Biblioteca Digital

Diatoms, total organic carbon, and total nitrogen of sediment core Dethlingen, Germany

**Autoria(s):** Koutsodendris, Andreas; Lotter, André F; Kirilova, Emiliya P; Verhagen, Florence T M; Brauer, Achim; Pross, Jörg
Cobertura	LATITUDE: 52.963000 * LONGITUDE: 10.139450
Data(s)	15/09/2013
Resumo	To provide insights into the long-term evolution of aquatic ecosystems without human interference, we here evaluate a decadal- to centennial-scale-resolution diatom record spanning about 12 ka of the Holsteinian interglacial (Marine Isotope Stage 11c). Using a partially varved sediment core from the Dethlingen palaeolake (northern Germany), which has previously been studied for palynological and microfacies signals, we document the co-evolution of the aquatic and surrounding terrestrial environment. The diatom record is dominated by the genera Stephanodiscus, Aulacoseira, Ulnaria and Fragilaria. Based on the diatom assemblages and physical sediment properties, the evolution of the Dethlingen palaeolake can be subdivided into three major phases. During the oldest phase (lasting ~1900 varve years), the lake was ~10-15 m deep and characterized by anoxic bottom-water conditions and a high nutrient content. The following ~5600 years exhibited water depths >20 m, maximum diatom and Pediastrum productivity, and a peak in allochtonous nutrient input. During this phase, water-column mixing became more vigorous, resulting in a breakdown of anoxia. The youngest lake phase (~4000-5000 years) was characterized by decreasing water depth, turbulent water conditions and decreased nutrient loading. Based on our palaeolimnological data, we conclude that the evolution of the Dethlingen palaeolake during the Holsteinian interglacial responded closely to (i) changes within the catchment area (as documented by vegetation and sedimentation) related to the transition from closed forests growing on nutrient-rich soils (mesocratic forest phase) to open forests developing on poor soils (oligocratic forest phase), and (ii) short-term climate variability as reflected in centennial-scale climate perturbations.
Formato	application/zip, 2 datasets
Identificador	https://doi.pangaea.de/10.1594/PANGAEA.835978 doi:10.1594/PANGAEA.835978
Idioma(s)	en
Publicador	PANGAEA
Relação	Koutsodendris, Andreas; Müller, Ulrich C; Pross, Jörg; Brauer, Achim; Kotthoff, Ulrich; Lotter, André F (2010): Vegetation dynamics and climate variability during the Holsteinian interglacial based on a pollen record from Dethlingen (northern Germany). Quaternary Science Reviews, 29(23-24), 3298-3307, doi:10.1016/j.quascirev.2010.07.024 Koutsodendris, Andreas; Pross, Jörg; Müller, Ulrich C; Brauer, Achim; Fletcher, William J; Kühl, Norbert; Kirilova, Emiliya P; Verhagen, Florence T M; Lücke, Andreas; Lotter, André F (2012): A short-term climate oscillation during the Holsteinian interglacial (MIS 11c): An analogy to the 8.2ka climatic event? Global and Planetary Change, 92-93, 224-235, doi:10.1016/j.gloplacha.2012.05.011
Direitos	CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted
Fonte	Supplement to: Koutsodendris, Andreas; Lotter, André F; Kirilova, Emiliya P; Verhagen, Florence T M; Brauer, Achim; Pross, Jörg (2013): Evolution of a Holsteinian (MIS 11c) palaeolake based on a 12-ka-long diatom record from Dethlingen (northern Germany). Boreas, 42(3), 714-728, doi:10.1111/bor.12001
Palavras-Chave	#A. acares; A. ambigua; A. biasolettiana; A. copulata; A. delicatissima; A. delicatula; A. distincta; A. exigua; A. fogediana; A. formosa; A. granulata; A. italica; A. lanceolata; A. minutissima; A. nitidiformis; A. ovalis; A. pediculus; A. ralfsii; A. saccula; A. subarctica; A. veneta; Achnanthes acares; Achnanthes biasolettiana; Achnanthes delicatissima; Achnanthes delicatula; Achnanthes distincta; Achnanthes exigua; Achnanthes lanceolata; Achnanthes minutissima; Achnanthes nitidiformis; Achnanthes saccula; Amphora copulata; Amphora fogediana; Amphora ovalis; Amphora pediculus; Amphora veneta; Asterionella formosa; Astrionella ralfsii; Aulacoseira ambigua; Aulacoseira granulata; Aulacoseira italica; Aulacoseira subarctica; C. antiqua; C. bodanica; C. caespitosa; C. cesatii; C. comta; C. cuspidata; C. cyclopuncta; C. disculus; C. dubius; C. elgenensis; C. hustedtii; c. mesiana; C. minuta; C. neodiminuta; C. ocellata; C. placentula; C. proxima; C. schumannii; C. silesiaca; C. undulata; C. veneta; Caloneis undulata; Carbon, organic, total; Cocconeis disculus; Cocconeis neodiminuta; Cocconeis placentula; Counting, diatoms; Cyclostephanodiscus dubius; Cyclotella antiqua; Cyclotella bodanica; Cyclotella comta; Cyclotella cyclopuncta; Cyclotella ocellata; Cyclotella schumannii; Cymbella caespitosa; Cymbella cesatii; Cymbella cuspidata; Cymbella elgenensis; Cymbella hustedtii; Cymbella mesiana; Cymbella minuta; Cymbella proxima; Cymbella silesiaca; Cymbella veneta; Depth; DEPTH, sediment/rock; Diatoma sp.; Diatoms; E. adnata; E. frickei; E. pirla; E. sorex; EDDI ID: AC001A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AC001A; EDDI ID: AC008A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AC008A; EDDI ID: AC013B, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AC013B; EDDI ID: AC016A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AC016A; EDDI ID: AC037A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AC037A; EDDI ID: AC119A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AC119A; EDDI ID: AC155A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AC155A; EDDI ID: AC196A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AC196A; EDDI ID: AM001E, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AM001E; EDDI ID: AM004A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AM004A; EDDI ID: AM010A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AM010A; EDDI ID: AM011A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AM011A; EDDI ID: AM012A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AM012A; EDDI ID: AS001A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AS001A; EDDI ID: AS003A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AS003A; EDDI ID: AU001D, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AU001D; EDDI ID: AU002A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AU002A; EDDI ID: AU003A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AU003A; EDDI ID: AU020A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=AU020A; EDDI ID: CM015A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CM015A; EDDI ID: CM026A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CM026A; EDDI ID: CM030A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CM030A; EDDI ID: CM031A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CM031A; EDDI ID: CM033A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CM033A; EDDI ID: CM051A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CM051A; EDDI ID: CM057A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CM057A; EDDI ID: CM070A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CM070A; EDDI ID: CM103A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CM103A; EDDI ID: CO001F, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CO001F; EDDI ID: CO010A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CO010A; EDDI ID: CO066A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CO066A; EDDI ID: CY001A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CY001A; EDDI ID: CY009A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CY009A; EDDI ID: CY013A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CY013A; EDDI ID: CY022A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CY022A; EDDI ID: CY055A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CY055A; EDDI ID: CY059A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=CY059A; EDDI ID: DT9999, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=DT9999; EDDI ID: EP001A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=EP001A; EDDI ID: EP023A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=EP023A; EDDI ID: EU060A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=EU060A; EDDI ID: EU9999, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=EU9999; EDDI ID: FR002A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=FR002A; EDDI ID: FR003A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=FR003A; EDDI ID: FR006A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=FR006A; EDDI ID: FR009A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=FR009A; EDDI ID: FR014B, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=FR014B; EDDI ID: FR042A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=FR042A; EDDI ID: FR056A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=FR056A; EDDI ID: FR060A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=FR060A; EDDI ID: FR064A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=FR064A; EDDI ID: FR066A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=FR066A; EDDI ID: FR9987M, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=FR9987M; EDDI ID: Frcape, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=Frcape; EDDI ID: GO020A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=GO020A; EDDI ID: GO029A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=GO029A; EDDI ID: GO050A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=GO050A; EDDI ID: NA001A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA001A; EDDI ID: NA005A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA005A; EDDI ID: NA009A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA009A; EDDI ID: NA013A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA013A; EDDI ID: NA021A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA021A; EDDI ID: NA028A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA028A; EDDI ID: NA042A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA042A; EDDI ID: NA051A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA051A; EDDI ID: NA054A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA054A; EDDI ID: NA057A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA057A; EDDI ID: NA058A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA058A; EDDI ID: NA066B, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA066B; EDDI ID: NA067A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA067A; EDDI