Biblioteca Digital

Nannofossil and planktic foraminiferal events of ODP Site 166-1006 sediments

**Autoria(s):** Kroon, Dick; Williams, Trevor; Pirmez, Carlos; Spezzaferri, Silvia; Sato, Tokiyuki; Wright, James D
Cobertura	MEDIAN LATITUDE: 24.399833 * MEDIAN LONGITUDE: -79.459133 * SOUTH-BOUND LATITUDE: 24.399800 * WEST-BOUND LONGITUDE: -79.459200 * NORTH-BOUND LATITUDE: 24.399850 * EAST-BOUND LONGITUDE: -79.459000 * DATE/TIME START: 1996-03-20T00:00:00 * DATE/TIME END: 1996-03-24T04:40:00
Data(s)	14/11/2000
Resumo	Detailed biostratigraphy in Site 1006 based on planktonic foraminifers and nannofossils shows large-scale sedimentation rate variability in the Florida Strait west of the Great Bahama Bank. A 'floating' cyclostratigraphy based mainly on resistivity logs and magnetic susceptibility data has been fixed to the biostratigraphy in the absence of magnetostratigraphy. The strongest orbital cycle present is the precessional beat, which is present in the borehole logs throughout the record. Counting the cycles resulted in an accurate time scale and thus a sedimentation rate time series. Spectral analysis of the sedimentation rate time series shows that the short-term cycle of eccentricity (~125 k.y.) and the long term cycle of eccentricity (~400 k.y.) are pervasive throughout the Miocene record, together with the long-term ~2-m.y. eccentricity cycle. The Great Bahama Bank produced pulses of shallow carbonate input once every precessional (sea level) cycle during the Miocene and perhaps two pulses per cycle in the early Pliocene. The amount of sediment exported in these pulses appears to be controlled by eccentricity modulation of the precessional amplitude and therefore the amplitude of the sea-level rise. Finally, an increase in sedimentation rate just after the Miocene/Pliocene boundary is attributed to a change in the location and strength of sediment drift currents in the Florida Strait due to reorganization of the currents following the closure of the Panama Isthmus.
Formato	application/zip, 6 datasets
Identificador	https://doi.pangaea.de/10.1594/PANGAEA.801833 doi:10.1594/PANGAEA.801833
Idioma(s)	en
Publicador	PANGAEA
Direitos	CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted
Fonte	Supplement to: Kroon, Dick; Williams, Trevor; Pirmez, Carlos; Spezzaferri, Silvia; Sato, Tokiyuki; Wright, James D (2000): Coupled early Pliocene-middle Miocene bio-cyclostratigraphy of Site 1006 reveals orbitally induced cyclicity patterns of Great Bahama Bank carbonate production. In: Swart, PK; Eberli, GP; Malone, MJ; Sarg, JF (eds.) Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 166, 1-12, doi:10.2973/odp.proc.sr.166.127.2000
Palavras-Chave	#Abundance estimate; after Curry, Shackleton, Richter, et al. (1995, doi:10.2973/odp.proc.ir.154.1995); Age model; Age model, Berggren et al (1995) BKSA95; Age model, optional; Age model opt; Ageprof dat des; Ageprofile Datum Description; bottom; C. chipolensis; C. nitida; Candeina nitida; Cassigerinella chipolensis; Comment; D. altispira; D. baroemoenensis; D. larmeui; Dentoglobigerina altispira; Dentoglobigerina baroemoenensis; Dentoglobigerina larmeui; Depth; Depth, composite; DEPTH, sediment/rock; Depth comp; F. fohsi; F. fohsi lobata; F. fohsi robusta; F. peripheroacuta; F. praefohsi; Fohsella fohsi; Fohsella fohsi lobata; Fohsella fohsi robusta; Fohsella peripheroacuta; Fohsella praefohsi; Foraminifera, planktic preservation; Foram plankt preserv; G. aemiliana; G. archeomenardii; G. birnageae; G. bulbosa; G. bulloides; G. cibaoensis; G. conglobatus; G. conomiozea; G. crassaformis; G. dehiscens; G. extremus; G. falconensis; G. hexagona; G. juanai; G. lenguaensis; G. margaritae; G. mediterranea; G. menardii; G. merotumida; G. obesa; G. obliquus; G. plesiotumida; G. praemenardii; G. praescitula; G. pseudopima; G. ruber; G. sacculifer; G. scitula; G. seigliei; G. siphonifera; G. sphericomiozea; G. suterae; G. trilobus; G. tumida; G. venezuelana; Globigerina bulbosa; Globigerina bulloides; Globigerina falconensis; Globigerina sp.; Globigerina venezuelana; Globigerinella obesa; Globigerinella siphonifera; Globigerinoides conglobatus; Globigerinoides extremus; Globigerinoides obliquus; Globigerinoides ruber; Globigerinoides sacculifer; Globigerinoides seigliei; Globigerinoides trilobus; Globoquadrina dehiscens; Globorotalia aemiliana; Globorotalia archeomenardii; Globorotalia birnageae; Globorotalia cibaoensis; Globorotalia conomiozea; Globorotalia crassaformis; Globorotalia juanai; Globorotalia lenguaensis; Globorotalia margaritae; Globorotalia mediterranea; Globorotalia menardii; Globorotalia merotumida; Globorotalia plesiotumida; Globorotalia praemenardii; Globorotalia praescitula; Globorotalia pseudopima; Globorotalia scitula; Globorotalia sphericomiozea; Globorotalia suterae; Globorotalia tumida; Globorotaloides hexagona; Heterohelicidae, triserial; Heterohelicidae tri; including globorotalia tumida; including neogloboquadrina dutertrei; including sphaeroidinellopsis dehiscens; Label; mbsf; N. acostaensis d; N. acostaensis s; N. dutertrei; N. humerosa; N. pachyderma; Nannofossil zone; Nannos zone; Neogloboquadrina acostaensis dextral; Neogloboquadrina acostaensis sinistral; Neogloboquadrina dutertrei; Neogloboquadrina humerosa; Neogloboquadrina pachyderma; O. universa; Ocean Drilling Program; ODP; ODP sample designation; Orbulina universa; P. christiani; P. mayeri; P. primalis; P. siakensis; Paragloborotalia mayeri; Paragloborotalia siakensis; Polyperibola christiani; Pulleniatina primalis; S. kochi; S. seminulina; S. subdehiscens; Sample code/label; Sphaeroidinellopsis kochi; Sphaeroidinellopsis seminulina; Sphaeroidinellopsis subdehiscens; Streptochilus spp.; T = top, B = base; T = top, B = bottom; top; Var. A; Z. decoraperta; Z. microstoma; Z. nepenthes; Z. woodi; Zeaglobigerina decoraperta; Zeaglobigerina microstoma; Zeaglobigerina nepenthes; Zeaglobigerina woodi
Tipo	Dataset

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