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Bitterfeld Amber (Cottbus Fm., 25.5-23.5 Ma [min.])
Barrelcactusaddict posted a gallery image in Member Collections
From the album: Fossil Amber and Copal: Worldwide Localities
"Bitterfeld Amber" Goitzsche Opencast Mine Bitterfeld-Wolfen, Saxony-Anhalt State, Germany Friedersdorf and Zöckeritz Sub-Horizons Bernsteinschluff Horizon Cottbus Fm. (25.5-23.5 Ma [min.]) Specimen A (Clear): 2.7g / 33x21x19mm Lighting: 140lm LED The origin of Bitterfeld amber has been the subject of much serious study and debate, especially within the last couple decades; it was originally believed to be redeposited material from the northern Baltic amber deposits, based mainly on the similarity of insect inclusions, but also due to their similarity in visual appearance and hardness. Chemical analyses of the amber by different authors, has recently shown that Bitterfeld amber came from a botanical and geographical source different from that of Baltic amber. Botanical Source: Recent chemical analyses (especially FTIR and ToF-SIMS) have shown significant differences; Baltic amber generally contains higher concentrations of succinic and communic acids, while Bitterfeld amber contains more dehydroabietic acid. Due to the presence of a specific triterpenoid (allobetulane class), Bitterfeld amber is believed to have been produced by a member of the Betulaceae Family (Birch). Age: Bitterfeld and Baltic ambers’ levels of carbon and hydrogen isotopes are extremely similar, indicating they are roughly the same age; Bitterfeld amber is found in Late Oligocene strata, which is younger than that which Baltic amber is found in: Bitterfeld amber was redeposited from nearby sources, before it was deposited into its current geological Formation (Cottbus), and was believed to have been carried northward into a delta by river action. Geological Setting: Bitterfeld amber shares a similar geological setting to Siegburgite, which it is found in association with. The upper portion of the Cottbus Fm., host to the large amber and coal reserves, was formed during the late Oligocene: the North Sea ingressed an area between two stretches of land running NE to SW, and as sea levels fell, forests developed, laying down organic matter; sea levels rose, and covered the organic matter in marine sediments. Bitterfeld amber is found in the lignite-sand, and lignite-clay layers of the upper portion of the Cottbus Fm., which amber-bearing layers are situated beneath the Bitterfeld Main Coal Seam, and above the Breitenfeld Seam: these layers constitute the “Bernsteinschluff” master horizon, which contains the upper “Friedersdorf” and lower “Zöckeritz” sub-horizons, which are particularly rich in amber. Differing levels of hydrogen isotopes in Baltic and Bitterfeld ambers indicate distinct geographical sources. There was a minimum of 3-degrees latitude difference between the northernmost Bitterfeld amber forests and the southernmost Baltic amber forests. Mining History: The Goitzsche Mine originally began coal production around 1949, and in 1955 amber was discovered; active mining of this amber began in 1975 until the Goitzsche Opencast Mine finally closed in 1991. From 1991 to 1999, the Goitzsche became subject to reclamation efforts, which involved flooding the mine with water, which was conducted from the nearby Mulde River. On 4/13/2000, the reclaimed site officially became a public recreation area. Sources: "The First Fossil Cyphophthalmid (Arachnida: Opiliones), from Bitterfeld Amber, Germany"; Jason A., Gonzalo Giribet 2003 "Geography - Coal Mining in the Goitzsche/ The geology of the Goitzsche"; Europagymnasium Walther-Rathenau-Bitterfeld Comeniusprojekt "Die Bernsteinlagerstätte Bitterfeld, nur ein Höhepunkt des Vorkommens von Bernstein (Succinit) im Tertiär Mitteldeutschlands"; Fuhrman 2005 “Bitterfeld amber is not Baltic amber: Three geochemical tests and further constraints on the botanical affinities of succinate”; Review of Palaeobotany and Palynology; Wolfe, et. al. 2015 “Chemical and spectroscopic signatures of resins from Sumatra (Sarolangun mine, Jambi Province) and Germany (Bitterfeld, Saxony-Anhalt)”; Scientific Reports, Issue 10; Drzewicz, et. al. 2020 http://www.regionalgeologie-ost.de/Abb. 23.11 Halle-Merseburger Tertiaer.pdf?fbclid=IwAR0Rr9hVIGK28Bb2pzEcWxw3PG4TGS42HaKOS99vwcT8_ivqgi9EiclEWa0© Kaegen Lau
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- amber
- angiosperm
- (and 15 more)
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Bitterfeld Amber (Cottbus Fm., 25.5-23.5 Ma [min.])
