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30 Minuten Second Brain (2023)

Offenbach : GABAL

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Description / Table of Contents: Kreative Ideen und Lösungen entwickeln Wir leben heute mehr denn je in einer Wissensgesellschaft. Es reicht aber nicht mehr aus, Wissen nur zu sammeln. Wer in der Zukunft bestehen will, muss aus vorhandenem Wissen neue Ideen generieren können. Unter dem Begriff Second Brain wird eine Methode in jüngster Zeit immer beliebter, mit der auf spezielle Art Notizen erstellt und miteinander verknüpft werden, mit dem Ziel, neue Ideen daraus zu gewinnen. Wer sich ein Second Brain, also ein "zweites externes Gehirn" als Wissensdatenbank mit einer kompakten Sammlung von Ideen, Informationen, Daten etc., aufbaut und dauerhaft etabliert, kann daraus eine ganze Reihe kreativer Lösungen entwickeln. Denn da jede neue Notiz an schon vorhandene anschließt, wächst die Zahl der Verknüpfungen exponentiell. Das Buch zeigt die Abgrenzung zu anderen Kreativitätstechniken auf und bietet einen Leitfaden, mit dem Sie Ihr eigenes Second Brain Schritt für Schritt aufbauen. Sie lernen praxisnah anhand vieler Beispiele, wie Sie effektiv und strukturiert Ideen generieren und kreative Lösungen entwickeln können

Type of Medium: Monograph available for loan

Pages: 96 Seiten , 17 cm x 11.5 cm

Edition: 1. Auflage

ISBN: 9783967391701

Series Statement: 30 Minuten

URL: Inhaltstext (lizenzpflichtig)

URL: Cover (lizenzpflichtig)

Language: German

Location: Upper compact magazine

Branch Library: GFZ Library

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REVEALS reconstruction of past vegetation cover with original RPP values for Asian samples (2023)

Herzschuh, Ulrike ; Ewald, Peter ; Schild, Laura ; [et al.]

PANGAEA

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Publication Date: 2024-07-09

Description: This data set presents the reconstructed vegetation cover for 533 Asian sites based on harmonized pollen data from the data set LegacyPollen 2.0 (https://doi.pangaea.de/10.1594/PANGAEA.929773). Sugita's REVEALS model (2000) was applied to all pollen records using REVEALSinR from the DISQOVER package (Theuerkauf et al. 2016). Pollen counts were translated into vegetation cover by accounting for taxon-specific pollen productivity and fall speed. Additionally, relevant source areas of pollen were calculated using the aforementioned taxon-specific parameters and a gaussian plume model for deposition and dispersal and forest cover was reconstructed. Values for relative pollen productivity and fall speed from the synthesis from Wiezcorek and Herzschuh (2010) were used for the reconstruction of vegetation cover. The average values from all Northern Hemisphere values were used where taxon-specific continental values were not available. We present tables with reconstructed vegetation cover for all continents with original parameters. As further details we list a table with the taxon-specific parameters used and a list of parameters adjusted in the default version of REVEALSinR.

