ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

Unknown

(Table 3) Miocene palaeoclimate estimates based on floras of 48 samples from Southern China (2011)

Yao, Yi-Feng ; Bruch, Angela A ; Mosbrugger, Volker ; [et al.]

PANGAEA

add to mindlist on the mindlist

Details

Publication Date: 2023-03-08

Keywords: Age, maximum/old; Age, minimum/young; Beibuwan_Depression; China; Coexistence Approach (Mosbrugger, V & Utescher, T, 1997); DRILL; Drilling/drill rig; Epoch; Event label; Fushan_Depression; Leizhou_Peninsula; Lühe; Lunpola_Basin; Markam; Miaoli; Namling; NECLIME; NECLIME_campaign; Neogene Climate Evolution in Eurasia; Ninghai; Number of taxa; Paleontological sampling; PALSAMP; Precipitation, annual mean, maximum; Precipitation, annual mean, minimum; Precipitation, warmest month, maximum; Precipitation, warmest month, minimum; Precipitation of the driest month maximum; Precipitation of the driest month minimum; Precipitation of the wettest month maximum; Precipitation of the wettest month minimum; Sample code/label; Shihti; South China Sea; Taiwan; Taxa analyzed; Temperature, annual mean, maximum; Temperature, annual mean, minimum; Temperature, coldest month, maximum; Temperature, coldest month, minimum; Temperature, warmest month, maximum; Temperature, warmest month, minimum; Tibet; Toupo_Basin; Weizhou_Island; Xianju; Xiaolongtan; Yinggehai_Depression; Zhujiangkou_Basin

Type: Dataset

Format: text/tab-separated-values, 806 data points

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

DATA PANGAEA

S·F·X

Fulltext

2

Unknown

Early - Late Miocene palaeoclimate data and palaefloras of 48 samples from Southern China (2011)

Yao, Yi-Feng ; Bruch, Angela A ; Mosbrugger, Volker ; [et al.]

PANGAEA

In: Supplement to: Yao, Yi-Feng; Bruch, Angela A; Mosbrugger, Volker; Li, Cheng-Sen (2011): Quantitative reconstruction of Miocene climate patterns and evolution in Southern China based on plant fossils. Palaeogeography, Palaeoclimatology, Palaeoecology, 304(3-4), 291-307, https://doi.org/10.1016/j.palaeo.2010.04.012

add to mindlist on the mindlist

Details

Publication Date: 2023-01-13

Description: Southern China, especially Yunnan, has undergone high tectonic activity caused by the uplift of Himalayan Mountains during the Neogene, which led to a fast changing palaeogeography. Previous study shows that Southern China has been influenced by the Asian Monsoon since at least the Early Miocene. However, it is yet not well understood how intense the Miocene monsoon system was. In the present study, 63 fossil floras of 16 localities from Southern China are compiled and evaluated for obtaining available information concerning floristic composition, stratigraphic age, sedimentology, etc. Based on such reliable information, selected mega- and micro-floras have been analysed with the coexistence approach to obtain quantitative palaeoclimate data. Visualization of climate results in maps shows a distinct spatial differentiation in Southern China during the Miocene. Higher seasonalities of temperature and precipitation occur in the north and south parts of Southern China, respectively. During the Miocene, most regions of Southern China and Europe were both warm and humid. Central Eurasia was likely to be an arid center, which gradually spread westward and eastward. Our data provide information about Miocene climate patterns in Southern China and about the evolution of these patterns throughout the Miocene, and is also crucial to unravel and understand the climatic signals of global cooling and tectonic uplift.

Keywords: Beibuwan_Depression; China; DRILL; Drilling/drill rig; Fushan_Depression; Leizhou_Peninsula; Lühe; Lunpola_Basin; Markam; Miaoli; Namling; NECLIME; NECLIME_campaign; Neogene Climate Evolution in Eurasia; Ninghai; Paleontological sampling; PALSAMP; Shihti; South China Sea; Taiwan; Tibet; Toupo_Basin; Weizhou_Island; Xianju; Xiaolongtan; Yinggehai_Depression; Zhujiangkou_Basin

Type: Dataset

Format: application/zip, 2 datasets

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

DATA PANGAEA

S·F·X

Fulltext

3

Unknown

Miocene palaeoclimate of the Mangdan coal mine (China) (2004)

Zhao, Liang-Cheng ; Wang, Yu-Fei ; Liu, Cho-Teng ; [et al.]

