments: | ||
Sample Name: | Kouwa-cho | Formation: | Tokoname |
Age: | Epoch (to): | Pliocene~Miocene | |
Stage: | ~ | Contributer: | |
Ecology: | Climate: | ||
locality name: | Kouwa-cho | Province/State: | Kouwa-cho |
Continents: | Asia | county: | |
country: | Japan | longitude-decimal degrees: | 136.916667 |
latitude-decimal degrees: | 34.666667 | elevation [m]: | |
Notes: |
C. Honshu-Ozaki, 1991 | |||
title: | Late Miocene and Pliocene Floras in Central Honshu, Japan | ||
Year: | 1991 | Type: | book |
Volume: | Issue: | ||
Pages: | 1-244 | Publisher: | |
Location of publisher: | General: | ||
Authors: | K. Ozaki |
Phanerozoic |
Proterozoic |
Archean |
Hadean (informal) |
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Cenozoic |
Mesozoic |
Paleozoic |
Neoproterozoic |
Mesoproterozoic |
Paleoproterozoic |
Neoarchean |
Mesoarchean |
Paleoarchean |
Eoarchean |
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Quaternary |
Neogene |
Paleogene |
Cretaceous |
Jurassic |
Triassic |
Permian |
Carboniferous |
Devonian |
Silurian |
Ordovician |
Cambrian |
Ediacaran |
Cryogenian |
Tonian |
Stenian |
Ectasian |
Calymmian |
Statherian |
Orosirian |
Rhyacian |
Siderian |
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Holocene |
Pleistocene |
Pliocene |
Miocene |
Oligocene |
Eocene |
Paleocene |
Upper |
Lower |
Upper |
Middle |
Lower |
Upper |
Middle |
Lower |
Lopingian |
Guadalupian |
Cisuralian |
Pennsylvanian-Upper |
Pennsylvanian-Middle |
Pennsylvanian-Lower |
Mississippian-Upper |
Mississippian-Middle |
Mississippian-Lower |
Upper |
Middle |
Lower |
Pridoli |
Ludlow |
Wenlock |
Llandovery |
Upper |
Middle |
Lower |
Furongian |
Series 3 |
Series 2 |
Terreneuvian |
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Upper |
"lonia" |
Calabrian |
Gelasian |
Piacenzian |
Zanclean |
Messinian |
Tortonian |
Serravallian |
Langhian |
Burdigalian |
Chattian |
Aquitanian |
Rupelian |
Priabonian |
Bartonian |
Lutetian |
Ypresian |
Thanetian |
Selandian |
Danian |
Maastrichtian |
Campanian |
Santonian |
Coniacian |
Turonian |
Cenomanian |
Albian |
Aptian |
Barremian |
Hauterivian |
Valanginian |
Berriasian |
Tithonian |
Kimmeridgian |
Oxfordian |
Callovian |
Bathonian |
Bajocian |
Aalenian |
Toarcian |
Pliensbachian |
Sinemurian |
Hettangian |
Rhaetian |
Norian |
Carnian |
Ladinian |
Anisian |
Olenekian |
Induan |
Changhsingian |
Wuchiapingian |
Capitanian |
Wordian |
Roadian |
Kungurian |
Artinskian |
Sakmarian |
Asselian |
Gzhelian |
Kasimovian |
Moscovian |
Bashkirian |
Serpukhovian |
Visean |
Tournaisian |
Famennian |
Frasnian |