Keywords: 11-CH-12A; 11CH17A_Pollen; 16-KP-01-L02-Long3; 880; Abies, cover; Acacia, cover; Acanthaceae, cover; Acer, cover; Aceraceae, cover; ACHIT8; ACHITNUR; Achit-Nur, Mongolia; ACHITNUR8; Achit Nur 8; Achit Nur Lake; ACHITNUUR; Achit Nuur; Acoraceae, cover; Actinidiaceae, cover; Adoxaceae, cover; Adycha_River; Adycha River; Aesculus, cover; AGHNAGHA; Aghnaghak; Aglaia, cover; AHUNG; Ahung Co; AIBI; Aibi Lake; Ailanthus, cover; Aizoaceae, cover; AKKOL; Akkol Lake; AKTEREK; Ak Terek; AKULININ; Akulinin Exposure P1282; AL3; Alangium, cover; Albizia, cover; Alchornea, cover; Allophylus, cover; ALMALOU3; Alnus, cover; Altingia, cover; ALUT; Alut Lake; Amaranthaceae, cover; Amaryllidaceae, cover; AMBA; Amba River; AMGUEMA1; AMGUEMA2; Amguema River 1; Amguema River 2; Ampelopsis, cover; Anacardiaceae, cover; Anguli Nur Lake; ANGUNUR; Annona, cover; Antidesma, cover; Aphanamixis, cover; Apiaceae, cover; Apocynaceae, cover; Apodytes, cover; Aporosa, cover; Aquifoliaceae, cover; Araceae, cover; ARAL86; Araliaceae, cover; Arctic Ocean; Arctostaphylos, cover; Ardisia, cover; Area; Arecaceae, cover; ARKIDA_Pollen; Artemisia, cover; Asia; Asparagaceae, cover; Asphodelaceae, cover; ASTAAL13_Pollen; Asteraceae, cover; Avicennia, cover; AWI_Envi; AWI Arctic Land Expedition; AYONGWA; Ayongwama Co; Baahar Nuur Lake; BAAHNUUR; BAIDARA; Baidara, Russia; Baihe; BAIHE; Baika; BAIKA2; Baikal_Lake-CON01-603-5; Baikal_Lake-CON01-605-3; Baikal_Lake-CON01-605-5; BAIKAL606-3; Baikal CON01-606-3; Baikal Lake-CON01-603-5; Baikal Lake-CON01-605-3; Baikal Lake-CON01-605-5; Baiyangdian Lake GY; BAIYANGGY; BAJIAO; Bajiaotian; Bakaly; BAKALY_neotoma; BALIKUN; Balikun Lake; Balsaminaceae, cover; BANGONG; Bangong Co Lake; BARABA; Barbarina_Tumsa; BARKOLBLK6E; Barkol Lake BLK06E; Basin; Bauhinia, cover; BAYANBY; BAYANCH; Bayanchagan Lake BY; BEIDAWA; Beidawan; BEIHAIGK10; Beihai GK10; BEILIKEK; Beilikekule Lake; Belaya Skala Exposure; BELSKALA; Berberidaceae, cover; BEREGOV2_Pollen; Berelyekh River; BETENK; Betenkyos Adycha river; Betula, cover; Betulaceae, cover; Biebersteiniaceae, cover; Big_Yarovoe_Lake_2008-3; Bignoniaceae, cover; Big Yarovoe Lake; BOGUDA; BOLOTNYI; Bolotnyii Stream Exposure 117; BOLS1TZ1_Pollen; Bolshaya Kuobakh-Baga River; Bolshaya Kuropatochya River; Bolshaya Kuropatochya River P7; Bolshoe Eravnoe Lake, Russia; Bolshoe Toko; BOLVAN25_Pollen; BOLVAN48_Pollen; Bombax, cover; Boraginaceae, cover; Bosten; Boyiqiao ZK01; BOYIQZK1; Brassicaceae, cover; Broussonetia, cover; Buddleja, cover; BUGRIST; Bugristoe, Russia; Buxus, cover; Byllatskoye; Calculated average/mean values; Calendar age, maximum/old; Calendar age, mean; Calendar age, median; Calendar age, minimum/young; Callicarpa, cover; Camellia, cover; Campanulaceae, cover; CAMPING; CANGUMI; Cangumiao; Cannabaceae, cover; CAOTAN2002; Caotanhu 2002; Cape Shpindler, Yugorski Peninsula, Russia; Capparaceae, cover; Capparis, cover; Caprifoliaceae, cover; Caragana, cover; Carya, cover; Caryophyllaceae, cover; Casearia, cover; Caspian Sea; Castanea, cover; Castanopsis, cover; Casuarina, cover; Catalpa, cover; Cedrus, cover; Celastraceae, cover; Celtis, cover; Cephalanthus, cover; Cercidiphyllum, cover; Cercis, cover; CHABADA1; CHABADA2; ChabadaII; Chabada Lake, Russia; CHADIAN; Chadianpo; Chaginskoe; CHAIWOCKF; Chaiwopu Lake CKF; Chamaecyparis, cover; Changjiang CM97; Changjiang HQ98; CHANGJICM97; CHANGJIHQ98; CHANGNING_Pollen; Changshan; CHANGSHAN; CHANGXING; Changxing Island; CHAOCH1; Chaohu Lake CH1; CHARIMUCH; Charisu/Muchang profile; Chatanga2011; CHENGCH2; Chenghai CH2; Cheremushka_Bog; Cheremushka Bog; Chernaya_Gorka; CHERNOE; Chernoe Lake, Russia; CHERNYAR; Chernyii Yar Exposure 955; Cherny Yar, Russia; CHERYAR; CHESNOK; Chesnok Peat Irtysh River; Chifeng-Qiguo Mt.; CHIFEQIGU; China; Chistoye Lake; CHITSAI; Chitsai Lake; CHUANGY; Chuangye; Chukotka 2018; Cistaceae, cover; Citrus, cover; Claoxylon, cover; Clausena, cover; Clerodendrum, cover; Clethra, cover; Clethraceae, cover; Clusiaceae, cover; Co1412; Cocculus, cover; Colchicaceae, cover; Combretaceae, cover; Commelinaceae, cover; COMPCORE; Composite Core; Continent; Convolvulaceae, cover; Co Qongjiamong; Core1; Core13; Core2; Core20; Core86; Cornaceae, cover; Cornus, cover; Corylus, cover; Cotinus, cover; Crassulaceae, cover; Crataegus, cover; Cratoxylum, cover; Cryptomeria, cover; CS98-10; Cucurbitaceae, cover; Cunninghamia, cover; Cupressaceae, cover; Cupressus, cover; Cyclobalanopsis, cover; Cyclocarya, cover; Cyperaceae, cover; DABA8; DABANUR; Daba-Nur, Mongolia; Daba Nur Lake; DABSANCK181; Dabsan Lake CK1/81; Dacrydium, cover; Dadiwan_2007; Dadiwan_2008; DADIWAN07; DADIWAN08; DAHAIZI; Dahaizi Lake; DAHU_Pollen; DAIHAI99A; DAIHAI99B; Daihai Lake 99a; Daihai Lake DH99B; Dajiuhu_2013; DAJIUHU2013; DAJIUHUC1; Dajiuhu Lake C1; DALAINUR; Dalai Nur Lake-Haiyan; Dalbergia, cover; DALINURHAO; Dali Nur-Haoluku Lake; DALINURJIAN; Dali Nur-Jiangjunpaozi Lake; DALINURLIU; Dali Nur-Liuzhouwan Lake; Damagou; DAMAGOU; Dashan; DASHAN; DASHUI; Dashuitang; Data ID; Datiscaceae, cover; Daxigou; DAXIGOU; DAZIYIN; Daziying; Decaspermum, cover; DENGJIAC; Dengjiacun; DEPTH, sediment/rock; DERPUT; Derput, Russia; Deutzia, cover; Diameter; DIAOJIAO; Diaojiaohaizi DJ; Diapensiaceae, cover; DIMA1; DIMA2; DIMA3; DIMA4; Dingnan; DINGNAN; Dingxi; DINGXI; Dioscoreaceae, cover; Diospyros, cover; Diplospora, cover; Dipsacaceae, cover; Dipterocarpaceae, cover; Distylium, cover; Dlinnoye_Lake; Dlinnoye Lake; Dodonaea, cover; Dolgoe_Ozero; Dolgoe Ozero; DONGDAO; Dongdaohaizi B; DONGGAN; Dongganchi; DONGGI1790; Dongguan_PK16; DONGGUPK16; DOOD4; DOODNUR; Dood-Nur, Mongolia; Dood Nur Lake; DOUCO; Douco Lake; DRILL; Drilling/drill rig; Droseraceae, cover; East Siberian Sea Coast 11; Ebenaceae, cover; EBINUR; Ebinur Lake; Ebinur Lake SW; EBINURSW; EK4; Elaeagnaceae, cover; Elaeagnus, cover; Elaeocarpaceae, cover; Elaeocarpus, cover; Eleutherococcus, cover; ELGENNYA; Elgennya Lake; Elgygytgyn_Lake_P2; Elgygytgyn crater lake, Sibiria, Russia; Elgygytgyn lake; Elgygytgyn Lake P2; Elikchan 4 Lake; EN18218; Endospermum, cover; Engelhardia, cover; ENM109; ENMYN; Enmynveem Malyi Anyui; Enmynveem River; Entada, cover; ENTARNOY; Entarnoye; Ephedra, cover; Ephedraceae, cover; ERAVNOE; ERHAIES; Erhai Lake ES; Ericales, cover; Eriobotrya, cover; ERLONGWA; Erlongwan Maar Lake; Eucalyptus, cover; Euonymus, cover; Euphorbiaceae, cover; Euptelea, cover; Eupteleaceae, cover; Eurya, cover; Event label; Excoecaria, cover; Fabaceae, cover; Faddeyevskiy; FADEYEVS; Fagaceae, cover; Fagraea, cover; Fagus, cover; FENGNIN; Fengning; FENZHU; Fenzhuang; Ficus, cover; Flacourtia, cover; Flacourtiaceae, cover; Flueggea, cover; Forest, cover; fossil pollen; Foyechi; FOYECHI; Frangula, cover; Frankeniaceae, cover; Fraxinus, cover; GANHAI; Ganhai Lake; GANLAN; Ganlanba; Gantang; GANTANG; GAOXI; Gaoximage; Garcinia, cover; Gardenia, cover; GC; GCUWI; GEK; Gek Lake; GENGGA_Pollen; Genista, cover; Gentianaceae, cover; Geological profile sampling; GEOPRO; Geraniaceae, cover; Gesneriaceae, cover; GHARASO_Pollen; Ginkgo, cover; GLADKOYE; Gladkoye Bog; Global River Discharge; Glochidion, cover; Glukhoye Lake; GLUPEAT; Glyptostrobus, cover; GOLUBOY; Goluboye Lake; Gomishan, Islamic Republic of Iran; GONGHAI; Gonghai Lake; Gounong Co KX-1; GOUNONGKX1; Gravity corer; Gravity corer, UWITEC; Grewia, cover; Grossulariaceae, cover; GRUSHA; Grusha Lake; GS05; GS18; GUANGFU; Guangfulin; GUANGRU1; Guangrunpo 1; GUANGTA; Guangtangtou; GUCHENG; Gucheng Lake; Gulf of Tartary; GUNNUR; Gun-Nur, Mongolia; GUNNURLA; Gun Nur Lake; Gur_sample; GURSKII; Gurskii Peat; Gymnosporia, cover; GYTGYKAI; Gytgykai Lake; HACHIHAM; Hachihama; Hachiman-Numa; HACHI-NU; Hailaer; HAILAER; Haiyuan; HAIYUAN; Halali; HALALI; HALIGU; Haligu Lake; Hamaertai Lake Ha2; HAMAHA2; Hamamelidaceae, cover; Hamamelis, cover; HANHAIH1; Hanhai Lake H1; HARBA; Harbaling; HCGA05_Pollen; HCGL02_Pollen; Headwaters Opasnaya River (mine shaft); Helicia, cover; Heliotropium, cover; Helwingia,

Type: Dataset

Format: text/tab-separated-values, 47321056 data points

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Water chemistry of Lagrangian samplings of Inland Elbe 2023 (MOSES Hydrological Extremes) (2023)

Kamjunke, Norbert ; von Tümpling, Wolf ; Hoff, Andrea ; [et al.]

