ALBERT

All Library Books, journals and Electronic Records Telegrafenberg

X
feed icon rss

Your email was sent successfully. Check your inbox.

An error occurred while sending the email. Please try again.

Proceed reservation?

Export
Filter
  • PANGAEA  (7)
  • Cambridge University Press  (5)
Collection
Keywords
Publisher
Years
  • 1
    facet.materialart.
    Unknown
    (Table S1) Global dataset of buried peat locations, ages, and descriptions (2019)
    PANGAEA
    Details
    Publication Date: 2023-03-16
    Keywords: AWI_Paleo; Paleoenvironmental Reconstructions from Marine Sediments @ AWI
    Type: Dataset
    Format: application/vnd.openxmlformats-officedocument.spreadsheetml.sheet, 291.3 kBytes
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 2
    facet.materialart.
    Unknown
    Widespread global peatland establishment and persistence for the last 130,99 years (2019)
    PANGAEA
    In:  Supplement to: Treat, Claire C; Kleinen, Thomas; Broothaerts, Nils; Dalton, April S; Dommain, René; Douglas, Thomas A; Drexler, Judith; Finkelstein, Sarah A; Grosse, Guido; Hope, Geoffrey; Hutchings, Jack A; Jones, Miriam C; Kuhry, Peter; Lacourse, Terri; Lähteenoja, Outi; Loisel, Julie; Notebaert, Bastiaan; Payne, Richard J; Peteet, Dorothy M; Sannel, A Britta K; Stelling, Jonathan; Strauss, Jens; Swindles, Graeme T; Talbot, Julie; Tarnocai, Charles; Verstraeten, Gert; Williams, Christopher J; Xia, Zhengyu; Yu, Zicheng; Väliranta, Minna; Hättestrand, Martina; Alexanderson, Helena; Brovkin, Victor (2019): Widespread global peatland establishment and persistence over the last 130,000 y. Proceedings of the National Academy of Sciences, https://doi.org/10.1073/pnas.1813305116
    Details
    Publication Date: 2023-01-13
    Description: We present the first synthesis of global peatland extent through the last glacial cycle (130 ka) based on 〉975 detailed stratigraphic descriptions from exposures, soil pits, and sediment cores. Buried peats are defined as organic-rich sediments overlain by mineral sediments. Also included are deposits rich in wetland macrofossils indicated a local peatland environment. The dataset includes location (lat/long), chronologic information (when available), a description of the buried peat sediment, overlying and underlying sediments, whether geochemical information is available, and the original references.
    Type: Dataset
    Format: application/zip, 2 datasets
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 3
    facet.materialart.
    Unknown
    (Table S2) Global dataset of peatland basal ages (2017)
    PANGAEA
    Details
    Publication Date: 2023-08-16
    Keywords: 11O; 1202; 1453; 15A; 260; 277; 2M; 300; 361; 398; 4_RN; Aakkenustunturi; Aaknes; ABI; Abisko; Abisko, Lappland, northern Sweden; Aflon; Afognak; Africa; Agardalen_Elfenbeibreen_glacier; Age, dated; Age, dated material; Age, dated standard error; Agerod; Agparsuit; Ahakagyezi_Swamp; Ahvenlampi; Aion-4estuary_of_Chaun; Air chemistry observatory; Aishihik_Lake; Aitkin; Akali; Ake_Bat; Alaganik; Alaska, USA; Alaska-Toolik; Albany_Forks; Albany_R; Albany_R-8501; Alberta; Alberta, Canada; Alderdale; Aleksandrovskoe; Aliwal_North; Alsmyren; Altevatn; Altin; Alton_PA-16; AmeryOasis2001/2002; Amot; Anadyr; Anadyrskiy Gulf; Anaktuvik_Pass; Anchor_Point_Trail; Andoya; Anin_Island; Antarctica; Antinlammensuo; Apurinneva; Arangatui; Aravete; Archangelsk_City; Arctic Ocean; Argaunat_Hil_Bog; Argentina; Arosuo; Arrowsmith_River; Arstadmirene; Ashville; Asmyra; Atka_Island; Attawapiskat_River; Aucayacu; Aura; auxiliary