Givetian |
Eifelian |
Emsian |
Pragian |
Lochkovian |
Ludfordian |
Gorstian |
Homerian |
Sheinwoodian |
Telychian |
Aeronian |
Rhuddanian |
Hirnantian |
Katian |
Sandbian |
Darriwilian |
Dapingian |
Floian |
Tremadocian |
Stage 10 |
Stage 9 |
Paibian |
Guzhangian |
Drumian |
Stage 5 |
Stage 4 |
Stage 3 |
Stage 2 |
Fortunian |
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0 | 0.0117 | 0.126 | 0.781 | 1.806 | 2.588 | 3.6 | 5.332 | 7.246 | 11.608 | 13.82 | 15.97 | 20.43 | 23.03 | 28.4 ±0.1 | 33.9 ±0.1 | 37.2 ±0.1 | 40.4 ±0.2 | 48.6 ±0.2 | 55.8 ±0.2 | 58.7 ±0.2 | 61.1 | 65.5 ±0.3 | 70.6 ±0.6 | 83.5 ±0.7 | 85.8 ±0.7 | 88.6 | 93.6 ±0.8 | 99.6 ±0.9 | 112.0 ±1.0 | 125.0 ±1.0 | 130.0 ±1.5 | 133.9 | 140.2 ±3.0 | 145.5 ±4.0 | 150.8 ±4.0 | 155.6 | 161.2 ±4.0 | 164.7 ±4.0 | 167.7 ±3.5 | 171.6 ±3.0 | 175.6 ±2.0 | 183.0 ±1.5 | 189.6 ±1.5 | 196.5 ±1.0 | 199.6 ±0.6 | 203.6 ±1.5 | 216.5 ±2.0 | 228.7 | 237.0 ±2.0 | 245.9 | 249.5 | 251.0 ±0.4 | 253.8 ±0.7 | 260.4 ±0.7 | 265.8 ±0.7 | 268.0 ±0.7 | 270.6 ±0.7 | 275.6 ±0.7 | 284.4 ±0.7 | 294.6 ±0.8 | 299.0 ±0.8 | 303.4 ±0.9 | 307.2 ±1.0 | 311.7 ±1.1 | 318.1 ±1.3 | 328.3 ±1.6 | 345.3 ±2.1 | 359.2 ±2.5 | 374.5 ±2.6 | 385.3 ±2.6 | 391.8 ±2.7 | 397.5 ±2.7 | 407.0 ±2.8 | 411.2 ±2.8 | 416.0 ±2.8 | 418.7 ±2.7 | 421.3 ±2.6 | 422.9 ±2.5 | 426.2 ±2.4 | 428.2 ±2.3 | 436.0 ±1.9 | 439.0 ±1.8 | 443.7 ±1.5 | 445.6 ±1.5 | 455.8 ±1.6 | 460.9 ±1.6 | 468.1 ±1.6 | 471.8 ±1.6 | 478.6 ±1.7 | 488.3 ±1.7 | 492 | 496 | 499 | 503 | 506.5 | 510 | 515 | 521 | 528 | 542.0 ±1.0 | 635 | 850 | 1000 | 1200 | 1400 | 1600 | 1800 | 2050 | 2300 | 2500 | 2800 | 3200 | 3600 | 4000 | 4600 |
显生宇 |
元古宇 |
太古宇 |
冥古宇 (非正式) |
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新生界 |
中生界 |
古生界 |
新元古界 |
中元古界 |
古元古界 |
新太古界 |
中太古界 |
古太古界 |
始太古界 |
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第四系 |
新近系 |
古近系 |
白垩系 |
侏罗系 |
三叠系 |
三叠系 |
石炭系 |
泥盆系 |
志留系 |
奥陶系 |
寒武系 |
埃迪卡拉系 |
成冰系 |
拉伸系 |
狭带系 |
延展系 |
盖层系 |
固结系 |
造山系 |
层侵系 |
成铁系 |
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全新统 |
更新统 |
上新统 |
中新统 |
渐新统 |
始新统 |
古新统 |
上白垩统 |
下白垩统 |
上侏罗统 |
中侏罗统 |
下侏罗统 |
上三叠统 |
中三叠统 |
下三叠统 |
乐平统 |
瓜德鲁普统 |
乌拉尔统 |
宾夕法尼亚亚系-上 |
宾夕法尼亚亚系-中 |
宾夕法尼亚亚系-下 |
密西西比亚系-上 |
密西西比亚系-中 |
密西西比亚系-下 |
上泥盆统 |
中泥盆统 |
下泥盆统 |
普里道利统 |
罗德洛统 |
文洛克统 |
兰多维列统 |
上奥陶统 |
中奥陶统 |
下奥陶统 |
芙蓉统 |
第三统 |
第二统 |
纽芬兰统 |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
上更新统 |
“伊奥尼雅阶” |
卡拉布里雅阶 |
格拉斯阶 |
皮亚琴察阶 |
赞克尔阶 |
梅辛阶 |
托尔通阶 |
塞拉瓦尔阶 |
兰哥阶 |
布尔迪加尔阶 |
阿启坦阶 |
夏特阶 |
鲁培尔阶 |
普利亚本阶 |
巴尔通阶 |
鲁帝特阶 |
伊普里斯阶 |
坦尼特阶 |
赛兰特阶 |
丹尼阶 |
马斯特里赫特阶 |
坎潘阶 |
三冬阶 |
康尼亚克阶 |
土伦阶 |
赛诺曼阶 |
阿尔布阶 |
阿普特阶 |
巴雷姆阶 |
欧特里夫阶 |