PANGAEA

In: Helmholtz Centre for Environmental Research - UFZ

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Publication Date: 2024-07-09

Description: The MOSES campaign ELBE 2023 covered the whole River Elbe from the source in the Czech Republic, the German freshwater part, the tidal Elbe river, towards the German Bight, where we try to follow the river plume with three ships by help of drifters. In the German freshwater Elbe, physico-chemical and biological parameters will be measured along the Elbe using the research vessel ALBIS from Schmilka (km 4, German border) to Geestacht (km 585, close to Hamburg) in a Langrangian approach. The scientific focus in 2023 was on pollutants, particularly pharmaceuticals, herbicides, and microplastics. For that, we sample not only water but also sediments, and use passive samplers. In addition, a land team sampled tributaries and effluents of weaste water treatment plants parallel to the ship.

Keywords: 2023ELBE_el00400l; 2023ELBE_el00400m; 2023ELBE_el00400r; 2023ELBE_el05450l; 2023ELBE_el05450m; 2023ELBE_el05450r; 2023ELBE_el08800l; 2023ELBE_el08800m; 2023ELBE_el08800r; 2023ELBE_el10700l; 2023ELBE_el10700m; 2023ELBE_el10700r; 2023ELBE_el15450l; 2023ELBE_el15450m; 2023ELBE_el15450r; 2023ELBE_el17200m; 2023ELBE_el17200r; 2023ELBE_el17260l; 2023ELBE_el19900muend; 2023ELBE_el25800l; 2023ELBE_el25800m; 2023ELBE_el25800r; 2023ELBE_el25900muend; 2023ELBE_el28700l; 2023ELBE_el28700m; 2023ELBE_el28700r; 2023ELBE_el29070muend; 2023ELBE_el31800l; 2023ELBE_el31800m; 2023ELBE_el31800r; 2023ELBE_el32653l; 2023ELBE_el32653m; 2023ELBE_el32653r; 2023ELBE_el35100l; 2023ELBE_el35100m; 2023ELBE_el35100r; 2023ELBE_el38800l; 2023ELBE_el38800m; 2023ELBE_el38800r; 2023ELBE_el42225l; 2023ELBE_el42225m; 2023ELBE_el42225r; 2023ELBE_el43800muend; 2023ELBE_el45490l; 2023ELBE_el45490m; 2023ELBE_el45490r; 2023ELBE_el47500l; 2023ELBE_el47500m; 2023ELBE_el47500r; 2023ELBE_el50600l; 2023ELBE_el50600m; 2023ELBE_el50600r; 2023ELBE_el53600l; 2023ELBE_el53600m; 2023ELBE_el53600r; 2023ELBE_el57040l; 2023ELBE_el57040m; 2023ELBE_el57040r; 2023ELBE_el58550l; 2023ELBE_el58550m; 2023ELBE_el58550r; Albis; Ammonium molybdate spectrometric method; Ammonium-nitrogen; Area/locality; Arsenic, dissolved; Arsenic, total; Base capacity 4.3; Base capacity 8.2; Breitenhagen links; Breitenhagen mitte; Breitenhagen rechts; Carbon, organic, dissolved; Carbon, organic, particulate; Carbon dioxide; CFA; Chlorophyll a; Conductivity, electrical; Continuous Flow Analysis; DATE/TIME; Distance; Doemitz links; Doemitz Mitte; Doemitz rechts; Dommitzsch links; Dommitzsch Mitte; Dommitzsch rechts; Dresden Carolabruecke links; Dresden Carolabruecke Mitte; Dresden Carolabruecke rechts; Elbe; Event label; Gas chromatograph (8610C, SRI Instruments, Torrance, USA); Geestacht links; Geestacht rechts; Geesthacht Mitte; greenhouse gas; Havel Muendung; HPLCO; ICP-OES; InfraRed sensor detection according to DIN EN 1484:1997 DE; Iron, dissolved; Iron, total; LATITUDE; Lauenburg links; Lauenburg Mitte; Lauenburg rechts; Lead, dissolved; Lead, total; LONGITUDE; Magdeburg Neue Strombruecke links; Magdeburg Neue Strombruecke Mitte; Magdeburg Neue Strombruecke rechts; Manganese, dissolved; Manganese, total; Mercury, total; Methane; Modular Observation Solutions for Earth Systems; MOSES; MOSES_2023_Elbe-NorthSea; MOSES_2023_Elbe-NorthSea_Inland; Mulde Muendung; MULT; Multiparameter probe, YSI Xylem Inc., EXO2; Multiple investigations; Neu Darchau links; Neu Darchau mitte; Neu Darchau rechts; Nitrate-nitrogen; Nitrite-nitrogen; Nitrogen, organic, particulate; Nitrous oxide; Nutrients; Oxygen saturation; pH; Phosphorus, reactive soluble; Phosphorus, total; Pigments analysis by HPLC (UV and FLD); Riesa Bruecke links; Riesa Bruecke Mitte; Riesa Bruecke rechts; river; Rogaetz links; Rogaetz mitte; Rogaetz rechts; Rosslau links; Rosslau Mitte; Rosslau rechts; Saale Muendung; Schmilka links; Schmilka mitte; Schmilka rechts; Schnackenburg links; Schnackenburg mitte; Schnackenburg rechts; Schwarze Elster Muendung; Segmented flow analysis according to DIN EN ISO 13395:1996-12; Silicon; Tangermuende links; Tangermuende Mitte; Tangermuende rechts; Temperature, water; Torgau Bruecke links; Torgau Bruecke Mitte; Torgau Bruecke rechts; Turbidity (Nephelometric turbidity unit); Werben links; Werben Mitte; Werben rechts; Westerhuesen links; Westerhuesen Mitte; Westerhuesen rechts; Wittenberge, links; Wittenberge, mitte; Wittenberge, rechts; Zehren links; Zehren mitte; Zehren rechts

Type: Dataset

Format: text/tab-separated-values, 1972 data points

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Basic measurements of radiation at station Lindenberg (2018-02) (2020)

Wacker, Stefan

PANGAEA

In: Meteorologisches Observatorium Potsdam

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Publication Date: 2024-07-09