station; Avalon; AWI Arctic Land Expedition; Ayat; Ayon; BACHI; Baffin_Island; Baffin Bay; Bagotville_Bog; Baidaratskaya; Baie; Baliem_Valley; Ballast_Brook; Ballycroy_Bog; Baltic Sea; Balyktakh; Banks Island, Canadian Arctic Archipelago; Baram_River; Barambai,; Barents Sea; Bario; Barrow; Bastuberg; Batang_Hari; Batulicin; Bay of Fundy; BB1; BC; Bear_Cove_Bog; Bear_Creek; Bear_Valley; Beaufort Sea; Beauval; Beaver_Lake; Beaver_River; Bederbo-Tarida; Bekkelaegret; Belanske_Luky; Belec_L_Int_8507; Belec_L_Int_9210; Belek_Sesi_Cheepay; Beloye; Benacadie_Point; Benfontein; Bengkalis_Island; Berbak_National_Park; Berendon_Fen; Bering_Lake; Bering Sea; Bezdonnoe; Big_John; Big_Slide_Creek; Big_Swamp; Billings_Cape; Bingha_BG-1; Biological sample; BIOS; Birthday_River; Bismarck Sea; Bitil_Pampa; Bjuralvsmossen; Black_Gum_Swamp; Black_Lake; Black_River; Blackbear-8508A; Blairmore; Blamyrho; Blanc-Sablon; Bleik; Blenkisop_Lake; Blidenes_Kurzeme; Blomidon_Site; Blue_Lake; Blydefontein; Boganida-14; Bois-des-Bel; Bol_Kuropatochiya; Bol_Liakhovskiy_Island; Bol_Routan_Island; Bolshaya_Lagorta; Bolsho_Mokh; Bolvanski_Mys; Bondzale; Bonfield_Gill_Head; Boniface_river; Bonne_Bay; Boothia_Peninsula; BOR; Borer; Bottinintnin_Lake; Box corer; Bradshaw; Brewster_Creek; Bridge_Glacier_Bog; Brondmyra; Brooks_River; Brookside; Buena_Vista; Buevannet; Buffalo_Narrows; BurinPeninsula; Buskerud; Bussehund; Bussesund; Bylot_Island; Cabin_Creek; CA-Land_2013_YukonCoast; Caldwell_Lake; Calendar age; Calendar age, maximum/old; Calendar age, minimum/young; Caleta_Robalo; California_Gulch; Calumet; Campbell; Canada; Canadian Arctic; Cape_Ball; Cape_Hangklip; Cape_Henrietta_Maria; Cape_Kiberia; Cape_Nares; Cape_Shpindler; Caribbean Sea; Caribou_Bog; Caribou_Lake; Caribou_Mts; Caribu_River; Carling_L-site; Carswell_Lake; Cartwright; Cayambre-Coca; CC-14; CC-18; CC-19; CC-2; CC-22; CC-27; CC-36; CC-39; CC-40; CC-41; CC-42; CC-44; CC-49; CC-50; CC-51; CC-54; CC-57; CC-62; CC-7; CC-76; CC-80; CC-82; CC-85; CC-90; CC-P; Cedar_Swano; Central-West-Greenland; Cerna_Hora; Chacaltaya; Chaginskoe_Mire; Chalk_River; Changuinola; Chapman_Lake; Charlevoix; Charo; Chase; Chasebrook; Chatsworth_Bog; Chekurovka; Cheremushka; Chernyii_Yar; Cherryfield; Cherya_Gorka; Chester_LN-1; Chilkoot_Pond; Chin_Lake; CHISTIC; Chistic, Russia; Chivyrkiu; Chudesnoe; Chuk_10; Chuk226; Chukchi Sea; Churchill; Churchill_Falls; Chydesnoe; Ciega; Cioetwon_bog; Clarenville; Clearwater_Bog; Clearwater_Lake; Clover_Pond; Cluff_Lake; Coal_Creek; Coastal_fen_site; Coastal waters of SE Alaska; Cobweb_Swamp; Cochrane; Codeville_WA-6; Collier_Gill; Collins_Pond; Colville_Lake; Comment; Comment 2 (continued); Comment 3 (continued); Compassberg; Coppermine; Coral Sea; Cordillera_Pelada; Core; CORE; Core1; Core2; Corkery_Creek; Cornelia; Corporon; Cotapampa; Coulson_Township; Courtenay; Covey_Hill; Covey_Hill_core1; Cowichan_Lake; Craigrossie; Creek_Cypres_Bog; Cresswell_River; Crimson_lake; Cropley_Lake; Cumbre_Unduavi; Dags_Mosse; Dahadinni_River; Dalnie_Zelentsy; Dalsvatnmyr; Danka_Valley_Bo; Dartmouth_Bight; Davis Strait; De_Borchert; Deelpan; Deggemyra; Dempster_Highway; Denali_Highway; Denslow_Lake_moraine; DEPTH, sediment/rock; DERPUT; Derput, Russia; Deschambault_Lake; Diamond_Creek_Trail; Diana_Lake_Bog; Dionisiya; Djupvika; Docksmyren; Dome_Creek_Meadow; Doting_Gove; Douglas_Island; Drainage_Lake; Dredge; Dresvianka-Pechiora_inlet; DRG; Driehoek; DRILL; Drilling/drill