Add to ORKGThe molecular composition of fossil resin from the Eocene Ameki Formation, southern Nigeria has been analyzed by infrared spectroscopy, pyrolysisgas chromatographymass spectrometry and thermochemolysis gas chromatographymass spectrometry to determine the structural class and botanical source of the resin. The pyrolysis products were dominated by bicyclic products derived from regular labdatriene structure and lacked succinic acid indicating Class Ib type amber. The biomarker compositions in the pyrolysates are dominated by sesquiterpenoids of the cadinane and bisabolane classes that are common constituents of higher plants and labdane type diterpenoids. The exclusive presence of labdane type diterpenoids and the absence of higher plant t...
Fossil resins from the Cretaceous sediments of Meghalaya, India and Kachin, Myanmar (Burma) were ana...
The presence of amber, the fossil form of the resins produced by many types of higher plants, has be...
Abstract Upper Cretaceous amber from the Raritan Formation (Sayerville, New Jersey) has been investi...
The molecular composition of fossil resin from the Eocene Ameki Formation, southern Nigeria has been...
A recently discovered fossil resin from Koroglu Mountain in Turkey has been analyzed by gas chromato...
International audienceThe molecular composition of 10 Cretaceous andone Eocene ambers from France wa...
The molecular composition of 10 Cretaceous and one Eocene ambers from France was analyzed by infrare...
The molecular composition of fossil resins from early to middle Eocene coal from northeast India, ha...
International audienceThe Cheirolepidiaceae is an extinct family of conifers which was very common i...
The terpenoid composition of well-preserved fresh and oxidized fossil resins (ambers) from Early Pal...
The terpenoid composition of fossil resin from the Cape York Peninsula, Australia has been analysed ...
Ambers are well known and abundant in terrestrial sediments all over the world; however, due largely...
Chemical analysis of amber, copal, and resin is a valuable tool for interpreting the botanic origin ...
International audienceAbout 400 different amber outcrops have been found in Lebanon, which are dated...
Terpenoids are common constituents of the resins higher plants and they are useful chemosystematic c...
Fossil resins from the Cretaceous sediments of Meghalaya, India and Kachin, Myanmar (Burma) were ana...
The presence of amber, the fossil form of the resins produced by many types of higher plants, has be...
Abstract Upper Cretaceous amber from the Raritan Formation (Sayerville, New Jersey) has been investi...
The molecular composition of fossil resin from the Eocene Ameki Formation, southern Nigeria has been...
A recently discovered fossil resin from Koroglu Mountain in Turkey has been analyzed by gas chromato...
International audienceThe molecular composition of 10 Cretaceous andone Eocene ambers from France wa...
The molecular composition of 10 Cretaceous and one Eocene ambers from France was analyzed by infrare...
The molecular composition of fossil resins from early to middle Eocene coal from northeast India, ha...
International audienceThe Cheirolepidiaceae is an extinct family of conifers which was very common i...
The terpenoid composition of well-preserved fresh and oxidized fossil resins (ambers) from Early Pal...
The terpenoid composition of fossil resin from the Cape York Peninsula, Australia has been analysed ...
Ambers are well known and abundant in terrestrial sediments all over the world; however, due largely...
Chemical analysis of amber, copal, and resin is a valuable tool for interpreting the botanic origin ...
International audienceAbout 400 different amber outcrops have been found in Lebanon, which are dated...
Terpenoids are common constituents of the resins higher plants and they are useful chemosystematic c...
Fossil resins from the Cretaceous sediments of Meghalaya, India and Kachin, Myanmar (Burma) were ana...
The presence of amber, the fossil form of the resins produced by many types of higher plants, has be...
Abstract Upper Cretaceous amber from the Raritan Formation (Sayerville, New Jersey) has been investi...