Keywords: Air temperature at 2 m height; BARO; Barometer; Baseline Surface Radiation Network; BSRN; DATE/TIME; Diffuse radiation; Diffuse radiation, maximum; Diffuse radiation, minimum; Diffuse radiation, standard deviation; Direct radiation; Direct radiation, maximum; Direct radiation, minimum; Direct radiation, standard deviation; Germany; HEIGHT above ground; Humidity, relative; HYGRO; Hygrometer; LIN; Lindenberg; Long-wave downward radiation; Long-wave downward radiation, maximum; Long-wave downward radiation, minimum; Long-wave downward radiation, standard deviation; Monitoring station; MONS; Pyranometer, Kipp & Zonen, CM22, SN 020073, WRMC No. 12014; Pyranometer, Kipp & Zonen, CM22, SN 020074, WRMC No. 12013; Pyrgeometer, Eppley, PIR, SN 32802F3, WRMC No. 12011; Pyrheliometer, Kipp & Zonen, CH1, SN 030340, WRMC No. 12016; Short-wave downward (GLOBAL) radiation; Short-wave downward (GLOBAL) radiation, maximum; Short-wave downward (GLOBAL) radiation, minimum; Short-wave downward (GLOBAL) radiation, standard deviation; Station pressure; Thermometer

Type: Dataset

Format: text/tab-separated-values, 764122 data points

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REVEALS reconstruction of past vegetation cover with original RPP values for African samples (2023)

Herzschuh, Ulrike ; Ewald, Peter ; Schild, Laura ; [et al.]

PANGAEA

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Publication Date: 2024-07-09

Description: This data set presents the reconstructed vegetation cover for 155 African sites based on harmonized pollen data from the data set LegacyPollen 2.0 (https://doi.pangaea.de/10.1594/PANGAEA.929773). Sugita's REVEALS model (2000) was applied to all pollen records using REVEALSinR from the DISQOVER package (Theuerkauf et al. 2016). Pollen counts were translated into vegetation cover by accounting for taxon-specific pollen productivity and fall speed. Additionally, relevant source areas of pollen were calculated using the aforementioned taxon-specific parameters and a gaussian plume model for deposition and dispersal and forest cover was reconstructed. Values for relative pollen productivity and fall speed from the synthesis from Wiezcorek and Herzschuh (2010) were used for the reconstruction of vegetation cover. The average values from all Northern Hemisphere values were used where taxon-specific continental values were not available. We present tables with reconstructed vegetation cover for all continents with original parameters. As further details we list a table with the taxon-specific parameters used and a list of parameters adjusted in the default version of REVEALSinR.