rig; Drizzle_Pit_Bog; Dry_Lamba_Kivach; Duguldzera; Dulikha; Dunedin; DUVAN; Duvanny_Yar_2009; Duvanny Yar Alas; Dyanushka K7P2; Dzelves; Dzhangskyol_Fen; E101; E102; E103; E104; E105; E106; E107; E108; E109; E110; E111; E112; E113; E114; E115; E116; E117; E118; E119; E120; E121; Eagle_Creek; Eagle_River; Eaglecrest_Bog; East_Baltic; East_Biddeford; Eastern_Graham; East Siberian Sea; Eipurs; Ekolongouma; Eleutak; Ellerslie; EllisBog; Emo; Engbertsdijksven; Engerdal; Enggelam; Ennadai_Lake; Escape_River; Eskimo_Lakes; Esmeralda; Espanola_West_Bog; Event label; Exmouth_Lake; Falkefjeldet; Fallison; Farnham_Bog; Farrent_Island; Fildes Peninsula, King George Island; Finger_Glacier; Finland; Fire_Island; Fish_Lake_2; Flatrumyren; Fletcher_Lake; Fokstumyrin; Folley_Lake; Fongen; Footprint_Lake; Fort_Chimo; Fort_Good_Hope; Fosheim; Fourth-of-July_Creek; Fox_Lake_2; FRON; Fuglefjellet; Funasmyren; Funny_River_Rd; FW; g0181; g0221; Gakona_River; Galt; Gardsendi; Garry_Island; Gates_Bog; Gatun_Lake_Area; Gauya_River; Geike_Bog; Generc_River; Georgian_Bay; Germansen; GGU215942; Gill_Lake; Gipka; Gitanga; Glacier_Bay; Glacier_Creek; Glacier_Highway; Gleason_Bog; Glenancross; Glenholme; Global_change_camp; Global River Discharge; GLUKHOYE; Glukhoye Lake; GN11-C4; Goldeye_core1; Goldeye_Fen; Goodsir_Inlet; Goose_Creek; Goose_River; Gorelovo; Gornostalya; Gotlandsfloen; Grand_Beach; Grand_Plateau; Grand_Rapids; Grande_Cache; Grand River, Michigan, U.S.A., North America; Grant_Lake; Granunes; Grays_Lake; Great_Bear; Green_River; Green, Utah, U.S.A., North America; Grindstone_Island; Guldtvedt; Gulf of Alaska; Gulf of Bothnia; Gulf of Finland; Gulf of Mexico; Gulf of Riga; Gulf of St. Lawrence; Gulf of Tartary; GUR; Gurgaon; Guyer_Lake; Gypsumville; Haapalahti; Haapasuo; Haberton; Hadseloya; Haikassuo; Halnelaegeret; Halvykenmyren; Hammarmossen; HAND; Hand (plastic-shovel); Hangassuo; Hara; Harmanger; Harp_Mountain; Harricana_moraine; Harricana_River; Harris_Creek; Hattuvaara; Hawaii; Hawaiian Islands, North Central Pacific; Hawley_Lake; Hawly_Lake; HE2013_Polygonfield; Headquarters_Lake; Helmken_Park; Henvalsmyren; HER; Herchmer; Hermon_BA-8; Herschel_Island; Herschel Island, Yukon Territory, Canada; Hershey_SH-2; Hershop_Bog; Hestaa; Hiilisuo_Prionega; Hjortronmossen; HL02; HL02_core1; HL03; HL04; Holmfjeldnet; Holt_Lamplight_Rd; Homer_Spit; Hongyan; Hook_Lake_Bog; Hordaland; Horn_Lake; Horn_Plateau; Hornafjordur; Hornsund; Horton_River; Howardss_Pass; Howland_PA-9; HPS; Hub; Hudson Bay; Hudson Bay Lowlands, Canada; Hudson Strait; Hungry_Creek; Hunker_Creek; Hunter_Creek; Hurricane_Basin; Hurrinsuo; Hverholl; I-96; IB_wetland; Iceland Sea; Idglolorssuit; Igarka_Peat_exposure; Ile_du_Havre_aux_Maisons; Ilmakkiselka; IMATU; Imatu Mire, Estonia; incl. 16 pond locations; India; Indian Ocean; Innoko; In situ sampler; Interior_fen_site; International Polar Year 1881-1884; Inuvik; Inyanga; Iosegun_River; IPY-1; Iringa; Iris_Station; Isfiordflya_S-6a-74; Island_Alexandra; Isokarret; Isosuo; ISS; Ita; Itanga; Ittlemit_Lake; Ivanovsko; Ivirua; Ivitaruk; Ivsugissok; Jaab_L_site; Janakkala; Japan Sea; JBL1; JBL1_core1; JBL2; JBL2_core1; JBL3; JBL3_core1; JBL4; JBL4_core1; JBL5; JBL5_core1; JBL7; JBL7_core1; JBL8; JBL8_core1; Jefferson_County; Jesmond_Bog; Jiji; Joey_Lake; Johnson_Lake; Johnson_River; Johvikasoo; Joint Arctic Weather Stations; Judique; Jukolansuo; Julysuo_Kalevala; Juodonys; Jurmunaapa; Jyvaskyla; K7P2; Kaikkarsuo; Kairanaapa; Kaisungor_Swamp; Kakarinlammensuo; Kakkupalsa; Kalimantan; Kalina; KALSA; Kalsa Mire, Estonia; Kamiranzovu; Kamishak_Bat; Kangerdluarssuk;
