Abstract
Apatite fission-track analysis (AFTA) data in two Upper Jurassic core samples from the 231 m deep Blokelv-1 borehole, Jameson Land, East Greenland, combined with vitrinite reflectance data and regional AFTA data, define three palaeo-thermal episodes. We interpret localised early Eocene (55– 50 Ma) palaeotemperatures as representing localised early Eocene heating related to intrusive activity whereas we interpret late Eocene (40–35 Ma) and late Miocene (c. 10 Ma) palaeotemperatures as representing deeper burial followed by successive episodes of exhumation. For a palaeogeothermal gradient of 30°C/km and likely palaeo-surface temperatures, the late Eocene palaeotemperatures require that the Upper Jurassic marine section in the borehole was buried below a 2750 m thick cover of Upper Jurassic – Eocene rocks prior to the onset of late Eocene exhumation. As these sediments are now near outcrop at c. 200 m above sea level, they have been uplifted by at least 3 km since maximum burial during post-rift thermal subsidence. The results are consistent with estimates of rock uplift on Milne Land since the late Eocene and with interpretation of Ocean Drilling Program (ODP) data off South-East Greenland suggesting that mid-Cenozoic uplift of the margin triggered the marked influx of coarse clastic turbidites during the late Oligocene above a middle Eocene to upper Oligocene hiatus.
Highlights
Apatite fission-track analysis (AFTA) data in two Upper Jurassic core samples from the 231 m deep Blokelv-1 borehole, Jameson Land, East Greenland, combined with vitrinite reflectance data and regional AFTA data, define three palaeo-thermal episodes
On the basis of the discussion presented above, we interpret the palaeotemperature constraints derived from AFTA and vitrinite reflectance (VR) data in the Blokelv-1 borehole as representing the combined effects of deeper burial followed by successive episodes of exhumation in the late Eocene and Miocene, as well as localised early Eocene heating due either to contact heating or hydrothermal effects associated with intrusive activity
Three palaeo-thermal episodes affected the Upper Jurassic sediments penetrated by the Blokelv-1 borehole based on AFTA and VR data combined with regional AFTA data
Summary
PJ 1 cessfully drilled and cored the Blokelv-1 borehole in the central part of the basin (ground level 200 m above sea level; a.s.l.), targeting the Upper Jurassic prolific sourcerock interval of the Hareelv Formation (Bjerager et al 2018a, this volume). Land has undergone a less complex post-Jurassic history of uplift and erosion compared to regions to the south. Thermochronological data from the Jurassic sediments of the Jameson Land Basin presented here (see Mathiesen et al 2000; Hansen et al 2001) provide evidence of post-Jurassic burial and exhumation that is surprisingly similar to the region around Kangerlussuaq, to the south (Larsen & Saunders 1998; Brooks 2011; Bonow et al 2014; Japsen et al 2014). AFTA data from both samples provided highly reliable thermal history constraints
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