PANGAEA

add to mindlist on the mindlist

Details

Publication Date: 2023-01-14

Keywords: Age, maximum/old; Age, minimum/young; Coexistence Approach (Mosbrugger, V & Utescher, T, 1997); Epoch; Formation; Humidity, relative, maximum; Humidity, relative, minimum; Mangdan; Mangdan_Coal_Mine; NECLIME; NECLIME_campaign; Neogene Climate Evolution in Eurasia; ORDINAL NUMBER; Precipitation, annual mean, maximum; Precipitation, annual mean, minimum; QU; Quarry; Taxa analyzed; Temperature, annual mean, maximum; Temperature, annual mean, minimum; Temperature, annual mean range, maximum; Temperature, annual mean range, minimum; Temperature, coldest month, maximum; Temperature, coldest month, minimum; Temperature, warmest month, maximum; Temperature, warmest month, minimum; Yunnan, China

Type: Dataset

Format: text/tab-separated-values, 17 data points

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

DATA PANGAEA

S·F·X

Fulltext

4

Unknown

Miocene macroflora of the Mangdan coal mine (China) (2004)

Zhao, Liang-Cheng ; Wang, Yu-Fei ; Liu, Cho-Teng ; [et al.]

PANGAEA

add to mindlist on the mindlist

Details

Publication Date: 2023-02-12

Keywords: Age, maximum/old; Age, minimum/young; Corylopsis uralensis; Environment; Epoch; Ficus sp.; Formation; Fossil determination; Hypericum sp.; Lauraceae; Lithocarpus sp.; Lithology/composition/facies; Magnolia sp.; Mangdan; Mangdan_Coal_Mine; Myrica kirchheimeri; NECLIME; NECLIME_campaign; Neogene Climate Evolution in Eurasia; Nyssa sp.; ORDINAL NUMBER; QU; Quarry; Sabia europaea; Symplocos germanica; Yunnan, China; Zanthoxylum tertiaria

Type: Dataset

Format: text/tab-separated-values, 17 data points

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

DATA PANGAEA

S·F·X

Fulltext

5

Unknown

Table 2. Percentage of palynomorphs found in each sample through Longling section (2004)

Xu, Jing-Xian ; Ferguson, David-Kay ; Li, Cheng-Sen ; [et al.]

PANGAEA

In: Supplement to: Xu, Jing-Xian; Ferguson, David-Kay; Li, Cheng-Sen; Wang, Yu-Fei; Du, Nai-Qiu (2004): Climatic and ecological implications of Late Pliocene Palynoflora from Longling, Yunnan, China. Quaternary International, 117(1), 91-103, https://doi.org/10.1016/S1040-6182(03)00119-8

add to mindlist on the mindlist

Details

Publication Date: 2023-11-01

Description: The Longling Coal Mine (W. Yunnan) is situated in an area of substantial geotectonic activity. Its Late Pliocene palynoflora is of considerable interest, since the area represents a centre of biodiversity. Eighty-two palynomorphs belonging to 61 families were recovered from the lignite. The palynoflora is dominated by angiosperms (68.3%), with ferns (24.4%), gymnosperms (4.9%) and algae (2.4%). Comparisons indicate that most of the palynoflora was derived from the Montane Humid Evergreen Broad-leaved Forest, with lesser contributions from the Tsuga dumosa Forest and Evergreen Coniferous Broad-leaved Mixed Forest, as well as the Montane Mossy Evergreen Broad-leaved Forest. This indicates that the Late Pliocene climate was cooler than that of the present. In the course of the accumulation of the lignite, the climate underwent five major phases of warming and cooling.