Barrelcactusaddict posted a gallery image in Member Collections
From the album: Fossil Amber and Copal: Worldwide Localities
"Bitterfeld Amber" Goitzsche Opencast Mine Bitterfeld-Wolfen, Saxony-Anhalt State, Germany Friedersdorf and Zöckeritz Sub-Horizons Bernsteinschluff Horizon Cottbus Fm. (25.5-23.5 Ma [min.]) Specimen B (Run/Layered): 2.1g / 24x20x9mm Lighting: Longwave UV The origin of Bitterfeld amber has been the subject of much serious study and debate, especially within the last couple decades; it was originally believed to be redeposited material from the northern Baltic amber deposits, based mainly on the similarity of insect inclusions, but also due to their similarity in visual appearance and hardness. Chemical analyses of the amber by different authors, has recently shown that Bitterfeld amber came from a botanical and geographical source different from that of Baltic amber. Botanical Source: Recent chemical analyses (especially FTIR and ToF-SIMS) have shown significant differences; Baltic amber generally contains higher concentrations of succinic and communic acids, while Bitterfeld amber contains more dehydroabietic acid. Due to the presence of a specific triterpenoid (allobetulane class), Bitterfeld amber is believed to have been produced by a member of the Betulaceae Family (Birch). Age: Bitterfeld and Baltic ambers’ levels of carbon and hydrogen isotopes are extremely similar, indicating they are roughly the same age; Bitterfeld amber is found in Late Oligocene strata, which is younger than that which Baltic amber is found in: Bitterfeld amber was redeposited from nearby sources, before it was deposited into its current geological Formation (Cottbus), and was believed to have been carried northward into a delta by river action. Geological Setting: Bitterfeld amber shares a similar geological setting to Siegburgite, which it is found in association with. The upper portion of the Cottbus Fm., host to the large amber and coal reserves, was formed during the late Oligocene: the North Sea ingressed an area between two stretches of land running NE to SW, and as sea levels fell, forests developed, laying down organic matter; sea levels rose, and covered the organic matter in marine sediments. Bitterfeld amber is found in the lignite-sand, and lignite-clay layers of the upper portion of the Cottbus Fm., which amber-bearing layers are situated beneath the Bitterfeld Main Coal Seam, and above the Breitenfeld Seam: these layers constitute the “Bernsteinschluff” master horizon, which contains the upper “Friedersdorf” and lower “Zöckeritz” sub-horizons, which are particularly rich in amber. Differing levels of hydrogen isotopes in Baltic and Bitterfeld ambers indicate distinct geographical sources. There was a minimum of 3-degrees latitude difference between the northernmost Bitterfeld amber forests and the southernmost Baltic amber forests. Mining History: The Goitzsche Mine originally began coal production around 1949, and in 1955 amber was discovered; active mining of this amber began in 1975 until the Goitzsche Opencast Mine finally closed in 1991. From 1991 to 1999, the Goitzsche became subject to reclamation efforts, which involved flooding the mine with water, which was conducted from the nearby Mulde River. On 4/13/2000, the reclaimed site officially became a public recreation area. Sources: "The First Fossil Cyphophthalmid (Arachnida: Opiliones), from Bitterfeld Amber, Germany"; Jason A., Gonzalo Giribet 2003 "Geography - Coal Mining in the Goitzsche/ The geology of the Goitzsche"; Europagymnasium Walther-Rathenau-Bitterfeld Comeniusprojekt "Die Bernsteinlagerstätte Bitterfeld, nur ein Höhepunkt des Vorkommens von Bernstein (Succinit) im Tertiär Mitteldeutschlands"; Fuhrman 2005 “Bitterfeld amber is not Baltic amber: Three geochemical tests and further constraints on the botanical affinities of succinate”; Review of Palaeobotany and Palynology; Wolfe, et. al. 2015 “Chemical and spectroscopic signatures of resins from Sumatra (Sarolangun mine, Jambi Province) and Germany (Bitterfeld, Saxony-Anhalt)”; Scientific Reports, Issue 10; Drzewicz, et. al. 2020 http://www.regionalgeologie-ost.de/Abb. 23.11 Halle-Merseburger Tertiaer.pdf?fbclid=IwAR0Rr9hVIGK28Bb2pzEcWxw3PG4TGS42HaKOS99vwcT8_ivqgi9EiclEWa0© Kaegen Lau
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- amber
- angiosperm
- (and 15 more)
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Bitterfeld Amber (Cottbus Fm., 25.5-23.5 Ma [min.])
