Add to ORKGThis paper reports the application of the X-ray image process of X-radiography to unopened, small diameter organic sediment cores containing thin tephra deposits. Second, a rapid technique for detecting tephra layers in peat samples by X-ray fluorescence (XRF) analysis is described
X-ray fluorescence (XRF) scanning of unlithified, untreated sediment cores is becoming an increasing...
Localized tephra deposition in marine sequences is the product of many complex primary and secondary...
We report a new approach to locate and quantify cryptotephra in sedimentary archives using a continu...
This paper reports the application of the X-ray image process of X-radiography to unopened, small di...
Peat bogs are highly effective archives for the preservation and detection of cryptotephra but the c...
International audienceWe describe the potential for high-resolution detection, observation and chemi...
Poster presented at ToScA 2015 (Tomography for Scientific Advancement conference) held at Manchester...
Peat cores collected from two ombrogenous bogs in the Waikato region of the North Island of New Zeal...
Abstract: Rapid, automatic scanning of reflectance variations along peat profiles from Corlea, centr...
Abstract We report a new approach to locate and quantify cryptotephra in sedimentary archives using ...
Understanding the taphonomy of tephra (volcanic ash) is crucial to the use of tephrochronology in pe...
Understanding the taphonomy of tephra (volcanic ash) is crucial to the use of tephrochronology in pe...
Tephrochronology uses recognizable volcanic ash layers (from airborne pyroclastic deposits, or tephr...
Tephrochronology uses recognizable volcanic ash layers (from airborne pyroclastic deposits, or tephr...
Tephrochronology uses recognizable volcanic ash layers (from airborne pyroclastic deposits, or tephr...
X-ray fluorescence (XRF) scanning of unlithified, untreated sediment cores is becoming an increasing...
Localized tephra deposition in marine sequences is the product of many complex primary and secondary...
We report a new approach to locate and quantify cryptotephra in sedimentary archives using a continu...
This paper reports the application of the X-ray image process of X-radiography to unopened, small di...
Peat bogs are highly effective archives for the preservation and detection of cryptotephra but the c...
International audienceWe describe the potential for high-resolution detection, observation and chemi...
Poster presented at ToScA 2015 (Tomography for Scientific Advancement conference) held at Manchester...
Peat cores collected from two ombrogenous bogs in the Waikato region of the North Island of New Zeal...
Abstract: Rapid, automatic scanning of reflectance variations along peat profiles from Corlea, centr...
Abstract We report a new approach to locate and quantify cryptotephra in sedimentary archives using ...
Understanding the taphonomy of tephra (volcanic ash) is crucial to the use of tephrochronology in pe...
Understanding the taphonomy of tephra (volcanic ash) is crucial to the use of tephrochronology in pe...
Tephrochronology uses recognizable volcanic ash layers (from airborne pyroclastic deposits, or tephr...
Tephrochronology uses recognizable volcanic ash layers (from airborne pyroclastic deposits, or tephr...
Tephrochronology uses recognizable volcanic ash layers (from airborne pyroclastic deposits, or tephr...
X-ray fluorescence (XRF) scanning of unlithified, untreated sediment cores is becoming an increasing...
Localized tephra deposition in marine sequences is the product of many complex primary and secondary...
We report a new approach to locate and quantify cryptotephra in sedimentary archives using a continu...