Keywords: Abies; Acanthaceae; Allium; Alnus; Anacardiaceae; Araliaceae; Artemisia; Balsaminaceae; Betula; Boraginaceae; Carpinus; Carya; Caryophyllaceae; Castaneoideae; Chenopodiaceae; Commelinaceae; Compositae, pollen; Corylus; Counting, palynology; Cyatheaceae; Cyclobalanopsis; Daemonorops; Davalliaceae; Dennstaedtiaceae; Ericaceae; Euphorbiaceae; Fagopyrum; Gesneriaceae; Gleicheniaceae; Gramineae; Guttiferae; Hamamelidaceae; Hymenophyllaceae; Ilex; Iridaceae; Juglans; Labiatae; Leguminosae; Leycesteria; Liquidambar; Longling_Mangdan_Mine; Loxogrammaceae; Lycopodiaceae; Magnoliaceae; Mougeotia; Myrtaceae; NECLIME; Neogene Climate Evolution in Eurasia; Oleaceae; Papaveraceae; Picea; Pinus; Piperaceae; Plantaginaceae; Platea; Polygonum; Polypodiaceae; Proteaceae; Pteridaceae; Ranunculaceae; Rosaceae; Rubiaceae; Rutaceae; Sample code/label; Sapindaceae; Selaginellaceae; Sinopteridaceae; Sterculiaceae; Symplocos; Thymelaeaceae; Tilia; Tsuga; Typha; Ulmus; Umbelliferae; Verbenaceae; Yunnan, China; Zelkova; Zygnema

Type: Dataset

Format: text/tab-separated-values, 2442 data points

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

DATA PANGAEA

S·F·X

Fulltext

6

Unknown

Miocene micro and macro floras from 48 samples of Southern China (2011)

Yao, Yi-Feng ; Bruch, Angela A ; Mosbrugger, Volker ; [et al.]