Barrelcactusaddict posted a gallery image in Member Collections
From the album: Fossil Amber and Copal: Worldwide Localities
"Bitterfeld Amber" Goitzsche Opencast Mine Bitterfeld-Wolfen, Saxony-Anhalt State, Germany Friedersdorf and Zöckeritz Sub-Horizons Bernsteinschluff Horizon Cottbus Fm. (25.5-23.5 Ma [min.]) Specimen C (Bubbles): 3.5g / 29x22x12mm Lighting: Longwave UV The origin of Bitterfeld amber has been the subject of much serious study and debate, especially within the last couple decades; it was originally believed to be redeposited material from the northern Baltic amber deposits, based mainly on the similarity of insect inclusions, but also due to their similarity in visual appearance and hardness. Chemical analyses of the amber by different authors, has recently shown that Bitterfeld amber came from a botanical and geographical source different from that of Baltic amber. Botanical Source: Recent chemical analyses (especially FTIR and ToF-SIMS) have shown significant differences; Baltic amber generally contains higher concentrations of succinic and communic acids, while Bitterfeld amber contains more dehydroabietic acid. Due to the presence of a specific triterpenoid (allobetulane class), Bitterfeld amber is believed to have been produced by a member of the Betulaceae Family (Birch). Age: Bitterfeld and Baltic ambers’ levels of carbon and hydrogen isotopes are extremely similar, indicating they are roughly the same age; Bitterfeld amber is found in Late Oligocene strata, which is younger than that which Baltic amber is found in: Bitterfeld amber was redeposited from nearby sources, before it was deposited into its current geological Formation (Cottbus), and was believed to have been carried northward into a delta by river action. Geological Setting: Bitterfeld amber shares a similar geological setting to Siegburgite, which it is found in association with. The upper portion of the Cottbus Fm., host to the large amber and coal reserves, was formed during the late Oligocene: the North Sea ingressed an area between two stretches of land running NE to SW, and as sea levels fell, forests developed, laying down organic matter; sea levels rose, and covered the organic matter in marine sediments. Bitterfeld amber is found in the lignite-sand, and lignite-clay layers of the upper portion of the Cottbus Fm., which amber-bearing layers are situated beneath the Bitterfeld Main Coal Seam, and above the Breitenfeld Seam: these layers constitute the “Bernsteinschluff” master horizon, which contains the upper “Friedersdorf” and lower “Zöckeritz” sub-horizons, which are particularly rich in amber. Differing levels of hydrogen isotopes in Baltic and Bitterfeld ambers indicate distinct geographical sources. There was a minimum of 3-degrees latitude difference between the northernmost Bitterfeld amber forests and the southernmost Baltic amber forests. Mining History: The Goitzsche Mine originally began coal production around 1949, and in 1955 amber was discovered; active mining of this amber began in 1975 until the Goitzsche Opencast Mine finally closed in 1991. From 1991 to 1999, the Goitzsche became subject to reclamation efforts, which involved flooding the mine with water, which was conducted from the nearby Mulde River. On 4/13/2000, the reclaimed site officially became a public recreation area. Sources: "The First Fossil Cyphophthalmid (Arachnida: Opiliones), from Bitterfeld Amber, Germany"; Jason A., Gonzalo Giribet 2003 "Geography - Coal Mining in the Goitzsche/ The geology of the Goitzsche"; Europagymnasium Walther-Rathenau-Bitterfeld Comeniusprojekt "Die Bernsteinlagerstätte Bitterfeld, nur ein Höhepunkt des Vorkommens von Bernstein (Succinit) im Tertiär Mitteldeutschlands"; Fuhrman 2005 “Bitterfeld amber is not Baltic amber: Three geochemical tests and further constraints on the botanical affinities of succinate”; Review of Palaeobotany and Palynology; Wolfe, et. al. 2015 “Chemical and spectroscopic signatures of resins from Sumatra (Sarolangun mine, Jambi Province) and Germany (Bitterfeld, Saxony-Anhalt)”; Scientific Reports, Issue 10; Drzewicz, et. al. 2020 http://www.regionalgeologie-ost.de/Abb. 23.11 Halle-Merseburger Tertiaer.pdf?fbclid=IwAR0Rr9hVIGK28Bb2pzEcWxw3PG4TGS42HaKOS99vwcT8_ivqgi9EiclEWa0© Kaegen Lau
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- amber
- angiosperm
- (and 15 more)
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Bitterfeld Amber (Cottbus Fm., 25.5-23.5 Ma [min.])