    Type: Dataset
    Format: text/tab-separated-values, 59134 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 4
    facet.materialart.
    Unknown
    Falkland Islands Peatland carbon data (2019)
    PANGAEA
    Details
    Publication Date: 2024-03-19
    Description: These data describe peat initiation and development in the Falkland Islands, South Atlantic. The datasets presented represent a combination of primary data collection and our compilation of previously-published data. The 'falklands_basal_dates' file lists radiocarbon dates which can be considered to represent peat initiation. Data are for: site name, location (northing/easting), radiocarbon date details (labID/age/error), basal depth, data source (reference given where data is secondary) and a brief description of the basal stratigraphy. The 'falklands_core_properties' dataset gives details of peat properties for cores from ten sites across East Falkland sampled in this study. Data are for: site codes (locations as listed in 'falklands.basal.dates), bulk density (determined by water displacement and drying at 105C), loss on ignition (combustion at 550C), %carbon (elemental analysis) and modelled age using Bacon. The 'falklands_depths' dataset gives measured peat depth for 371 sites. Depths listed are means of variable numbers of individual site measurements with a maximum measurable depth of 250cm. Full details of all datasets are given in the accompanying paper. Collectively the data presented here give the first synthesis of peat age and properties in the Falkland Islands.
    Keywords: Basal; bog; Carbon; Initiation; Mire; peat; Peatland
    Type: Dataset
    Format: application/zip, 3 datasets
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 5
    facet.materialart.
    Unknown
    Falkland Islands Peatland basal dates (2019)
    PANGAEA
    In:  University of York
    Details
    Publication Date: 2024-03-19
    Keywords: Age, dated; Age, dated standard deviation; Basal; Beauchene_Island; bog; Carbon; DEPTH, sediment/rock; DPO; Falkland Islands; HOP; Initiation; Laboratory code/label; Lake_Sulivan; LATITUDE; Lithology/composition/facies; LONGITUDE; MBO; Mire; Mt_Maria; MULT; Multiple investigations; NRA; ORQ; peat; Peatland; Reference/source; Site; SSX; SWI; USB; WBC; WCR
    Type: Dataset
    Format: text/tab-separated-values, 179 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 6
    facet.materialart.
    Unknown
    Falkland Islands Peatland core properties (2019)
    PANGAEA
    In:  University of York
    Details
    Publication Date: 2024-03-19
    Keywords: AGE; Basal; bog; Carbon; Density, dry bulk; DEPTH, sediment/rock; DPO; Event label; Falkland Islands; HOP; Initiation; Latitude of event; Longitude of event; Loss on ignition; MBO; Mire; MULT; Multiple investigations; NRA; ORQ; peat; Peatland; SSX; SWI; USB; WBC; WCR
    Type: Dataset
    Format: text/tab-separated-values, 391 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 7
    facet.materialart.
    Unknown
    Falkland Islands Peatland depths (2019)
    PANGAEA
    In:  University of York
    Details
    Publication Date: 2024-03-19
    Keywords: Basal; BIO; Biology; bog; Carbon; DEPTH, sediment/rock; Falkland_Is; Falkland Islands; Initiation; LATITUDE; LONGITUDE; Mire; peat; Peatland
    Type: Dataset
    Format: text/tab-separated-values, 0 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 8
    facet.materialart.