Keywords: 02DIOGO; 02GUIERS; Abies, cover; ABIJATA_Pollen; Acacia, cover; Acanthaceae, cover; Acanthophoenix, cover; Acer, cover; Achariaceae, cover; Acridocarpus, cover; Adansonia, cover; Adenanthera, cover; Adenium, cover; Adenocarpus, cover; Adina, cover; Afraegle, cover; Africa; Afzelia, cover; AH1_Pollen; AH2_Pollen; Aidia, cover; Aizoaceae, cover; Alangium, cover; ALB3PC; ALBATROS_Pollen; ALBITR1; ALBITR2; Albitrunca Cliff; Albizia, cover; Alchornea, cover; Algeria; Allophylus, cover; Alnus, cover; Alstonia, cover; Amanoa, cover; Amaranthaceae, cover; Amaryllidaceae, cover; Anacardiaceae, cover; Anacardium, cover; ANDOLO; Androstachys, cover; Annona, cover; Annonaceae, cover; Anogeissus, cover; Anopyxis, cover; ANS_Pollen; Anthocleista, cover; Anthostema, cover; Antiaris, cover; Antidesma, cover; Antrocaryon, cover; Aphania, cover; Aphloia, cover; Apiaceae, cover; Apocynaceae, cover; Apodytes, cover; Araceae, cover; Araliaceae, cover; Arbutus, cover; Ardisia, cover; Area; Arecaceae, cover; Argania, cover; Argomuellera, cover; Artemisia, cover; Ascarina, cover; Asparagaceae, cover; Asphodelaceae, cover; Asteraceae, cover; Avicennia, cover; AWI_Envi; BADDA; Badda bog; Baikiaea, cover; BAL_Pollen; Balanites, cover; Balsaminaceae, cover; BAMBILI1; Bambili 1; BAMBILI2; Bambili 2; Baphia, cover; Barbeya, cover; Barringtonia, cover; Basellaceae, cover; BASESECT_Pollen; Basin; Bauhinia, cover; Begoniaceae, cover; BEK_Pollen; BEMBA_Pollen; Berberidaceae, cover; Bergia, cover; Berlinia, cover; Bersama, cover; Bertiera, cover; Betula, cover; Bignoniaceae, cover; Bismarckia, cover; Blighia, cover; Bois de Bilanko; Bombax, cover; Boraginaceae, cover; Borassus, cover; Boscia, cover; Boswellia, cover; BOURDIM; Bourdim, Algeria; Brachylaena, cover; Brachystegia, cover; Brachystephanus, cover; Brassicaceae, cover; Bridelia, cover; Brucea, cover; Bruniaceae, cover; BSM97_Pollen; Buddleja, cover; Burkea, cover; Burseraceae, cover; Buxus, cover; Cadaba, cover; Caesalpinia, cover; Calculated average/mean values; CALDERIL_Pollen; Calendar age, maximum/old; Calendar age, mean; Calendar age, median; Calendar age, minimum/young; Calostephane, cover; Campanulaceae, cover; Campylospermum, cover; Canarium, cover; Cannabaceae, cover; Canthium, cover; Capparaceae, cover; Capparis, cover; Caprifoliaceae, cover; Carapa, cover; Carissa, cover; Carya, cover; Caryophyllaceae, cover; Casearia, cover; Cassia, cover; Cassine, cover; Cassipourea, cover; Castanea, cover; Casuarina, cover; Catha, cover; Catunaregam, cover; Cedrus, cover; Ceiba, cover; Celastraceae, cover; Celtis, cover; Ceratonia, cover; Cercestis, cover; CH22KW31_Pollen; Chaetachme, cover; Chionanthus, cover; Chrysobalanus, cover; Chrysophyllum, cover; Chytranthus, cover; Cistaceae, cover; Citrus, cover; Clausena, cover; Cleistanthus, cover; Cleomaceae, cover; Clerodendrum, cover; Cliffortia, cover; Clusiaceae, cover; Cocculus, cover; Cochlospermum, cover; Cocos, cover; Coffea, cover; Cola, cover; Colchicaceae, cover; Colophospermum, cover; Combretaceae, cover; Combretum, cover; Commelinaceae, cover; Commiphora, cover; COMPCORE; Composite Core; Connaraceae, cover; Continent; Convolvulaceae, cover; Copaifera, cover; CORAF; CORAF2; CORAFT; Cordia, cover; Core; CORE; CoreS2; CoreS6; CoreS7; CoreS8; Cornus, cover; Corylus, cover; Coula, cover; CRAIG; Craigrossie; Crassulaceae, cover; Crateva, cover; Crudia, cover; Cucurbitaceae, cover; Cunoniaceae, cover; Cupressaceae, cover; Cupressus, cover; Cussonia, cover; Cylicodiscus, cover; Cylicomorpha, cover; Cynometra, cover; Cyperaceae, cover; Cytinaceae, cover; Dacryodes, cover; Dalbergia, cover; Daniellia, cover; DARFATMA; Dar Fatma, Tunisia; Dasylepis, cover; Data ID; DEELMER1_Pollen; Deinbollia, cover; Delonix, cover; DEPTH, sediment/rock; Detarium, cover; Deva-Deva; DEVA-DEVA; Dialium, cover; Diameter; Dichapetalaceae, cover; Dichrostachys, cover; Dictyosperma, cover; Didiereaceae, cover; Dilleniaceae, cover; Diogo; Dioscoreaceae, cover; Diospyros, cover; Dipsacaceae, cover; Dipterocarpaceae, cover; Djebel El Ghorra, Tunisia; Dobera, cover; Dodonaea, cover; Dombeya, cover; Dracaena, cover; Driehoek; Drypetes, cover; Dypsis, cover; E4_Pollen; E96-1P; E96-5M; Ebenaceae, cover; Ehretia, cover; Ekebergia, cover; Elaeagnaceae, cover; Elaeis, cover; Elaeocarpaceae, cover; Elaeocarpus, cover; Elaeophorbia, cover; ELANDSBA_Pollen; ELIMSEQ; Elim Swamp; ELKHALED; Englerophytum, cover; Entada, cover; Entandrophragma, cover; Ephedra, cover; Ephedraceae, cover; Ericales, cover; Eriocoelum, cover; Erythrina, cover; Erythrococca, cover; Erythrophleum, cover; Erythroxylum, cover; ESAMBU_Pollen; ETEZA_Pollen; Eucalyptus, cover; Euclea, cover; Eugenia, cover; Euphorbiaceae, cover; EV11_Pollen; EV13; Event label; Excoecaria, cover; Fabaceae, cover; Fadogia, cover; Fagaropsis, cover; Fagus, cover; Faidherbia, cover; Faurea, cover; Ficalhoa, cover; Ficus, cover; FILIM_Pollen; Flacourtia, cover; FLECK_Pollen; Fleroya, cover; Flueggea, cover; Foetidia, cover; Forest, cover; fossil pollen; FPORTAL2_Pollen; Frankeniaceae, cover; Fraxinus, cover; Funtumia, cover; Gaertnera, cover; GALINHA_Pollen; GAMA2_Pollen; GAMA4_Pollen; Ganophyllum, cover; Garaat El-Ouez, Algeria; GARATOUE; Garcinia, cover; Gardenia, cover; GDV4; Genista, cover; Gentianaceae, cover; Geraniaceae, cover; Gesneriaceae, cover; GHORRA01; Ghorra I; Gilbertiodendron, cover; Glenniea, cover; Grewia, cover; GROOTDRIFT; Grootdrift - Verlorenvlei; Guibourtia, cover; Guiera, cover; Gunneraceae, cover; Gymnosporia, cover; Gyrocarpus, cover; HACHLAF1_Pollen; Haematostaphis, cover; Hagenia, cover; Hamamelidaceae, cover; Harrisonia, cover; HARUB2; Harubes; Harungana, cover; HAWA_Pollen; Heisteria, cover; Heliotropium, cover; Heteropterys, cover; Hevea, cover; Hildegardia, cover; HL_Pollen; Holoptelea, cover; Homalium, cover; Hydroleaceae, cover; Hylodendron, cover; Hymenocardia, cover; Hymenodictyon, cover; Hymenostegia, cover; Hyophorbe, cover; Hypericaceae, cover; Hyphaene, cover; Icacinaceae, cover; IKIMBA2_Pollen; Ilex, cover; Illigera, cover; Indeterminable, cover; Indigofera, cover; Iridaceae, cover; Irvingia, cover; Isoberlinia, cover; Ixora, cover; JIKARIYA_Pollen; Juglans, cover; Julbernardia, cover; Juncaceae, cover; Juniperus, cover; KA1; KA3; KAI_Pollen; KAJ_Pollen; Kashiru_Bog_Pollen; Kashiru Swamp; KAVITAHA_Pollen; KH3_Pollen; KH4_Pollen; KHATU_Pollen; Khaya, cover; KIG2_Pollen; Kigelia, cover; Kiggelaria, cover; KIMILIA_Pollen; KIMILIB_Pollen; Kirkia, cover; Kitumbako; KITUMBAKO; KLAARFONT; Klaarfontein Springs; KN1A_Pollen; KOITOBOS_Pollen; KT3_Pollen; KUL_Pollen; LABOOTA_Pollen; Labourdonnaisia, cover; Lake Albert WHOI core 3PC; Lake Andolonomby; Lake Edward; Lake Eilandvlei; Lake Guiers; Lake Malawi MAL05-2; Lake Tritrivakely; Lamiaceae, cover; Lannea, cover; Lasianthus, cover; Lasiodiscus, cover; Latania, cover; LATITUDE; Lauraceae, cover; Laurus, cover; Lawsonia, cover; Lecythidaceae, cover; Lepisanthes, cover; Leptaulus, cover; Leucosidea, cover; LH1; LH3; Liliaceae, cover; Limeaceae, cover; Linaceae, cover; Linderniaceae, cover; Livingstone piston sampler; LKMBTU5_Pollen; Location ID; Loesenera, cover; Lonchocarpus, cover; LONGITUDE; Lophira, cover; Lovoa, cover; LPOUL_Pollen; LPS; LT1_Pollen; LT84-8P_Pollen; LT9812M_Pollen; LT9837M_Pollen; LT9858M_Pollen; Lumnitzera, cover; Lythraceae, cover; Macaranga, cover; Maclura, cover; Maerua, cover; Maesa, cover; Maesopsis, cover; MAHOMA; Mahoma Lake; Majen Ben Hmida, Tunisia; Majen El Orbi, Tunisia; MAJENHMI; Majidea, cover; MAJORBOG; MAJORMAR; MAL05-2A; MALAHLAPAN; Malahlapanga; Mallotus, cover; Malpighiaceae, cover; Malvaceae, cover; Mangifera, cover; Manilkara, cover; Mansonia, cover; Maprounea, cover; Maranthes, cover; Mare aux Songes; Mare dOursi; Margaritaria, cover; Markhamia, cover; Martretia, cover; MARURA_Pollen; MAS1TR4C3; MASOKO_Pollen; Maytenus, cover; MBALA_Pollen; MBORO_Pollen; Median values; Melastomataceae, cover; Meliaceae, cover; Melochia, cover; Menispermaceae,

Type: Dataset

Format: text/tab-separated-values, 19077771 data points

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Water chemistry of Lagrangian samplings of Inland Elbe 2022 (MOSES Hydrological Extremes) (2023)

Kamjunke, Norbert ; von Tümpling, Wolf ; Hoff, Andrea ; [et al.]

PANGAEA

In: Helmholtz Centre for Environmental Research - UFZ

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Publication Date: 2024-07-09

Description: The MOSES campaign ELBE 2022 covered the Czech freshwater Elbe, the German freshwater part, the tidal Elbe river, and the German Bight. Thus, the complete gradient from source to sea was investigated for the first time. The sampling will be conducted in a Langrangian way according to flow velocity. In the German freshwater Elbe, physico-chemical and biological parameters will be measured along the Elbe using the research vessel ALBIS from Schmilka (km 4, German border) to Geestacht (km 585, close to Hamburg). A particular scientific focus was on (1) composition of dissolved organic matter measured by high-resolution mass specrometry, (2) investigation of zooplankton besides bacteria and algae, and (3) greenhouse gas measurements in water and air (the latter was investigated in more detail during an addition campaing in Tangermünde in August 2022).