Barrelcactusaddict posted a gallery image in Member Collections
From the album: Fossil Amber and Copal: Worldwide Localities
"Bitterfeld Amber" Goitzsche Opencast Mine Bitterfeld-Wolfen, Saxony-Anhalt State, Germany Friedersdorf and Zöckeritz Sub-Horizons Bernsteinschluff Horizon Cottbus Fm. (25.5-23.5 Ma [min.]) Specimen B (Run/Layered): 2.1g / 24x20x9mm Lighting: 140lm LED The origin of Bitterfeld amber has been the subject of much serious study and debate, especially within the last couple decades; it was originally believed to be redeposited material from the northern Baltic amber deposits, based mainly on the similarity of insect inclusions, but also due to their similarity in visual appearance and hardness. Chemical analyses of the amber by different authors, has recently shown that Bitterfeld amber came from a botanical and geographical source different from that of Baltic amber. Botanical Source: Recent chemical analyses (especially FTIR and ToF-SIMS) have shown significant differences; Baltic amber generally contains higher concentrations of succinic and communic acids, while Bitterfeld amber contains more dehydroabietic acid. Due to the presence of a specific triterpenoid (allobetulane class), Bitterfeld amber is believed to have been produced by a member of the Betulaceae Family (Birch). Age: Bitterfeld and Baltic ambers’ levels of carbon and hydrogen isotopes are extremely similar, indicating they are roughly the same age; Bitterfeld amber is found in Late Oligocene strata, which is younger than that which Baltic amber is found in: Bitterfeld amber was redeposited from nearby sources, before it was deposited into its current geological Formation (Cottbus), and was believed to have been carried northward into a delta by river action. Geological Setting: Bitterfeld amber shares a similar geological setting to Siegburgite, which it is found in association with. The upper portion of the Cottbus Fm., host to the large amber and coal reserves, was formed during the late Oligocene: the North Sea ingressed an area between two stretches of land running NE to SW, and as sea levels fell, forests developed, laying down organic matter; sea levels rose, and covered the organic matter in marine sediments. Bitterfeld amber is found in the lignite-sand, and lignite-clay layers of the upper portion of the Cottbus Fm., which amber-bearing layers are situated beneath the Bitterfeld Main Coal Seam, and above the Breitenfeld Seam: these layers constitute the “Bernsteinschluff” master horizon, which contains the upper “Friedersdorf” and lower “Zöckeritz” sub-horizons, which are particularly rich in amber. Differing levels of hydrogen isotopes in Baltic and Bitterfeld ambers indicate distinct geographical sources. There was a minimum of 3-degrees latitude difference between the northernmost Bitterfeld amber forests and the southernmost Baltic amber forests. Mining History: The Goitzsche Mine originally began coal production around 1949, and in 1955 amber was discovered; active mining of this amber began in 1975 until the Goitzsche Opencast Mine finally closed in 1991. From 1991 to 1999, the Goitzsche became subject to reclamation efforts, which involved flooding the mine with water, which was conducted from the nearby Mulde River. On 4/13/2000, the reclaimed site officially became a public recreation area. Sources: "The First Fossil Cyphophthalmid (Arachnida: Opiliones), from Bitterfeld Amber, Germany"; Jason A., Gonzalo Giribet 2003 "Geography - Coal Mining in the Goitzsche/ The geology of the Goitzsche"; Europagymnasium Walther-Rathenau-Bitterfeld Comeniusprojekt "Die Bernsteinlagerstätte Bitterfeld, nur ein Höhepunkt des Vorkommens von Bernstein (Succinit) im Tertiär Mitteldeutschlands"; Fuhrman 2005 “Bitterfeld amber is not Baltic amber: Three geochemical tests and further constraints on the botanical affinities of succinate”; Review of Palaeobotany and Palynology; Wolfe, et. al. 2015 “Chemical and spectroscopic signatures of resins from Sumatra (Sarolangun mine, Jambi Province) and Germany (Bitterfeld, Saxony-Anhalt)”; Scientific Reports, Issue 10; Drzewicz, et. al. 2020 http://www.regionalgeologie-ost.de/Abb. 23.11 Halle-Merseburger Tertiaer.pdf?fbclid=IwAR0Rr9hVIGK28Bb2pzEcWxw3PG4TGS42HaKOS99vwcT8_ivqgi9EiclEWa0© Kaegen Lau
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- amber
- angiosperm
- (and 15 more)
-
Bitterfeld Amber (Cottbus Fm., 25.5-23.5 Ma [min.])