PANGAEA

add to mindlist on the mindlist

Details

Publication Date: 2024-03-06

Keywords: Abiespollenites sp.; Abies sp.; Abietineaepollenites microalatus; Abietineaepollenites sp.; Acer juanii; Acer sp.; Acronychia sp.; Actinodaphne nipponica; Adiantum sp.; Agathis sp.; Age, maximum/old; Age, minimum/young; Alangium aequalifolium; Alangium sp.; Albizzia bracteata; Albizzia miokalkora; Alchonea rugosa; Aleurites sp.; Alisma sp.; Alnipollenites quadrapollenites; Alnipollenites sp.; Alnipollenites verus; Alnus protomaximowizii; Alnus schmahausenii; Alnus sp.; Amaranthaceae; Amphora sp.; Anacardiaceae; Angiopteris sp.; Annutriporites iversenii; Anodendron sp.; Apocynaceae; Araliaceae; Araucariacites sp.; Araucaria sp.; Ardisia sp.; Artemisia sp.; Asplenium sp.; Athyriaceae; Baeckea sp.; Bambusa sp.; Beibuwan_Depression; Berberis sp.; Berchemia miofloribungda; Betulaceae; Betulaceoipollenites sp.; Betula mankongensis; Betula sp.; Betula utilis; Betula vera; Boenninghausenia sp.; Bombacaceae; Bombacacidites sp.; Boraginaceae; Botrychiaceae; Bridelia sp.; Broussonetia sp.; Buxapollis sp.; Caesalpinia sp.; Campanulaceae; Caprifoliaceae; Caprifoliipites sp.; Carpinipites sp.; Carpinus fargesiana; Carpinus grandis; Carpinus sp.; Carya cathayensis; Caryapollenites simplex; Caryapollenites sp.; Carya sp.; Cassia oblonga; Cassia suffruticosa; Castanea miomollissima; Castanea sp.; Castaneoideae; Castanopsis miocuspidata; Casuarinidites cainozoicus; Cedripites sp.; Cedrus sp.; Celastraceae; Celastrus sp.; Celtis sp.; Ceratopteris sp.; Chenopodiaceae; Chenopodipollis microporatus; Chenopodipollis multiplex; Chenopodipollis multiporatus; Chenopodipollis sp.; Chenopodium sp.; China; Cibotium sp.; Cibotiumspora sp.; Cinnamomum sp.; Cinnamonum oguniense; Cleyera sp.; Cocconeis sp.; Compositae; Concentricystes sp.; Coniogramme devolii; Coniogramme sp.; Convolvulus sp.; Cooksonella sp.; Cornaceae; Cornus sp.; Corylopsis princeps; Corylopsis sp.; Corylus macquarii; Corylus sp.; Cosinodiscus sp.; Crassoretitriletes nanhaiensis; Crassoretitriletes sp.; Crassoretitriletes vanraadshoovenii; Cruciferae; Cupuliferoipollenites oviformis; Cupuliferoipollenites pusillus; Cupuliferoipollenites sp.; Cyathea sp.; Cyathidites minor; Cyclobalanopsis mandraliscae; Cyclobalanopsis praegilva; Cyclobalanopsis sp.; Cyclophorusisporites sp.; Cyperaceae; Cyperacites sp.; Cyrillaceaepollenites megaexactus; Dacrydiumites florinii; Dacrydiumites sp.; Dalbergia lucida; Daphne sp.; Davallia sp.; Deltoidospora sp.; Dennstaedtiaceae; Desmodium pulchellum; Desmos kaiyunanensis; Dicksonia sp.; Dicolpopollis kockelii; Diospyros sp.; Dipteris sp.; Distaltriangulisporites hubeiensis; Dodonaea japonica; DRILL; Drilling/drill rig; Echimonocolpites franciscoides; Echinatisporis sp.; Echinosporis sp.; Elaeagnus sp.; Engelhardtia sp.; Engelhardtioidites levis; Engelhardtioidites sp.; Ephedra sp.; Ephedripites sp.; Epoch; Equisetum sp.; Ericaceae; Ericaceoipollenites sp.; Ericipites sp.; Erythrophleum ovatifolium; Euphorbiaceae; Event label; Extrapunctatosporis megapunctos; Extrapunctatosporites sp.; Fagara sp.; Fagopyrum sp.; Faguspollenites sp.; Fagus sp.; Ficus sp.; Florschuetzia levipoli; Florschuetzia semilobata; Florschuetzia sp.; Florschuetzia trilobata; Fonestrites spinosus; Formation; Fossil determination; Fraxinus sp.; Fushan_Depression; Gentianaceae; Gentum sp.; Gesneriaceae; Gleditsia integra; Gleicheniidites sp.; Glyptostrobus sp.; Gothanipollis bassensis; Gramineae sp.; Graminidites media; Graminidites sp.; Graminites sp.; Guttiferae; Hamamelidaceae; Hamamelis sp.; Hemiptelea sp.; Heynea sp.; Hicriopteris sp.; Homalium sp.; Humulus sp.; Hydrocharis sp.; Hydrosporites levis; Hydrosporites sp.; Hymenophyllaceae; Hymenophyllum sp.; Hystrichosphaerideae; Ilexpollenites longipolliniata; Ilexpollenites margaritatus; Ilexpollenites membranous; Ilexpollenites sp.; Ilex sp.; Inaperturopollenites sp.; Indigofera praesuffruticosa; Jasminum paralanceolarium; Juglandaceae; Juglans japonica; Juglanspollenites sp.; Juglanspollenites verus; Juglans regia; Juglans