    Unknown
    Forest history, peatland development and mid- to late Holocene environmental change in the southern taiga forest of central European Russia (2017)
    Cambridge University Press
    Details
    Publication Date: 2017-11-02
    Description: Understanding the long-term ecological dynamics of boreal forests is essential for assessment of the possible responses and feedbacks of forest ecosystems to climate change. New data on past forest dynamics and peatland development were obtained from a peat sequence in the southern Valdai Hills (European Russia) based on pollen, plant macrofossil, micro-charcoal, peat humification, and testate amoeba analyses. The results demonstrate a dominance of broadleaved forests in the study area from 7000–4000 cal yr BP. Picea was initially a minor component of this forest but increased in cover rapidly with climatic cooling beginning at 4000 cal yr BP, becoming the dominant species. Broadleaved species persisted until 900 cal yr BP, with evidence for intensified felling and forest management over recent centuries. Over the last four hundred years there is evidence for widespread paludification and the establishment of Picea-Sphagnum forests. These data demonstrate how modern wet woodlands have been shaped by a combination of climatic and anthropogenic factors over several millennia. The results also demonstrate the value of a multiproxy approach in understanding long-term forest ecology.
    Print ISSN: 0033-5894
    Electronic ISSN: 1096-0287
    Topics: Geography , Geosciences
    Published by Cambridge University Press
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    PAPER CURRENT
  • 9
    facet.materialart.
    Unknown
    The Holocene paleoenvironmental history of central European Russia reconstructed from pollen, plant macrofossil, and testate amoeba analyses of the Klukva Peatland, Tula Region (2015)
    Cambridge University Press
    Details
    Publication Date: 2015-05-01
    Description: Holocene climatic variability and human impact on vegetation are reconstructed from a region in central European Russia, which lies at an important ecotone between broadleaf forest and steppe. For the first time in this region we adopt a multi-proxy approach that combines analysis of local mire conditions from plant macrofossil and testate amoeba analyses with pollen-based quantitative climate reconstruction. The proxies indicate a long-term warming trend from 9700 to 7500 cal yr BP, interrupted by a series of short-term cold events. From 7500 to 5000 cal yr BP the results imply a relatively stable climate, warmer and drier than present, spanning the Holocene Thermal Maximum. Since 5000 cal yr BP the data suggest a change to cooler climate, but with centennial-scale variability. This shift at around 5000 cal yr BP is supported by extensive evidence from other sites. In the early Holocene, the region was occupied mainly by pine and birch forests. Broad-leafed forests of oak, lime and elm expanded after 7800 cal yr BP and remained dominant until the last few centuries. During the historical period, vegetation changes have been driven mainly by human activities.
    Print ISSN: 0033-5894
    Electronic ISSN: 1096-0287
    Topics: Geography , Geosciences
    Published by Cambridge University Press
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    PAPER CURRENT
  • 10
    facet.materialart.
    Unknown
    The performance of single- and multi-proxy transfer functions (testate amoebae, bryophytes, vascular plants) for reconstructing mire surface wetness and pH (2013)
    Cambridge University Press
    Details
    Publication Date: 2013-01-01
    Description: Peatlands are widely exploited archives of paleoenvironmental change. We developed and compared multiple transfer functions to infer peatland depth to the water table (DWT) and pH based on testate amoeba (percentages, or presence/absence), bryophyte presence/absence, and vascular plant presence/absence data from sub-alpine peatlands in the SE Swiss Alps in order to 1) compare the performance of single-proxy vs. multi-proxy models and 2) assess the performance of presence/absence models. Bootstrapping cross-validation showing the best performing single-proxy transfer functions for both DWT and pH were those based on bryophytes. The best performing transfer functions overall for DWT were those based on combined testate amoebae percentages, bryophytes and vascular plants; and for pH, those based on testate amoebae and bryophytes. The comparison of DWT and pH inferred from testate amoeba percentages and presence/absence data showed similar general patterns but differences in the magnitude and timing of some shifts. These results show new directions for paleoenvironmental research, 1) suggesting that it is possible to build good-performing transfer functions using presence/absence data, although with some loss of accuracy, and 2) supporting the idea that multi-proxy inference models may improve paleoecological reconstruction. The performance of multi-proxy and single-proxy transfer functions should be further compared in paleoecological data.
    Print ISSN: 0033-5894
    Electronic ISSN: 1096-0287
    Topics: Geography , Geosciences
    Published by Cambridge University Press
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    PAPER CURRENT
Close ⊗
This website uses cookies and the analysis tool Matomo. More information can be found here...