凡兰吟阶 |
贝利阿斯阶 |
提塘阶 |
基末利阶 |
牛津阶 |
卡洛夫阶 |
巴通阶 |
巴柔阶 |
阿林阶 |
土阿辛阶 |
普林斯巴阶 |
辛涅缪尔阶 |
赫塘阶 |
瑞替阶 |
诺利阶 |
卡尼阶 |
拉丁阶 |
安尼阶 |
奥伦尼克阶 |
印度阶 |
长兴阶 |
吴家坪阶 |
卡匹敦阶 |
沃德阶 |
罗德阶 |
空谷阶 |
亚丁斯克阶 |
萨克马尔阶 |
阿瑟尔阶 |
格舍尔阶 |
卡西莫夫阶 |
莫斯科阶 |
巴什基尔阶 |
谢尔普霍夫阶 |
维宪阶 |
杜内阶 |
法门阶 |
弗拉阶 |
吉维特阶 |
艾菲尔阶 |
埃姆斯阶 |
布拉格阶 |
洛霍考夫阶 |
卢德福特阶 |
高斯特阶 |
侯墨阶 |
申伍德阶 |
特列奇阶 |
埃隆阶 |
鲁丹阶 |
赫南特阶 |
凯迪阶 |
桑比阶 |
达瑞威尔阶 |
大坪阶 |
弗洛阶 |
特马豆克阶 |
第十阶 |
第九阶 |
排碧阶 |
古丈阶 |
鼓山阶 |
第五阶 |
第四阶 |
第三阶 |
第二阶 |
幸运阶 |
||||||||||||||||||
0 | 0.0117 | 0.126 | 0.781 | 1.806 | 2.588 | 3.6 | 5.332 | 7.246 | 11.608 | 13.82 | 15.97 | 20.43 | 23.03 | 28.4 ±0.1 | 33.9 ±0.1 | 37.2 ±0.1 | 40.4 ±0.2 | 48.6 ±0.2 | 55.8 ±0.2 | 58.7 ±0.2 | 61.1 | 65.5 ±0.3 | 70.6 ±0.6 | 83.5 ±0.7 | 85.8 ±0.7 | 88.6 | 93.6 ±0.8 | 99.6 ±0.9 | 112.0 ±1.0 | 125.0 ±1.0 | 130.0 ±1.5 | 133.9 | 140.2 ±3.0 | 145.5 ±4.0 | 150.8 ±4.0 | 155.6 | 161.2 ±4.0 | 164.7 ±4.0 | 167.7 ±3.5 | 171.6 ±3.0 | 175.6 ±2.0 | 183.0 ±1.5 | 189.6 ±1.5 | 196.5 ±1.0 | 199.6 ±0.6 | 203.6 ±1.5 | 216.5 ±2.0 | 228.7 | 237.0 ±2.0 | 245.9 | 249.5 | 251.0 ±0.4 | 253.8 ±0.7 | 260.4 ±0.7 | 265.8 ±0.7 | 268.0 ±0.7 | 270.6 ±0.7 | 275.6 ±0.7 | 284.4 ±0.7 | 294.6 ±0.8 | 299.0 ±0.8 | 303.4 ±0.9 | 307.2 ±1.0 | 311.7 ±1.1 | 318.1 ±1.3 | 328.3 ±1.6 | 345.3 ±2.1 | 359.2 ±2.5 | 374.5 ±2.6 | 385.3 ±2.6 | 391.8 ±2.7 | 397.5 ±2.7 | 407.0 ±2.8 | 411.2 ±2.8 | 416.0 ±2.8 | 418.7 ±2.7 | 421.3 ±2.6 | 422.9 ±2.5 | 426.2 ±2.4 | 428.2 ±2.3 | 436.0 ±1.9 | 439.0 ±1.8 | 443.7 ±1.5 | 445.6 ±1.5 | 455.8 ±1.6 | 460.9 ±1.6 | 468.1 ±1.6 | 471.8 ±1.6 | 478.6 ±1.7 | 488.3 ±1.7 | 492 | 496 | 499 | 503 | 506.5 | 510 | 515 | 521 | 528 | 542.0 ±1.0 | 635 | 850 | 1000 | 1200 | 1400 | 1600 | 1800 | 2050 | 2300 | 2500 | 2800 | 3200 | 3600 | 4000 | 4600 |
Glyptostrobus pensilis | |||
Family Name: | Taxodiaceae | Genera name: | Glyptostrobus |
Species name: | pensilis | Genera status: | |
NLR: | Comments: | ||
Sample Name: | Ueno | Formation: | Yadagawa |
Age: | Epoch (to): | Miocene~ | |
Stage: | ~ | Contributer: | |
Ecology: | Climate: | ||
locality name: | Ueno | Province/State: | Aichi |
Continents: | Asia | county: | |
country: | Japan | longitude-decimal degrees: | 136 |
latitude-decimal degrees: | 35 | elevation [m]: | |
Notes: | Loc. 84 in Miki 1948 |
Phanerozoic |
Proterozoic |
Archean |
Hadean (informal) |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Cenozoic |
Mesozoic |
Paleozoic |
Neoproterozoic |
Mesoproterozoic |
Paleoproterozoic |
Neoarchean |
Mesoarchean |
Paleoarchean |
Eoarchean |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Quaternary |
Neogene |
Paleogene |
Cretaceous |
Jurassic |