sp.; Keteleeria sp.; Labiatae sp.; Laevigatosporites sp.; Laricoidites magnus; Laricoidites sp.; Larix sp.; Lauraceae; Laurus obovalis; Leguminosae sp.; Leiotriletes adriennis; Leiotriletes sp.; Leizhou_Peninsula; Lespedeza sp.; Liliaceae; Liliacidites sp.; Liliodendron sp.; Liquidambar brandonensis; Liquidambar mangelsdefianus; Liquidambarpollenites minutus; Liquidambarpollenites sp.; Liquidambarpollenites stigmosus; Liquidambar sp.; Lithocarpus sp.; Lithoearpus sp.; Litsea grabaui; Lonicerapollis gallwitzii; Lonicera sp.; Loxogrammaceae; Lühe; Lunpola_Basin; Lycopodiaceae; Lycopodium cernuum; Lycopodium sp.; Lycopodiumsporites sp.; Lygodioisporites sp.; Lygodium sp.; Lygodiumsporites sp.; Lythrum sp.; Macaranga sp.; Machilus americana; Machilus sp.; Machilus ugoana; Magnastriatites howardi; Magnolia miocenica; Magnolia sp.; Magnolipollis elongatus; Magnolipollis sp.; Mallotus sp.; Margcolporites sp.; Margocolporites vanwijhei; Markam; Meliaceae; Metasequoia sp.; Miaoli; Microfoveolatosporites sp.; Microlepia sp.; Momipites coryloides; Monocolpopollenites sp.; Monosulcites sp.; Moraceae; Myrica elliptica; Myrica longifolia; Myrica sp.; Myricipites sp.; Myriophyllum sp.; Myrtaceae; Myrtaceidites parvus; Myrtaceidites sp.; Namling; NECLIME; NECLIME_campaign; Neogene Climate Evolution in Eurasia; Neolitsea sp.; Ninghai; Nothaphoebe precavaleriei; Nothofagus sp.; Nuphar sp.; Nymphaeaceae; Nyssaceae; Nyssapollenites sp.; Oenothera sp.; Oleaceae; Onagraceae; Onychium sp.; Operculumpollis operculatus; Ophioglossum sp.; ORDINAL NUMBER; Ormosia xiaolongtanensis; Osmundacidites primarius; Osmundacidites sp.; Osmundacidites wellmanii; Osmunda sp.; Ostrya sp.; Ostryoipollenites rhenanus; Ostryoipollenites sp.; Ouercus sp.; Paleontological sampling; Palmae; PALSAMP; Parvisaccites sp.; Passiflora sp.; Peltandripites sp.; Perinomonoletes sp.; Perotriletes sp.; Perrottetia miocenica; Phelline sp.; Phoebe pseudolanceolata; Photinia sp.; Phragmites sp.; Phyllanthus sp.; Phyllostachys sp.; Piceaepollenites sp.; Picea sp.; Pinaceae; Pinuspollenites minutus; Pinuspollenites pristinipollinia; Pinuspollenites sp.; Pinuspollenites strobipites; Pinus sp.; Pithecellobium lucidum; Plagiogyria sp.; Plantaginaceae; Platanus sp.; Platycaryapollenites shandongensis; Platycarya sp.; Podocarpidites sp.; Podocarpus sp.; Podogonium oehningense; Podogonium sp.; Polygonaceae; Polygonum sp.; Polypodiaceae; Polypodiaceaesporites gracilis; Polypodiaceaesporites haardti; Polypodiaceaesporites megahaardti; Polypodiaceaesporites ovatus; Polypodiaceaesporites sp.; Polypodiaceaesporites wanglougangensis; Polypodiaceaesporties gracilis; Polypodiaceoisporites sp.; Polypodiisporites favus; Polypodiisporites perverrucatus; Polypodiisporites sp.; Polypodiisporites usmensis; Polypodium sp.; Polyporate pollen; Potamogetonaceae; Potamogeton sp.; Proteacidites mollis; Psilabrevitricolpites rotundus; Psilatricolporites operculatus; Psophosphaera sp.; Pteridaceae; Pteridaceoisporis sp.; Pteridium sp.; Pteris sp.; Pterium sp.; Pterocaryapollenites sp.; Pterocaryapollenites stellatus; Pterocarya sp.; Pterocystidiopsis sp.; Punica sp.; Quercoidites asper; Quercoidites henrici; Quercoidites microhenrici; Quercoidites minor; Quercoidites sp.; Quercus lantenoisii; Quercus namlingensis; Quercus prespathulata; Quercus sinomiocenica; Quercus sp.; Quercus wulongensis; Ranunculaceae; Retimultiporopollenites sp.; Retitricolpites sp.; Rhamnaceidites sp.; Rhapis sp.; Rhododendron namlingense; Rhododendron sanzugawaense; Rhoipites sp.; Rhus sp.; Ricinus sp.; Robinia nipponica; Rosa sp.; Rubiaceae; Rumex sp.; Rutaceae; Rutaceoipollenites sp.; Sagittaria sp.; Salixipollenites discoloripites; Salixipollenites hiatus; Salixipollenites sp.; Salix miosinica; Salix sp.; Salvinia sp.; Sample code/label; Sample comment; Sapindaceae; Sapodaceoidaepollenites kirchheimeri; Sapotaceae; Sapotaceoidaepollenites sp.; Schizaeoisporites sp.; Schizospora sp.; Scrophulariaceae; Sediment type; Selaginellaceae; Selaginella sp.;

Type: Dataset

Format: text/tab-separated-values, 1799 data points

Permalink