Barrelcactusaddict posted a gallery image in Member Collections
From the album: Fossil Amber and Copal: Worldwide Localities
"Bitterfeld Amber" Goitzsche Opencast Mine Bitterfeld-Wolfen, Saxony-Anhalt State, Germany Friedersdorf and Zöckeritz Sub-Horizons Bernsteinschluff Horizon Cottbus Fm. (25.5-23.5 Ma [min.]) Specimen A (Clear): 2.7g / 33x21x19mm Lighting: 140lm LED The origin of Bitterfeld amber has been the subject of much serious study and debate, especially within the last couple decades; it was originally believed to be redeposited material from the northern Baltic amber deposits, based mainly on the similarity of insect inclusions, but also due to their similarity in visual appearance and hardness. Chemical analyses of the amber by different authors, has recently shown that Bitterfeld amber came from a botanical and geographical source different from that of Baltic amber. Botanical Source: Recent chemical analyses (especially FTIR and ToF-SIMS) have shown significant differences; Baltic amber generally contains higher concentrations of succinic and communic acids, while Bitterfeld amber contains more dehydroabietic acid. Due to the presence of a specific triterpenoid (allobetulane class), Bitterfeld amber is believed to have been produced by a member of the Betulaceae Family (Birch). Age: Bitterfeld and Baltic ambers’ levels of carbon and hydrogen isotopes are extremely similar, indicating they are roughly the same age; Bitterfeld amber is found in Late Oligocene strata, which is younger than that which Baltic amber is found in: Bitterfeld amber was redeposited from nearby sources, before it was deposited into its current geological Formation (Cottbus), and was believed to have been carried northward into a delta by river action. Geological Setting: Bitterfeld amber shares a similar geological setting to Siegburgite, which it is found in association with. The upper portion of the Cottbus Fm., host to the large amber and coal reserves, was formed during the late Oligocene: the North Sea ingressed an area between two stretches of land running NE to SW, and as sea levels fell, forests developed, laying down organic matter; sea levels rose, and covered the organic matter in marine sediments. Bitterfeld amber is found in the lignite-sand, and lignite-clay layers of the upper portion of the Cottbus Fm., which amber-bearing layers are situated beneath the Bitterfeld Main Coal Seam, and above the Breitenfeld Seam: these layers constitute the “Bernsteinschluff” master horizon, which contains the upper “Friedersdorf” and lower “Zöckeritz” sub-horizons, which are particularly rich in amber. Differing levels of hydrogen isotopes in Baltic and Bitterfeld ambers indicate distinct geographical sources. There was a minimum of 3-degrees latitude difference between the northernmost Bitterfeld amber forests and the southernmost Baltic amber forests. Mining History: The Goitzsche Mine originally began coal production around 1949, and in 1955 amber was discovered; active mining of this amber began in 1975 until the Goitzsche Opencast Mine finally closed in 1991. From 1991 to 1999, the Goitzsche became subject to reclamation efforts, which involved flooding the mine with water, which was conducted from the nearby Mulde River. On 4/13/2000, the reclaimed site officially became a public recreation area. Sources: "The First Fossil Cyphophthalmid (Arachnida: Opiliones), from Bitterfeld Amber, Germany"; Jason A., Gonzalo Giribet 2003 "Geography - Coal Mining in the Goitzsche/ The geology of the Goitzsche"; Europagymnasium Walther-Rathenau-Bitterfeld Comeniusprojekt "Die Bernsteinlagerstätte Bitterfeld, nur ein Höhepunkt des Vorkommens von Bernstein (Succinit) im Tertiär Mitteldeutschlands"; Fuhrman 2005 “Bitterfeld amber is not Baltic amber: Three geochemical tests and further constraints on the botanical affinities of succinate”; Review of Palaeobotany and Palynology; Wolfe, et. al. 2015 “Chemical and spectroscopic signatures of resins from Sumatra (Sarolangun mine, Jambi Province) and Germany (Bitterfeld, Saxony-Anhalt)”; Scientific Reports, Issue 10; Drzewicz, et. al. 2020 http://www.regionalgeologie-ost.de/Abb. 23.11 Halle-Merseburger Tertiaer.pdf?fbclid=IwAR0Rr9hVIGK28Bb2pzEcWxw3PG4TGS42HaKOS99vwcT8_ivqgi9EiclEWa0© Kaegen Lau
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- amber
- angiosperm
- (and 15 more)
-
Bitterfeld Amber (Cottbus Fm., 25.5-23.5 Ma [min.])