Keywords: 2022ELBE_el00400l; 2022ELBE_el00400m; 2022ELBE_el00400r; 2022ELBE_el05450l; 2022ELBE_el05450m; 2022ELBE_el05450r; 2022ELBE_el08800l; 2022ELBE_el08800m; 2022ELBE_el08800r; 2022ELBE_el10700l; 2022ELBE_el10700m; 2022ELBE_el10700r; 2022ELBE_el15450l; 2022ELBE_el15450m; 2022ELBE_el15450r; 2022ELBE_el17200m; 2022ELBE_el17200r; 2022ELBE_el17260l; 2022ELBE_el19900muend; 2022ELBE_el25800l; 2022ELBE_el25800m; 2022ELBE_el25800r; 2022ELBE_el25900muend; 2022ELBE_el28700l; 2022ELBE_el28700m; 2022ELBE_el28700r; 2022ELBE_el29070muend; 2022ELBE_el31800l; 2022ELBE_el31800m; 2022ELBE_el31800r; 2022ELBE_el32653l; 2022ELBE_el32653m; 2022ELBE_el32653r; 2022ELBE_el35100l; 2022ELBE_el35100m; 2022ELBE_el35100r; 2022ELBE_el38800l; 2022ELBE_el38800m; 2022ELBE_el38800r; 2022ELBE_el42225l; 2022ELBE_el42225m; 2022ELBE_el42225r; 2022ELBE_el43800muend; 2022ELBE_el45490l; 2022ELBE_el45490m; 2022ELBE_el45490r; 2022ELBE_el47500l; 2022ELBE_el47500m; 2022ELBE_el47500r; 2022ELBE_el50600l; 2022ELBE_el50600m; 2022ELBE_el50600r; 2022ELBE_el53600l; 2022ELBE_el53600m; 2022ELBE_el53600r; 2022ELBE_el57040l; 2022ELBE_el57040m; 2022ELBE_el57040r; 2022ELBE_el58550l; 2022ELBE_el58550m; 2022ELBE_el58550r; Albis; Ammonium molybdate spectrometric method; Ammonium-nitrogen; Area/locality; Arsenic, dissolved; Arsenic, total; Base capacity 4.3; Base capacity 8.2; Breitenhagen links; Breitenhagen mitte; Breitenhagen rechts; Carbon, organic, dissolved; Carbon, organic, particulate; Carbon dioxide; CFA; Chlorophyll a; Conductivity, electrical; Continuous Flow Analysis; DATE/TIME; Distance; Doemitz links; Doemitz Mitte; Doemitz rechts; Dommitzsch links; Dommitzsch Mitte; Dommitzsch rechts; Dresden Carolabruecke links; Dresden Carolabruecke Mitte; Dresden Carolabruecke rechts; Elbe; Event label; Gas chromatograph (8610C, SRI Instruments, Torrance, USA); Geestacht links; Geestacht rechts; Geesthacht Mitte; greenhouse gas; Havel Muendung; HPLCO; ICP-OES; InfraRed sensor detection according to DIN EN 1484:1997 DE; Iron, dissolved; Iron, total; LATITUDE; Lauenburg links; Lauenburg Mitte; Lauenburg rechts; Lead, dissolved; Lead, total; LONGITUDE; Magdeburg Neue Strombruecke links; Magdeburg Neue Strombruecke Mitte; Magdeburg Neue Strombruecke rechts; Manganese, dissolved; Manganese, total; Mercury, total; Methane; Modular Observation Solutions for Earth Systems; MOSES; MOSES_2022_Elbe-NorthSea; MOSES_2022_Elbe-NorthSea_Inland; Mulde Muendung; MULT; Multiparameter probe, YSI Xylem Inc., EXO2; Multiple investigations; Neu Darchau links; Neu Darchau mitte; Neu Darchau rechts; Nitrate-nitrogen; Nitrite-nitrogen; Nitrogen, organic, particulate; Nitrous oxide; Nutrients; Oxygen saturation; pH; Phosphorus, reactive soluble; Phosphorus, total; Pigments analysis by HPLC (UV and FLD); Riesa Bruecke links; Riesa Bruecke Mitte; Riesa Bruecke rechts; river; Rogaetz links; Rogaetz mitte; Rogaetz rechts; Rosslau links; Rosslau Mitte; Rosslau rechts; Saale Muendung; Schmilka links; Schmilka mitte; Schmilka rechts; Schnackenburg links; Schnackenburg mitte; Schnackenburg rechts; Schwarze Elster Muendung; Segmented flow analysis according to DIN EN ISO 13395:1996-12; Silicon; Tangermuende links; Tangermuende Mitte; Tangermuende rechts; Temperature, water; Torgau Bruecke links; Torgau Bruecke Mitte; Torgau Bruecke rechts; Turbidity (Nephelometric turbidity unit); Werben links; Werben Mitte; Werben rechts; Westerhuesen links; Westerhuesen Mitte; Westerhuesen rechts; Wittenberge, links; Wittenberge, mitte; Wittenberge, rechts; Zehren links; Zehren mitte; Zehren rechts

Type: Dataset

Format: text/tab-separated-values, 2011 data points

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REVEALS reconstruction of past vegetation cover with original RPP values for South American samples (2023)

Herzschuh, Ulrike ; Ewald, Peter ; Schild, Laura ; [et al.]

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Publication Date: 2024-07-09

Description: This data set presents the reconstructed vegetation cover for 173 South American sites based on harmonized pollen data from the data set LegacyPollen 2.0 (https://doi.pangaea.de/10.1594/PANGAEA.929773). Sugita's REVEALS model (2000) was applied to all pollen records using REVEALSinR from the DISQOVER package (Theuerkauf et al. 2016). Pollen counts were translated into vegetation cover by accounting for taxon-specific pollen productivity and fall speed. Additionally, relevant source areas of pollen were calculated using the aforementioned taxon-specific parameters and a gaussian plume model for deposition and dispersal and forest cover was reconstructed. Values for relative pollen productivity and fall speed from the synthesis from Wiezcorek and Herzschuh (2010) were used for the reconstruction of vegetation cover. The average values from all Northern Hemisphere values were used where taxon-specific continental values were not available. We present tables with reconstructed vegetation cover for all continents with original parameters. As further details we list a table with the taxon-specific parameters used and a list of parameters adjusted in the default version of REVEALSinR.