Triassic |
Permian |
Carboniferous |
Devonian |
Silurian |
Ordovician |
Cambrian |
Ediacaran |
Cryogenian |
Tonian |
Stenian |
Ectasian |
Calymmian |
Statherian |
Orosirian |
Rhyacian |
Siderian |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Holocene |
Pleistocene |
Pliocene |
Miocene |
Oligocene |
Eocene |
Paleocene |
Upper |
Lower |
Upper |
Middle |
Lower |
Upper |
Middle |
Lower |
Lopingian |
Guadalupian |
Cisuralian |
Pennsylvanian-Upper |
Pennsylvanian-Middle |
Pennsylvanian-Lower |
Mississippian-Upper |
Mississippian-Middle |
Mississippian-Lower |
Upper |
Middle |
Lower |
Pridoli |
Ludlow |
Wenlock |
Llandovery |
Upper |
Middle |
Lower |
Furongian |
Series 3 |
Series 2 |
Terreneuvian |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Upper |
"lonia" |
Calabrian |
Gelasian |
Piacenzian |
Zanclean |
Messinian |
Tortonian |
Serravallian |
Langhian |
Burdigalian |
Chattian |
Aquitanian |
Rupelian |
Priabonian |
Bartonian |
Lutetian |
Ypresian |
Thanetian |
Selandian |
Danian |
Maastrichtian |
Campanian |
Santonian |
Coniacian |
Turonian |
Cenomanian |
Albian |
Aptian |
Barremian |
Hauterivian |
Valanginian |
Berriasian |
Tithonian |
Kimmeridgian |
Oxfordian |
Callovian |
Bathonian |
Bajocian |
Aalenian |
Toarcian |
Pliensbachian |
Sinemurian |
Hettangian |
Rhaetian |
Norian |
Carnian |
Ladinian |
Anisian |
Olenekian |
Induan |
Changhsingian |
Wuchiapingian |
Capitanian |
Wordian |
Roadian |
Kungurian |
Artinskian |
Sakmarian |
Asselian |
Gzhelian |
Kasimovian |
Moscovian |
Bashkirian |
Serpukhovian |
Visean |
Tournaisian |
Famennian |
Frasnian |
Givetian |
Eifelian |
Emsian |
Pragian |
Lochkovian |
Ludfordian |
Gorstian |
Homerian |
Sheinwoodian |
Telychian |
Aeronian |
Rhuddanian |
Hirnantian |
Katian |
Sandbian |
Darriwilian |
Dapingian |
Floian |
Tremadocian |
Stage 10 |
Stage 9 |
Paibian |
Guzhangian |
Drumian |
Stage 5 |
Stage 4 |
Stage 3 |
Stage 2 |
Fortunian |
||||||||||||||||||
0 | 0.0117 | 0.126 | 0.781 | 1.806 | 2.588 | 3.6 | 5.332 | 7.246 | 11.608 | 13.82 | 15.97 | 20.43 | 23.03 | 28.4 ±0.1 | 33.9 ±0.1 | 37.2 ±0.1 | 40.4 ±0.2 | 48.6 ±0.2 | 55.8 ±0.2 | 58.7 ±0.2 | 61.1 | 65.5 ±0.3 | 70.6 ±0.6 | 83.5 ±0.7 | 85.8 ±0.7 | 88.6 | 93.6 ±0.8 | 99.6 ±0.9 | 112.0 ±1.0 | 125.0 ±1.0 | 130.0 ±1.5 | 133.9 | 140.2 ±3.0 | 145.5 ±4.0 | 150.8 ±4.0 | 155.6 | 161.2 ±4.0 | 164.7 ±4.0 | 167.7 ±3.5 | 171.6 ±3.0 | 175.6 ±2.0 | 183.0 ±1.5 | 189.6 ±1.5 | 196.5 ±1.0 | 199.6 ±0.6 | 203.6 ±1.5 | 216.5 ±2.0 | 228.7 | 237.0 ±2.0 | 245.9 | 249.5 | 251.0 ±0.4 | 253.8 ±0.7 | 260.4 ±0.7 | 265.8 ±0.7 | 268.0 ±0.7 | 270.6 ±0.7 | 275.6 ±0.7 | 