Barrelcactusaddict posted a gallery image in Member Collections
From the album: Fossil Amber and Copal: Worldwide Localities
"Bitterfeld Amber" Goitzsche Opencast Mine Bitterfeld-Wolfen, Saxony-Anhalt State, Germany Friedersdorf and Zöckeritz Sub-Horizons Bernsteinschluff Horizon Cottbus Fm. (25.5-23.5 Ma [min.]) Specimen C (Bubbles): 3.5g / 29x22x12mm Lighting: 140lm LED The origin of Bitterfeld amber has been the subject of much serious study and debate, especially within the last couple decades; it was originally believed to be redeposited material from the northern Baltic amber deposits, based mainly on the similarity of insect inclusions, but also due to their similarity in visual appearance and hardness. Chemical analyses of the amber by different authors, has recently shown that Bitterfeld amber came from a botanical and geographical source different from that of Baltic amber. Botanical Source: Recent chemical analyses (especially FTIR and ToF-SIMS) have shown significant differences; Baltic amber generally contains higher concentrations of succinic and communic acids, while Bitterfeld amber contains more dehydroabietic acid. Due to the presence of a specific triterpenoid (allobetulane class), Bitterfeld amber is believed to have been produced by a member of the Betulaceae Family (Birch). Age: Bitterfeld and Baltic ambers’ levels of carbon and hydrogen isotopes are extremely similar, indicating they are roughly the same age; Bitterfeld amber is found in Late Oligocene strata, which is younger than that which Baltic amber is found in: Bitterfeld amber was redeposited from nearby sources, before it was deposited into its current geological Formation (Cottbus), and was believed to have been carried northward into a delta by river action. Geological Setting: Bitterfeld amber shares a similar geological setting to Siegburgite, which it is found in association with. The upper portion of the Cottbus Fm., host to the large amber and coal reserves, was formed during the late Oligocene: the North Sea ingressed an area between two stretches of land running NE so SW, and as sea levels fell, forests developed, laying down organic matter; sea levels rose, and covered the organic matter in marine sediments. Bitterfeld amber is found in the lignite-sand, and lignite-clay layers of the upper portion of the Cottbus Fm., which amber-bearing layers are situated beneath the Bitterfeld Main Coal Seam, and above the Breitenfeld Seam: these layers constitute the “Bernsteinschluff” master horizon, which contains the upper “Friedersdorf” and lower “Zöckeritz” sub-horizons, which are particularly rich in amber. Differing levels of hydrogen isotopes in Baltic and Bitterfeld ambers indicate distinct geographical sources. There was a minimum of 3-degrees latitude difference between the northernmost Bitterfeld amber forests and the southernmost Baltic amber forests. Mining History: The Goitzsche Mine originally began coal production around 1949, and in 1955 amber was discovered; active mining of this amber began in 1975 until the Goitzsche Opencast Mine finally closed in 1991. From 1991 to 1999,the Goitzsche became subject to reclamation efforts, which involved flooding the mine with water, which was conducted from the nearby Mulde River. On 4/13/2000, the reclaimed site officially became a public recreation area. Sources: "The First Fossil Cyphophthalmid (Arachnida: Opiliones), from Bitterfeld Amber, Germany"; Jason A., Gonzalo Giribet 2003 "Geography - Coal Mining in the Goitzsche/ The geology of the Goitzsche"; Europagymnasium Walther-Rathenau-Bitterfeld Comeniusprojekt "Die Bernsteinlagerstätte Bitterfeld, nur ein Höhepunkt des Vorkommens von Bernstein (Succinit) im Tertiär Mitteldeutschlands"; Fuhrman 2005 “Bitterfeld amber is not Baltic amber: Three geochemical tests and further constraints on the botanical affinities of succinate”; Review of Palaeobotany and Palynology; Wolfe, et. al. 2015 “Chemical and spectroscopic signatures of resins from Sumatra (Sarolangun mine, Jambi Province) and Germany (Bitterfeld, Saxony-Anhalt)”; Scientific Reports, Issue 10; Drzewicz, et. al. 2020 http://www.regionalgeologie-ost.de/Abb. 23.11 Halle-Merseburger Tertiaer.pdf?fbclid=IwAR0Rr9hVIGK28Bb2pzEcWxw3PG4TGS42HaKOS99vwcT8_ivqgi9EiclEWa0© Kaegen Lau
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- amber
- angiosperm
- (and 15 more)
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Siegburgite (Cottbus Fm., 25.5-23.5 Ma [min.])