Keywords: Abatia, cover; Acacia, cover; Acanthaceae, cover; ACARABIX; Acer, cover; Achatocarpus, cover; Acnistus, cover; Adelobotrys, cover; Adenanthera, cover; Aextoxicon, cover; Aguilar; AGUILAR; Alchornea, cover; Alchorneopsis, cover; Aldina, cover; Alibertia, cover; Allophylus, cover; Alnus, cover; Aloysia, cover; ALSACIA; Alstroemeriaceae, cover; Amaioua, cover; Amaranthaceae, cover; Amarete; AMARETE; Amaryllidaceae, cover; Ampelocera, cover; Anacardiaceae, cover; Anacardium, cover; Anadenanthera, cover; Andabobos; ANDABOBS; Andira, cover; Anemopaegma, cover; ANGEL_neotoma; ANGEL, Laguna Angel; Aniba, cover; Annona, cover; Annonaceae, cover; Anthodiscus, cover; Aparisthmium, cover; Apeiba, cover; Apiaceae, cover; Apocynaceae, cover; Aquifoliaceae, cover; AQUIRI; Araceae, cover; Araliaceae, cover; Araucaria, cover; Ardisia, cover; Area; Arecaceae, cover; Aristotelia, cover; Arrabidaea, cover; Artemisia, cover; Asparagaceae, cover; Aspidosperma, cover; Asteliaceae, cover; Asteraceae, cover; Asterales, cover; Astrocaryum, cover; Astronium, cover; Attalea, cover; Austrocedrus, cover; AVICENNIA; Avicennia, cover; AWI_Envi; Azara, cover; Bactris, cover; Balanophoraceae, cover; Balfourodendron, cover; Balsaminaceae, cover; Banara, cover; Basin; Bataceae, cover; Bauhinia, cover; Begoniaceae, cover; BELLVIS_Pollen; Berberidaceae, cover; Bertiera, cover; Betula, cover; Betulaceae, cover; Bignoniaceae, cover; Billia, cover; Bixaceae, cover; Blepharandra, cover; BOAVISTA; Bocoa, cover; Bombacopsis, cover; Bombax, cover; Bonnetiaceae, cover; Boquillas; BOQUILLAS; Boraginaceae, cover; Boscia, cover; Bosque de Avicennia; Bougainvillea, cover; Bowdichia, cover; Brassicaceae, cover; Bromeliaceae, cover; Brosimum, cover; Broussonetia, cover; Brownea, cover; Brunellia, cover; Buddleja, cover; Bunchosia, cover; Burmanniaceae, cover; Bursera, cover; Burseraceae, cover; Byrsonima, cover; CABOSQUE; Cabralea, cover; Cactaceae, cover; Caesalpinia, cover; CAIMITO; CAJANUMA_Pollen; CALACONT; Cala Conto; Calceolariaceae, cover; Calculated average/mean values; Calendar age, maximum/old; Calendar age, mean; Calendar age, median; Calendar age, minimum/young; Calliandra, cover; Calophyllaceae, cover; Calophyllum, cover; Calyceraceae, cover; Calycolpus, cover; Calycophyllum, cover; Campanulaceae, cover; Campnosperma, cover; Campomanesia, cover; Campo Salgado; Campsiandra, cover; Canal de la Puntilla; Cannabaceae, cover; Capparaceae, cover; Capparis, cover; Caprifoliaceae, cover; CAR982L; CARANA; CARANGAM_Pollen; Carapa, cover; CARIMAGUA; Cariniana, cover; Caryocar, cover; Caryocaraceae, cover; Caryophyllaceae, cover; CASANOVA; Casearia, cover; Cassia, cover; Cassipourea, cover; Castela, cover; Castilla, cover; Casuarina, cover; Catostemma, cover; CAUNAHU1; Caunahue; Cavanillesia, cover; Cayambe; CAYAMBE; Cecropia, cover; Cedrela, cover; Ceiba, cover; Celastraceae, cover; Celtis, cover; Centrolobium, cover; Ceroxylon, cover; Cerro Calvario; Cerro Toledo; CERTOCTB; CERTOLCT; CHACALT1; CHACALT2; Chacaltaya 1; Chacaltaya 2; CHALALAN; Chamaedorea, cover; CHAPLIN_Pollen; Cheiloclinium, cover; Chelyocarpus, cover; CHENEVO; Chloranthaceae, cover; CHOCHOS; Chor; Chorreras; Chrysobalanaceae, cover; Chrysobalanus, cover; Chrysophyllum, cover; CIEGAIII; Ciénaga del Visitador; Cistaceae, cover; Citrus, cover; CLARENCE; Cleidion, cover; Cleomaceae, cover; Clethra, cover; Clethraceae, cover; Clusia, cover; Clusiaceae, cover; COCALVAR; Coccoloba, cover; COCHACAR; Cochlospermum, cover; Codia, cover; COLOCO3_Pollen; Colubrina, cover; Columelliaceae, cover; Combretaceae, cover; Combretum, cover; Commelinaceae, cover; CONDOR; Connaraceae, cover; Connarus, cover; CONSUELO1; CONSUELO2; Continent; Convolvulaceae, cover; Copaifera, cover; Copernicia, cover; COR300_Pollen; Cordia, cover; Cordón Serrucho Norte wetland; Coriariaceae, cover; Corylus, cover; Costaceae, cover; COTAPAMP; Cotapampa; Couepia, cover; Couratari, cover; Coutarea, cover; Crassulaceae, cover; Crescentia, cover; Crudia, cover; Cryosophila, cover; CTIGRE_Pollen; Cucurbitaceae, cover; CUEVAHAI; Cueva Haichol; CUEVAMIL; Cueva Milodon; CUMBREUN; Cumbre Unduavi; Cunoniaceae, cover; Cupania, cover; Cupressaceae, cover; CURUCAA; CURUCAB; Cybianthus, cover; Cyclanthaceae, cover; Cyperaceae, cover; Cyrilla, cover; Dacrydium, cover; Dacryodes, cover; Dalbergia, cover; Daphnopsis, cover; DASPATAS; Dasyphyllum, cover; Data ID; Dendropanax, cover; DEPTH, sediment/rock; Diameter; Dichapetalaceae, cover; Dictyocaryum, cover; Didymopanax, cover; Dilleniaceae, cover; Dinizia, cover; Dioscoreaceae, cover; Diospyros, cover; Discaria, cover; Dodonaea, cover; Drimys, cover; Duroia, cover; ECSF_CON; Ecuadorian Andes; EL_PINAL; Elaeagia, cover; Elaeagnus, cover; Elaeocarpaceae, cover; Elaeoluma, cover; ELJUNCO; El Patia-1; El Patía-2; ELTIRO; EL Tiro-Pass; Embothrium, cover; Emmotum, cover; Encelia, cover; Endopleura, cover; Entada, cover; Ephedra, cover; Ericales, cover; Eriotheca, cover; Erisma, cover; Erythrina, cover; Erythroxylaceae, cover; Erythroxylum, cover; Escallonia, cover; Escalloniaceae, cover; Eschweilera, cover; Esenbeckia, cover; Estación Científica San Francisco Cerro de Consuel; Eucalyptus, cover; Eucryphia, cover; Eugenia, cover; Euphorbiaceae, cover; Euterpe, cover; Event label; Fabaceae, cover; Fabales, cover; Faramea, cover; Ferdinandusa, cover; Ficus, cover; Fitzroya, cover; FLAMENGO; FONT; Forest, cover; fossil pollen; Francoaceae, cover; Fraxinus, cover; Froesiodendron, cover; Fuchsia, cover; FUQUENE2; FURCHATO; Furo do Chato; Gaiadendron, cover; Garcinia, cover; GARIBALD; Geissanthus, cover; Genipa, cover; Gentianaceae, cover; GEOB16205_Pollen; GEOB2107-3_Pollen; Geonoma, cover; GERAIS; Geraniaceae, cover; Gesneriaceae, cover; Gevuina, cover; GOBER; Godoya, cover; Gomortega, cover; Gordonia, cover; Goupia, cover; GRANJA; Griselinia, cover; Grossulariaceae, cover; Guarea, cover; Guatteria, cover; Guazuma, cover; Guettarda, cover; Gunneraceae, cover; Gustavia, cover; HARBERT; Harberton; Havardia, cover; Hedyosmum, cover; Heisteria, cover; Helicostylis, cover; Helicteres, cover; Heliocarpus, cover; Heliotropium, cover; Herrania, cover; HERRERA; Hesperomeles, cover; Heteropterys, cover; Hieronyma, cover; Himatanthus, cover; Hippomane, cover; Hirtella, cover; HUALAHUE; HUILA; Humiriaceae, cover; Hura, cover; Hydrangea, cover; Hydrangeaceae, cover; Hydrogaster, cover; Hymenaea, cover; Hypericaceae, cover; Icacinaceae, cover; Ilex, cover; Indeterminable, cover; Indigofera, cover; Inga, cover; Iriartea, cover; Iriartella, cover; Iridaceae, cover; Iryanthera, cover; Isertia, cover; Isla Clarence; ITAPEVA; Ixora, cover; Jacaranda, cover; Juglandaceae, cover; Juglans, cover; Juncaceae, cover; Juniperus, cover; KATANTI; Katantica; Kielmeyera, cover; Krameriaceae, cover; KUMPAKA_Pollen; LACHONTA1; La Chonta Bog; Lacistema, cover; Lacmellea, cover; LACOCHA3; Laetia, cover; Lafoensia, cover; Lagoa Campestre de Salitre; Lagoa da Curuça; Lagoa das Patas; Lago Cardiel; Lago do Aquiri; Lago do Pires; Lago Huala Hué; Lago Mascardi-Gutierrez; LAGOMOR1; Lago Moreno; Lago Mosquito; Lago Rogaguado; Lago Theobald; LAGSAL; Laguna Carimagua; Laguna Carimagua-Bosque; Laguna Chenevo; Laguna Ciega; Laguna Cocha Caranga; Laguna de Chochos; Laguna de Fúquene; Laguna De La Cocha; Laguna de la Herrera; Laguna del Cóndor; Laguna del Maule; Laguna de los Bobos; Laguna El Caimito; Laguna El Junco; Laguna El Piñal; Laguna el Trébol; Laguna Gobernador; Laguna Granja; Laguna Huatacocha; Laguna Jeronimo; Laguna Junín; Laguna La Pava; Laguna La Primavera; Laguna Las Margaritas; Laguna Loma Linda; Laguna Mandioré; Laguna Milloc; Laguna Mozambique; Laguna Negra de Alsacia; Laguna Orícore; Laguna Padre Laguna; Laguna Pallcacocha; Laguna Piusbi [Laguna El Trueno]; Laguna Pomacocha; Laguna Rabadilla de Vaca; Laguna Salinas; Laguna Sardinas; Laguna Tuctua; Laguna Zurita; Laguncularia, cover; Lake Acarabixi; Lake Caranã; Lake Chalalán; Lake Consuelo; Lake Huila; Lake Refugio 1; Lake