284.4 ±0.7 | 294.6 ±0.8 | 299.0 ±0.8 | 303.4 ±0.9 | 307.2 ±1.0 | 311.7 ±1.1 | 318.1 ±1.3 | 328.3 ±1.6 | 345.3 ±2.1 | 359.2 ±2.5 | 374.5 ±2.6 | 385.3 ±2.6 | 391.8 ±2.7 | 397.5 ±2.7 | 407.0 ±2.8 | 411.2 ±2.8 | 416.0 ±2.8 | 418.7 ±2.7 | 421.3 ±2.6 | 422.9 ±2.5 | 426.2 ±2.4 | 428.2 ±2.3 | 436.0 ±1.9 | 439.0 ±1.8 | 443.7 ±1.5 | 445.6 ±1.5 | 455.8 ±1.6 | 460.9 ±1.6 | 468.1 ±1.6 | 471.8 ±1.6 | 478.6 ±1.7 | 488.3 ±1.7 | 492 | 496 | 499 | 503 | 506.5 | 510 | 515 | 521 | 528 | 542.0 ±1.0 | 635 | 850 | 1000 | 1200 | 1400 | 1600 | 1800 | 2050 | 2300 | 2500 | 2800 | 3200 | 3600 | 4000 | 4600 |
显生宇 |
元古宇 |
太古宇 |
冥古宇 (非正式) |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
新生界 |
中生界 |
古生界 |
新元古界 |
中元古界 |
古元古界 |
新太古界 |
中太古界 |
古太古界 |
始太古界 |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
第四系 |
新近系 |
古近系 |
白垩系 |
侏罗系 |
三叠系 |
三叠系 |
石炭系 |
泥盆系 |
志留系 |
奥陶系 |
寒武系 |
埃迪卡拉系 |
成冰系 |
拉伸系 |
狭带系 |
延展系 |
盖层系 |
固结系 |
造山系 |
层侵系 |
成铁系 |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
全新统 |
更新统 |
上新统 |
中新统 |
渐新统 |
始新统 |
古新统 |
上白垩统 |
下白垩统 |
上侏罗统 |
中侏罗统 |
下侏罗统 |
上三叠统 |
中三叠统 |
下三叠统 |
乐平统 |
瓜德鲁普统 |
乌拉尔统 |
宾夕法尼亚亚系-上 |
宾夕法尼亚亚系-中 |
宾夕法尼亚亚系-下 |
密西西比亚系-上 |
密西西比亚系-中 |
密西西比亚系-下 |
上泥盆统 |
中泥盆统 |
下泥盆统 |
普里道利统 |
罗德洛统 |
文洛克统 |
兰多维列统 |
上奥陶统 |
中奥陶统 |
下奥陶统 |
芙蓉统 |
第三统 |
第二统 |
纽芬兰统 |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
上更新统 |
“伊奥尼雅阶” |
卡拉布里雅阶 |
格拉斯阶 |
皮亚琴察阶 |
赞克尔阶 |
梅辛阶 |
托尔通阶 |
塞拉瓦尔阶 |
兰哥阶 |
布尔迪加尔阶 |
阿启坦阶 |
夏特阶 |
鲁培尔阶 |
普利亚本阶 |
巴尔通阶 |
鲁帝特阶 |
伊普里斯阶 |
坦尼特阶 |
赛兰特阶 |
丹尼阶 |
马斯特里赫特阶 |
坎潘阶 |
三冬阶 |
康尼亚克阶 |
土伦阶 |
赛诺曼阶 |
阿尔布阶 |
阿普特阶 |
巴雷姆阶 |
欧特里夫阶 |
凡兰吟阶 |
贝利阿斯阶 |
提塘阶 |
基末利阶 |
牛津阶 |
卡洛夫阶 |
巴通阶 |
巴柔阶 |
阿林阶 |
土阿辛阶 |
普林斯巴阶 |
辛涅缪尔阶 |
赫塘阶 |
瑞替阶 |
诺利阶 |
卡尼阶 |
拉丁阶 |
安尼阶 |
奥伦尼克阶 |
印度阶 |
长兴阶 |
吴家坪阶 |
卡匹敦阶 |
沃德阶 |
罗德阶 |
空谷阶 |
亚丁斯克阶 |
萨克马尔阶 |
阿瑟尔阶 |
格舍尔阶 |
卡西莫夫阶 |
莫斯科阶 |
巴什基尔阶 |
谢尔普霍夫阶 |
维宪阶 |
杜内阶 |
法门阶 |
弗拉阶 |
吉维特阶 |
艾菲尔阶 |
埃姆斯阶 |
布拉格阶 |
洛霍考夫阶 |
卢德福特阶 |
高斯特阶 |
侯墨阶 |
申伍德阶 |
特列奇阶 |
埃隆阶 |
鲁丹阶 |
赫南特阶 |
凯迪阶 |
桑比阶 |
达瑞威尔阶 |
大坪阶 |
弗洛阶 |
特马豆克阶 |
第十阶 |
第九阶 |
排碧阶 |
古丈阶 |
鼓山阶 |
第五阶 |
第四阶 |
第三阶 |
第二阶 |
幸运阶 |
||||||||||||||||||
0 | 0.0117 | 0.126 | 0.781 | 1.806 | 2.588 | 3.6 | 5.332 | 7.246 | 11.608 | 13.82 | 15.97 | 20.43 | 23.03 | 28.4 ±0.1 | 33.9 ±0.1 | 37.2 ±0.1 | 40.4 ±0.2 | 48.6 ±0.2 | 55.8 ±0.2 | 58.7 ±0.2 | 61.1 | 65.5 ±0.3 | 70.6 ±0.6 | 83.5 ±0.7 | 85.8 ±0.7 | 88.6 | 93.6 ±0.8 | 99.6 ±0.9 | 112.0 ±1.0 | 125.0 ±1.0 | 130.0 ±1.5 | 133.9 | 140.2 ±3.0 | 145.5 ±4.0 | 150.8 ±4.0 | 155.6 | 161.2 ±4.0 | 164.7 ±4.0 | 167.7 ±3.5 | 171.6 ±3.0 | 175.6 ±2.0 | 183.0 ±1.5 | 189.6 ±1.5 | 196.5 ±1.0 | 199.6 ±0.6 | 203.6 ±1.5 | 216.5 ±2.0 | 228.7 | 237.0 ±2.0 | 245.9 | 249.5 | 251.0 ±0.4 | 253.8 ±0.7 | 260.4 ±0.7 | 265.8 ±0.7 | 268.0 ±0.7 | 270.6 ±0.7 | 275.6 ±0.7 | 284.4 ±0.7 | 294.6 ±0.8 | 299.0 ±0.8 | 303.4 ±0.9 | 307.2 ±1.0 | 311.7 ±1.1 | 318.1 ±1.3 | 328.3 ±1.6 | 345.3 ±2.1 | 359.2 ±2.5 | 374.5 ±2.6 | 385.3 ±2.6 | 391.8 ±2.7 | 397.5 ±2.7 | 407.0 ±2.8 | 411.2 ±2.8 | 416.0 ±2.8 | 418.7 ±2.7 | 421.3 ±2.6 | 422.9 ±2.5 | 426.2 ±2.4 | 428.2 ±2.3 | 436.0 ±1.9 | 439.0 ±1.8 | 443.7 ±1.5 | 445.6 ±1.5 | 455.8 ±1.6 | 460.9 ±1.6 | 468.1 ±1.6 | 471.8 ±1.6 | 478.6 ±1.7 | 488.3 ±1.7 | 492 | 496 | 499 | 503 | 506.5 | 510 | 515 | 521 | 528 | 542.0 ±1.0 | 635 | 850 | 1000 | 1200 | 1400 | 1600 | 1800 | 2050 | 2300 | 2500 | 2800 | 3200 | 3600 | 4000 | 4600 |
Glyptostrobus pensilis | |||
Family Name: | Taxodiaceae | Genera name: | Glyptostrobus |
Species name: | pensilis | Genera status: | |
NLR: | Comments: | ||
Sample Name: | Osaka Group Plio. | Formation: | |
Age: | Epoch (to): | Pliocene~ | |
Stage: | ~ | Contributer: | |
Ecology: | Climate: | ||
|
locality name: | Harima | Province/State: | Kyoto |
Continents: | Asia | county: | Osaka |
country: | Japan | longitude-decimal degrees: | 135.5 |
latitude-decimal degrees: | 34.73 | elevation [m]: | 20 |
Notes: |
Osaka-Momohara, 1992 | |||
title: | Late Pliocene Plant Biostratigraphy of the Lowermost Part of the Osaka Group, Southwest Japan, with Reference to Extinction of Plants | ||
Year: | 1992 | Type: | journal |
Volume: | 31 | Issue: | 2 |
Pages: | 77-89 | Publisher: | |
Location of publisher: | General: | ||
Authors: | Arata Momohara |
Phanerozoic |
Proterozoic |
Archean |
Hadean (informal) |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Cenozoic |
Mesozoic |
Paleozoic |
Neoproterozoic |
Mesoproterozoic |
Paleoproterozoic |
Neoarchean |
Mesoarchean |
Paleoarchean |
Eoarchean |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Quaternary |
Neogene |
Paleogene |
Cretaceous |
Jurassic |
Triassic |
Permian |
Carboniferous |
Devonian |
Silurian |
Ordovician |
Cambrian |
Ediacaran |
Cryogenian |
Tonian |
Stenian |
Ectasian |
Calymmian |
Statherian |
Orosirian |
Rhyacian |
Siderian |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Holocene |
Pleistocene |
Pliocene |
Miocene |
Oligocene |
Eocene |
Paleocene |
Upper |
Lower |
Upper |
Middle |
Lower |
Upper |
Middle |
Lower |
Lopingian |
Guadalupian |
Cisuralian |
Pennsylvanian-Upper |
Pennsylvanian-Middle |
Pennsylvanian-Lower |
Mississippian-Upper |
Mississippian-Middle |
Mississippian-Lower |
Upper |
Middle |
Lower |
Pridoli |
Ludlow |
Wenlock |
Llandovery |
Upper |
Middle |
Lower |
Furongian |
Series 3 |
Series 2 |