Barrelcactusaddict posted a gallery image in Member Collections
From the album: Fossil Amber and Copal: Worldwide Localities
"Siegburgite" Goitzsche Opencast Mine Bitterfeld-Wolfen, Saxony-Anhalt State, Germany Bernsteinschluff Horizon Cottbus Fm. (25.5-23.5 Ma [min.]) Chemical Composition: C: 81.37%, H: 5.26%, O: 13.37%, Cinnamic Acid: 0.0073% Specimen A (Top Left): 0.4g / 14x12x6mm Specimen B (Top Right): 0.5g / 14x14x8mm Specimen C (Bottom Left): 0.3g / 14x12x4mm Specimen D (Bottom Right): 0.2g / 13x10x4mm *I did not take a photograph of these specimens under longwave UV, due to the fluorescent response of Siegburgite being so weak; they fluoresce a dull burgundy. Siegburgite is referred to as an "accessory resin", but is considered a true amber. It occurs alongside several other accessory resin species, as well as the more well-known Bitterfeld amber. Siegburgite is a fascinating amber, and is one of the few fossil resins classified as a Class III resin; it is essentially a natural polystyrene, found as concretions where it is a binding agent to fine sand and mica: the sand is often evenly distributed, and is variable in proportion to the resin, occasionally more than 60%. Siegburgite is highly flammable. Siegburgite was produced by a plant of the genus Liquidambar (Hamamelidaceae Family, also commonly known as the "witch-hazel" family): within the fresh resin, known as storax or copalm balsam, cinnamic acid and esters quickly decarboxylate (chemical reaction that removes a carboxyl group, and releases carbon dioxide), forming styrene; upon its burial, the newly-formed styrene underwent polymerization over tens of millions of years, as it became polystyrene. It is found in the lignite (German: "Braunkohle"), lignite-sand, and lignite-clay layers of the upper portion of the Cottbus Formation; Bitterfeld amber is also found within this Formation. The amber- and accessory resin-bearing layers are situated beneath the Bitterfeld Main Coal Seam, and above the Breitenfeld Seam. The Goitzsche Mine, from which Siegburgite and other fossil resins were obtained, opened in 1949 and closed in 1991. Sources: "Siegburgite, a new Fossil Resin."; Jahrbuch für Mineralogie 1875; pp. 128-133; A. V. Lasaulx "Roman Amber Identified as Siegburgite"; p. 12; Dietz, Catanzariti, Quintero, Jimeno 2013 "The System of Mineralogy of James Dwight Dana 1837-1868: Descriptive Mineralogy"; p. 1005; Dana 1892 "Biology of Amber-Producing Trees: Focus on Case Studies of Hymenaea and Agathis"; p. 9; Jean H. Langenheim 1995 "The First Fossil Cyphophthalmid (Arachnida: Opiliones), from Bitterfeld Amber, Germany"; Jason A., Gonzalo Giribet 2003 "Geography - Coal Mining in the Goitzsche/ The geology of the Goitzsche"; Europagymnasium Walther-Rathenau-Bitterfeld Comeniusprojekt "Die Bernsteinlagerstätte Bitterfeld, nur ein Höhepunkt des Vorkommens von Bernstein (Succinit) im Tertiär Mitteldeutschlands"; Fuhrman 2005 http://www.regionalgeologie-ost.de/Abb. 23.11 Halle-Merseburger Tertiaer.pdf?fbclid=IwAR1RiYz3wsaHe-k20RnzaZv4jZt29VpR9oxrndNKKQ7ueDaygvpPC4peqVQ© Kaegen Lau
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- accessory resin
- amber
- (and 13 more)