Type: Dataset

Format: text/tab-separated-values, 25495278 data points

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Elevation zones Hallstätter Gletscher, Dachstein, Austria, 2018/2019 (2020)

Helfricht, Kay ; Reingruber, Klaus ; Fischer, Andrea

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Publication Date: 2024-07-09

Description: The annual glacier mass balance of Hallstätter Gletscher in Austria is measured since 1.10.2006 with the direct glaciological method in the fixed date system (1.10. to 30. 09. of the following year). The accumulation of snow is measured by determination of the water equivalent in 6 snow pits, the ice ablation is measured with 15 stakes drilled into the ice. Results are the annual net mass balance in kg, the total accumulation and ablation, the glacier area and the portions of the area which are subject to ablation and accumulation, the elevation of the equilibrium line and the specific mass balance in kg/m² (= mm w.e.). The accumulation during the winter is determined by the 1 May. The project is funded by the Federal Government of Upper Austria. The measurements are carried out the Institute for Interdisciplinary Mountain Research of the Austrian Academy of Sciences and the company Blue Sky in Gmunden, Austria.

Keywords: DATE/TIME; Elevation, maximum; Elevation, minimum; Glaciers Austria; Hallstätter Gletscher, Dachstein, Austria; HSG; Mass balance, total of the altitude zone; Specific mass balance of the altitude zone; Specific mass balance of the altitude zone, summer; Specific mass balance of the altitude zone, winter; Total area of the altitude zone

Type: Dataset

Format: text/tab-separated-values, 98 data points

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Basic measurements of radiation at station Lindenberg (2018-03) (2020)

Wacker, Stefan

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In: Meteorologisches Observatorium Potsdam

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Publication Date: 2024-07-09

Keywords: Air temperature at 2 m height; BARO; Barometer; Baseline Surface Radiation Network; BSRN; DATE/TIME; Diffuse radiation; Diffuse radiation, maximum; Diffuse radiation, minimum; Diffuse radiation, standard deviation; Direct radiation; Direct radiation, maximum; Direct radiation, minimum; Direct radiation, standard deviation; Germany; HEIGHT above ground; Humidity, relative; HYGRO; Hygrometer; LIN; Lindenberg; Long-wave downward radiation; Long-wave downward radiation, maximum; Long-wave downward radiation, minimum; Long-wave downward radiation, standard deviation; Monitoring station; MONS; Pyranometer, Kipp & Zonen, CM22, SN 020073, WRMC No. 12014; Pyranometer, Kipp & Zonen, CM22, SN 020074, WRMC No. 12013; Pyrgeometer, Eppley, PIR, SN 32802F3, WRMC No. 12011; Pyrheliometer, Kipp & Zonen, CH1, SN 030340, WRMC No. 12016; Short-wave downward (GLOBAL) radiation; Short-wave downward (GLOBAL) radiation, maximum; Short-wave downward (GLOBAL) radiation, minimum; Short-wave downward (GLOBAL) radiation, standard deviation; Station pressure; Thermometer

Type: Dataset

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Basic measurements of radiation at station Lindenberg (2022-01) (2023)

Wacker, Stefan

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In: Meteorologisches Observatorium Lindenberg - Richard-Aßmann-Observatorium

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Publication Date: 2024-07-09

Keywords: Air temperature at 2 m height; BARO; Barometer; Baseline Surface Radiation Network; BSRN; DATE/TIME; Diffuse radiation; Diffuse radiation, maximum; Diffuse radiation, minimum; Diffuse radiation, standard deviation; Direct radiation; Direct radiation, maximum; Direct radiation, minimum; Direct radiation, standard deviation; Germany; HEIGHT above ground; Humidity, relative; HYGRO; Hygrometer; LIN; Lindenberg; Long-wave downward radiation; Long-wave downward radiation, maximum; Long-wave downward radiation, minimum; Long-wave downward radiation, standard deviation; Monitoring station; MONS; Pyranometer, Kipp & Zonen, CMP22, SN 170558, WRMC No. 12028; Pyranometer, Kipp & Zonen, CMP22, SN 180606, WRMC No. 12025; Pyrgeometer, Kipp & Zonen, CGR4, SN 170262, WRMC No. 12026; Pyrheliometer, Kipp & Zonen, CH1, SN 990220, WRMC No. 12012; Short-wave downward (GLOBAL) radiation; Short-wave downward (GLOBAL) radiation, maximum; Short-wave downward (GLOBAL) radiation, minimum; Short-wave downward (GLOBAL) radiation, standard deviation; Station pressure; Thermometer

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