Terreneuvian |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Upper |
"lonia" |
Calabrian |
Gelasian |
Piacenzian |
Zanclean |
Messinian |
Tortonian |
Serravallian |
Langhian |
Burdigalian |
Chattian |
Aquitanian |
Rupelian |
Priabonian |
Bartonian |
Lutetian |
Ypresian |
Thanetian |
Selandian |
Danian |
Maastrichtian |
Campanian |
Santonian |
Coniacian |
Turonian |
Cenomanian |
Albian |
Aptian |
Barremian |
Hauterivian |
Valanginian |
Berriasian |
Tithonian |
Kimmeridgian |
Oxfordian |
Callovian |
Bathonian |
Bajocian |
Aalenian |
Toarcian |
Pliensbachian |
Sinemurian |
Hettangian |
Rhaetian |
Norian |
Carnian |
Ladinian |
Anisian |
Olenekian |
Induan |
Changhsingian |
Wuchiapingian |
Capitanian |
Wordian |
Roadian |
Kungurian |
Artinskian |
Sakmarian |
Asselian |
Gzhelian |
Kasimovian |
Moscovian |
Bashkirian |
Serpukhovian |
Visean |
Tournaisian |
Famennian |
Frasnian |
Givetian |
Eifelian |
Emsian |
Pragian |
Lochkovian |
Ludfordian |
Gorstian |
Homerian |
Sheinwoodian |
Telychian |
Aeronian |
Rhuddanian |
Hirnantian |
Katian |
Sandbian |
Darriwilian |
Dapingian |
Floian |
Tremadocian |
Stage 10 |
Stage 9 |
Paibian |
Guzhangian |
Drumian |
Stage 5 |
Stage 4 |
Stage 3 |
Stage 2 |
Fortunian |
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0 | 0.0117 | 0.126 | 0.781 | 1.806 | 2.588 | 3.6 | 5.332 | 7.246 | 11.608 | 13.82 | 15.97 | 20.43 | 23.03 | 28.4 ±0.1 | 33.9 ±0.1 | 37.2 ±0.1 | 40.4 ±0.2 | 48.6 ±0.2 | 55.8 ±0.2 | 58.7 ±0.2 | 61.1 | 65.5 ±0.3 | 70.6 ±0.6 | 83.5 ±0.7 | 85.8 ±0.7 | 88.6 | 93.6 ±0.8 | 99.6 ±0.9 | 112.0 ±1.0 | 125.0 ±1.0 | 130.0 ±1.5 | 133.9 | 140.2 ±3.0 | 145.5 ±4.0 | 150.8 ±4.0 | 155.6 | 161.2 ±4.0 | 164.7 ±4.0 | 167.7 ±3.5 | 171.6 ±3.0 | 175.6 ±2.0 | 183.0 ±1.5 | 189.6 ±1.5 | 196.5 ±1.0 | 199.6 ±0.6 | 203.6 ±1.5 | 216.5 ±2.0 | 228.7 | 237.0 ±2.0 | 245.9 | 249.5 | 251.0 ±0.4 | 253.8 ±0.7 | 260.4 ±0.7 | 265.8 ±0.7 | 268.0 ±0.7 | 270.6 ±0.7 | 275.6 ±0.7 | 284.4 ±0.7 | 294.6 ±0.8 | 299.0 ±0.8 | 303.4 ±0.9 | 307.2 ±1.0 | 311.7 ±1.1 | 318.1 ±1.3 | 328.3 ±1.6 | 345.3 ±2.1 | 359.2 ±2.5 | 374.5 ±2.6 | 385.3 ±2.6 | 391.8 ±2.7 | 397.5 ±2.7 | 407.0 ±2.8 | 411.2 ±2.8 | 416.0 ±2.8 | 418.7 ±2.7 | 421.3 ±2.6 | 422.9 ±2.5 | 426.2 ±2.4 | 428.2 ±2.3 | 436.0 ±1.9 | 439.0 ±1.8 | 443.7 ±1.5 | 445.6 ±1.5 | 455.8 ±1.6 | 460.9 ±1.6 | 468.1 ±1.6 | 471.8 ±1.6 | 478.6 ±1.7 | 488.3 ±1.7 | 492 | 496 | 499 | 503 | 506.5 | 510 | 515 | 521 | 528 | 542.0 ±1.0 | 635 | 850 | 1000 | 1200 | 1400 | 1600 | 1800 | 2050 | 2300 | 2500 | 2800 | 3200 | 3600 | 4000 | 4600 |
显生宇 |
元古宇 |
太古宇 |
冥古宇 (非正式) |
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新生界 |
