Add to ORKGNewly acquired sediment cores and high-resolution seismic lines were studied in order to constrain the timing and mechanism of pockmark formation in the Loppa High area in the southwestern Barents Sea. The evolution of the pockmarks after their formation was also investigated, together with the possibility that they are currently active features. The cores retrieved within the pockmarks lack a layer of ice-rafted debris and an overlying sequence of laminated glaciomarine sediments that were deposited on the undisturbed seafloor at the inception of the Bølling interstadial (~. 15. cal. kyr. BP). The pockmarks are suggested to have formed in that period, probably due to climate change-induced destabilisation of methane hydrates and the subseq...
The Barents Sea is a large epicontinental sea and petroliferous basin, which is fairly unexplored co...
Pockmarks in the Oslofjord, Norway, show no evidence of recent expulsion of gas or water, but have s...
Pockmarks in the Oslofjord, Norway, show no evidence of recent expulsion of gas or water, but have s...
Newly acquired sediment cores and high-resolution seismic lines were studied in order to constrain t...
The Barents Sea is an epicontinental shelf sea with a fragmented structure consisting of long fault ...
Seafloor pockmarks and subsurface chimney structures are common on the Norwegian continental margin ...
A pockmark field has been encountered in the northwestern Barents Sea, 50 km southeast of Hopen isla...
Over the last decade pockmarks have proven to be important seabed features that provideinformation a...
Pockmarks are seafloor craters usually formed during methane release on continental margins. Howeve...
Pockmarks are seafloor craters usually formed during methane release on continental margins. However...
Pockmarks are seafloor craters usually formed during methane release on continental margins. However...
Over the last decade pockmarks have proven to be important seabed features that provide information ...
The SW Barents Sea is a large hydrocarbon-prone epicontinental Sea comprised of a complex mosaic of ...
<b Digital seismic reflection (boomer) profiles of an active pockmark, in UK block 15/25, North S...
International audience18 Inactive pockmark.s of 100-200 m in diameter recently discovered on the Sou...
The Barents Sea is a large epicontinental sea and petroliferous basin, which is fairly unexplored co...
Pockmarks in the Oslofjord, Norway, show no evidence of recent expulsion of gas or water, but have s...
Pockmarks in the Oslofjord, Norway, show no evidence of recent expulsion of gas or water, but have s...
Newly acquired sediment cores and high-resolution seismic lines were studied in order to constrain t...
The Barents Sea is an epicontinental shelf sea with a fragmented structure consisting of long fault ...
Seafloor pockmarks and subsurface chimney structures are common on the Norwegian continental margin ...
A pockmark field has been encountered in the northwestern Barents Sea, 50 km southeast of Hopen isla...
Over the last decade pockmarks have proven to be important seabed features that provideinformation a...
Pockmarks are seafloor craters usually formed during methane release on continental margins. Howeve...
Pockmarks are seafloor craters usually formed during methane release on continental margins. However...
Pockmarks are seafloor craters usually formed during methane release on continental margins. However...
Over the last decade pockmarks have proven to be important seabed features that provide information ...
The SW Barents Sea is a large hydrocarbon-prone epicontinental Sea comprised of a complex mosaic of ...
<b Digital seismic reflection (boomer) profiles of an active pockmark, in UK block 15/25, North S...
International audience18 Inactive pockmark.s of 100-200 m in diameter recently discovered on the Sou...
The Barents Sea is a large epicontinental sea and petroliferous basin, which is fairly unexplored co...
Pockmarks in the Oslofjord, Norway, show no evidence of recent expulsion of gas or water, but have s...
Pockmarks in the Oslofjord, Norway, show no evidence of recent expulsion of gas or water, but have s...