ID: NA088A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA088A; EDDI ID: NA096A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA096A; EDDI ID: NA114A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA114A; EDDI ID: NA119A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA119A; EDDI ID: NA134A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA134A; EDDI ID: NA161A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA161A; EDDI ID: NA168A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA168A; EDDI ID: NA281A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA281A; EDDI ID: NA299A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA299A; EDDI ID: NA589A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA589A; EDDI ID: NA643A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA643A; EDDI ID: NA741A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA741A; EDDI ID: NA792A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NA792A; EDDI ID: NI9999, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=NI9999; EDDI ID: OP008A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=OP008A; EDDI ID: PI047A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=PI047A; EDDI ID: ST001A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=ST001A; EDDI ID: ST009A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=ST009A; EDDI ID: ST010A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=ST010A; EDDI ID: ST014A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=ST014A; EDDI ID: ST021A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=ST021A; EDDI ID: SY011B, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=SY011B; EDDI ID: TE003A, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=TE003A; EDDI ID: XXG919, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=XXG919; EDDI ID: XXG922, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=XXG922; EDDI ID: XXG930, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=XXG930; EDDI ID: XXG933, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=XXG933; EDDI ID: XXG934, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=XXG934; EDDI ID: XXG937, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=XXG937; EDDI ID: XXG938, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=XXG938; EDDI ID: XXG951, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=XXG951; EDDI ID: XXG966, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=XXG966; EDDI ID: XXG981, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=XXG981; EDDI ID: XXG995, http://craticula.ncl.ac.uk/Eddi/jsp/taxon.jsp?TaxonId=XXG995; Element analyser CHN, LECO; Epithemia adnata; Epithemia frickei; Epithemia sorex; Eunotia pirla; Eunotia sp.; F. bicapitata; F. biceps; F. brevistriata; F. capensis; F. capucina; F. construens; F. delicatissima; F. exigua; F. lanceolata; F. leptostauron; F. neoproducta; F. nitzschioides; F. pinnata; F. pseudoconstruens; F. tenera; Fragilaria bicapitata; Fragilaria biceps; Fragilaria brevistriata; Fragilaria capensis; Fragilaria capucina; Fragilaria construens; Fragilaria delicatissima; Fragilaria exigua; Fragilaria lanceolata; Fragilaria leptostauron; Fragilaria neoproducta; Fragilaria nitzschioides; Fragilaria pinnata; Fragilaria pseudoconstruens; Fragilaria tenera; G. affine; G. clavatum; G. minutiforme; G. minutum; G. parvulum; G. truncatum; Gomphonema affine; Gomphonema clavatum; Gomphonema minutiforme; Gomphonema minutum; Gomphonema parvulum; Gomphonema truncatum; including Stephanodiscus neoastraea; N. absoluta; N. accomoda; N. capitata; N. cari; N. cincta; N. clementioides; N. constans; N. costulata; N. crucicula; N. elgenensis; N. ignota; N. lanceolata; N. lesmonensis; N. menisculus; N. meniscus; N. minima; N. phyllepta; N. placentula; N. pseudocutiformis; N. pseudotuscula; N. pupula; N. scutelloides; N. seminulum; N. splendicula; N. striolata; N. subminuscula; N. subplacentula; N. subronstulata; N. tuscula; N. veneta; N. vitabunda; Navicula absoluta; Navicula accomoda; Navicula capitata; Navicula cari; Navicula cincta; Navicula clementioides; Navicula constans; Navicula costulata; Navicula crucicula; Navicula elgenensis; Navicula ignota; Navicula lanceolata; Navicula lesmonensis; Navicula menisculus; Navicula meniscus; Navicula minima; Navicula phyllepta; Navicula placentula; Navicula pseudocutiformis; Navicula pseudotuscula; Navicula pupula; Navicula scutelloides; Navicula seminulum; Navicula splendicula; Navicula striolata; Navicula subminuscula; Navicula subplacentula; Navicula subronstulata; Navicula tuscula; Navicula veneta; Navicula vitabunda; Nitrogen, total; Nitzschia sp.; O. olsenii; Opephora olsenii; P. intermedia; Pinnularia intermedia; S. alpinus; S. hantzschii; S. medius; S. minutulus; S. parvus; S. rotula; Stephanodiscus alpinus; Stephanodiscus hantzschii; Stephanodiscus medius; Stephanodiscus minutulus; Stephanodiscus parvus; Stephanodiscus rotula; T. emarginatus; T. flocculosa; T. glans; Tabellaria flocculosa; Tetracyclus emarginatus; Tetracyclus glans; TN; TOC; total; Ulnaria ulna
Tipo	Dataset

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