中生界 |
古生界 |
新元古界 |
中元古界 |
古元古界 |
新太古界 |
中太古界 |
古太古界 |
始太古界 |
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第四系 |
新近系 |
古近系 |
白垩系 |
侏罗系 |
三叠系 |
三叠系 |
石炭系 |
泥盆系 |
志留系 |
奥陶系 |
寒武系 |
埃迪卡拉系 |
成冰系 |
拉伸系 |
狭带系 |
延展系 |
盖层系 |
固结系 |
造山系 |
层侵系 |
成铁系 |
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全新统 |
更新统 |
上新统 |
中新统 |
渐新统 |
始新统 |
古新统 |
上白垩统 |
下白垩统 |
上侏罗统 |
中侏罗统 |
下侏罗统 |
上三叠统 |
中三叠统 |
下三叠统 |
乐平统 |
瓜德鲁普统 |
乌拉尔统 |
宾夕法尼亚亚系-上 |
宾夕法尼亚亚系-中 |
宾夕法尼亚亚系-下 |
密西西比亚系-上 |
密西西比亚系-中 |
密西西比亚系-下 |
上泥盆统 |
中泥盆统 |
下泥盆统 |
普里道利统 |
罗德洛统 |
文洛克统 |
兰多维列统 |
上奥陶统 |
中奥陶统 |
下奥陶统 |
芙蓉统 |
第三统 |
第二统 |
纽芬兰统 |
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上更新统 |
“伊奥尼雅阶” |
卡拉布里雅阶 |
格拉斯阶 |
皮亚琴察阶 |
赞克尔阶 |
梅辛阶 |
托尔通阶 |
塞拉瓦尔阶 |
兰哥阶 |
布尔迪加尔阶 |
阿启坦阶 |
夏特阶 |
鲁培尔阶 |
普利亚本阶 |
巴尔通阶 |
鲁帝特阶 |
伊普里斯阶 |
坦尼特阶 |
赛兰特阶 |
丹尼阶 |
马斯特里赫特阶 |
坎潘阶 |
三冬阶 |
康尼亚克阶 |
土伦阶 |
赛诺曼阶 |
阿尔布阶 |
阿普特阶 |
巴雷姆阶 |
欧特里夫阶 |
凡兰吟阶 |
贝利阿斯阶 |
提塘阶 |
基末利阶 |
牛津阶 |
卡洛夫阶 |
巴通阶 |
巴柔阶 |
阿林阶 |
土阿辛阶 |
普林斯巴阶 |
辛涅缪尔阶 |
赫塘阶 |
瑞替阶 |
诺利阶 |
卡尼阶 |
拉丁阶 |
安尼阶 |
奥伦尼克阶 |
印度阶 |
长兴阶 |
吴家坪阶 |
卡匹敦阶 |
沃德阶 |
罗德阶 |
空谷阶 |
亚丁斯克阶 |
萨克马尔阶 |
阿瑟尔阶 |
格舍尔阶 |
卡西莫夫阶 |
莫斯科阶 |
巴什基尔阶 |
谢尔普霍夫阶 |
维宪阶 |
杜内阶 |
法门阶 |
弗拉阶 |
吉维特阶 |
艾菲尔阶 |
埃姆斯阶 |
布拉格阶 |
洛霍考夫阶 |
卢德福特阶 |
高斯特阶 |
侯墨阶 |
申伍德阶 |
特列奇阶 |
埃隆阶 |
鲁丹阶 |
赫南特阶 |
凯迪阶 |
桑比阶 |
达瑞威尔阶 |
大坪阶 |
弗洛阶 |
特马豆克阶 |
第十阶 |
第九阶 |
排碧阶 |
古丈阶 |
鼓山阶 |
第五阶 |
第四阶 |
第三阶 |
第二阶 |
幸运阶 |
||||||||||||||||||
0 | 0.0117 | 0.126 | 0.781 | 1.806 | 2.588 | 3.6 | 5.332 | 7.246 | 11.608 | 13.82 | 15.97 | 20.43 | 23.03 | 28.4 ±0.1 | 33.9 ±0.1 | 37.2 ±0.1 | 40.4 ±0.2 | 48.6 ±0.2 | 55.8 ±0.2 | 58.7 ±0.2 | 61.1 | 65.5 ±0.3 | 70.6 ±0.6 | 83.5 ±0.7 | 85.8 ±0.7 | 88.6 | 93.6 ±0.8 | 99.6 ±0.9 | 112.0 ±1.0 | 125.0 ±1.0 | 130.0 ±1.5 | 133.9 | 140.2 ±3.0 | 145.5 ±4.0 | 150.8 ±4.0 | 155.6 | 161.2 ±4.0 | 164.7 ±4.0 | 167.7 ±3.5 | 171.6 ±3.0 | 175.6 ±2.0 | 183.0 ±1.5 | 189.6 ±1.5 | 196.5 ±1.0 | 199.6 ±0.6 | 203.6 ±1.5 | 216.5 ±2.0 | 228.7 | 237.0 ±2.0 | 245.9 | 249.5 | 251.0 ±0.4 | 253.8 ±0.7 | 260.4 ±0.7 | 265.8 ±0.7 | 268.0 ±0.7 | 270.6 ±0.7 | 275.6 ±0.7 | 284.4 ±0.7 | 294.6 ±0.8 | 299.0 ±0.8 | 303.4 ±0.9 | 307.2 ±1.0 | 311.7 ±1.1 | 318.1 ±1.3 | 328.3 ±1.6 | 345.3 ±2.1 | 359.2 ±2.5 | 374.5 ±2.6 | 385.3 ±2.6 | 391.8 ±2.7 | 397.5 ±2.7 | 407.0 ±2.8 | 411.2 ±2.8 | 416.0 ±2.8 | 418.7 ±2.7 | 421.3 ±2.6 | 422.9 ±2.5 | 426.2 ±2.4 | 428.2 ±2.3 | 436.0 ±1.9 | 439.0 ±1.8 | 443.7 ±1.5 | 445.6 ±1.5 | 455.8 ±1.6 | 460.9 ±1.6 | 468.1 ±1.6 | 471.8 ±1.6 | 478.6 ±1.7 | 488.3 ±1.7 | 492 | 496 | 499 | 503 | 506.5 | 510 | 515 | 521 | 528 | 542.0 ±1.0 | 635 | 850 | 1000 | 1200 | 1400 | 1600 | 1800 | 2050 | 2300 | 2500 | 2800 | 3200 | 3600 | 4000 | 4600 |