+33 490 162 042 Call us
Facebook About us Français

Search result Flysch

  • Page
  • / 2

86 pictures found

Helminthoid flysch, Traces of fossil activity characteristic of flysch in the Embrun region, Vallon du Rabioux, Ecrins National Park, Hautes Alpes, FranceHelminthoid flysch, Traces of fossil activity characteristic of flysch in the Embrun region, Vallon du Rabioux, Ecrins National Park, Hautes Alpes, FranceHelminthoid flysch, Traces of fossil activity characteristic of flysch in the Embrun region, Vallon du Rabioux, Ecrins National Park, Hautes Alpes, France© Jean-Philippe Delobelle / BiosphotoJPG - RM

2446309

Helminthoid flysch, Traces of fossil activity characteristic of

RMRight Managed

JPG

LightboxDownload low resolution image

Flysch from Pic de Goléon, the Aiguille du Goléon is a pyramid cut entirely in the nummulitic flysch, Ecrins National Park, north of La Grave, Alps, FranceFlysch from Pic de Goléon, the Aiguille du Goléon is a pyramid cut entirely in the nummulitic flysch, Ecrins National Park, north of La Grave, Alps, FranceFlysch from Pic de Goléon, the Aiguille du Goléon is a pyramid cut entirely in the nummulitic flysch, Ecrins National Park, north of La Grave, Alps, France© Jean-Philippe Delobelle / BiosphotoJPG - RM

2446307

Flysch from Pic de Goléon, the Aiguille du Goléon is a pyramid

RMRight Managed

JPG

LightboxDownload low resolution image

Flyschs (clay limestone) erupted by frost and sun, Samoëns, Haute-Savoie, Alps, FranceFlyschs (clay limestone) erupted by frost and sun, Samoëns, Haute-Savoie, Alps, FranceFlyschs (clay limestone) erupted by frost and sun, Samoëns, Haute-Savoie, Alps, France© Michel Rauch / BiosphotoJPG - RM

2444148

Flyschs (clay limestone) erupted by frost and sun, Samoëns,

RMRight Managed

JPG

LightboxDownload low resolution image

Spectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, PortugalSpectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, PortugalSpectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, Portugal© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437622

Spectacular flysch formations in southern Portugal, The flysch

RMRight Managed

JPG

LightboxDownload low resolution image

Spectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, PortugalSpectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, PortugalSpectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, Portugal© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437621

Spectacular flysch formations in southern Portugal, The flysch

RMRight Managed

JPG

LightboxDownload low resolution image

Spectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, PortugalSpectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, PortugalSpectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, Portugal© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437620

Spectacular flysch formations in southern Portugal, The flysch

RMRight Managed

JPG

LightboxDownload low resolution image

Spectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, PortugalSpectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, PortugalSpectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, Portugal© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437619

Spectacular flysch formations in southern Portugal, The flysch

RMRight Managed

JPG

LightboxDownload low resolution image

Spectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, PortugalSpectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, PortugalSpectacular flysch formations in southern Portugal, The flysch result from repeated submarine avalanches over millions of years, depositing alternating strata of limestone, marl and sandstone, Praia de Amoreira, Portugal© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437618

Spectacular flysch formations in southern Portugal, The flysch

RMRight Managed

JPG

LightboxDownload low resolution image

Natural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrowsNatural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrowsNatural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437390

Natural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel

RMRight Managed

JPG

LightboxDownload low resolution image

Natural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrowsNatural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrowsNatural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437389

Natural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel

RMRight Managed

JPG

LightboxDownload low resolution image

Natural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrowsNatural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrowsNatural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437388

Natural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel

RMRight Managed

JPG

LightboxDownload low resolution image

Natural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrowsNatural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrowsNatural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated then sculpted by erosion - the hollow spheres are probably remains of paramoudra, concretions around worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437387

Natural Sculptures (Geoforms) in Jaizkibel Sandstone, Jaizkibel

RMRight Managed

JPG

LightboxDownload low resolution image

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437386

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque

RMRight Managed

JPG

LightboxDownload low resolution image

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437385

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque

RMRight Managed

JPG

LightboxDownload low resolution image

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437384

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque

RMRight Managed

JPG

LightboxDownload low resolution image

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437383

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque

RMRight Managed

JPG

LightboxDownload low resolution image

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437382

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque

RMRight Managed

JPG

LightboxDownload low resolution image

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437381

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque

RMRight Managed

JPG

LightboxDownload low resolution image

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437380

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque

RMRight Managed

JPG

LightboxDownload low resolution image

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrowsGeoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque Country, Spain. Remarkable sculptures of Eocene sandstone (geoforms) of origin in part biological (fossil biological activities) and updated by erosion - the yellow discs are undoubtedly remains of paramoudra, concretions around the worm burrows© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437379

Geoforms in Jaizkibel Sandstone, Jaizkibel Coastal Massif, Basque

RMRight Managed

JPG

LightboxDownload low resolution image

Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque Country, Spain. Ichnofossil: Helminthorhaphe and Paleodictyon on the right - Flysch formed at the end of the Mesozoic era, in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, caused by earthquakes, and producing after compaction and crystallization of very regular layers of sandstone and limestone, here corrected by the Pyrenean orogeny and released by erosion.Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque Country, Spain. Ichnofossil: Helminthorhaphe and Paleodictyon on the right - Flysch formed at the end of the Mesozoic era, in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, caused by earthquakes, and producing after compaction and crystallization of very regular layers of sandstone and limestone, here corrected by the Pyrenean orogeny and released by erosion.Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque Country, Spain. Ichnofossil: Helminthorhaphe and Paleodictyon on the right - Flysch formed at the end of the Mesozoic era, in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, caused by earthquakes, and producing after compaction and crystallization of very regular layers of sandstone and limestone, here corrected by the Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437374

Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque

RMRight Managed

JPG

LightboxDownload low resolution image

Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque Country, Spain. Ichnofossil: Helminthorhaphe - Flysch formed at the end of the Mesozoic era, in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, caused by earthquakes, and producing after compaction and crystallization of very regular layers of sandstone and limestone, here corrected by the Pyrenean orogeny and released by erosion.Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque Country, Spain. Ichnofossil: Helminthorhaphe - Flysch formed at the end of the Mesozoic era, in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, caused by earthquakes, and producing after compaction and crystallization of very regular layers of sandstone and limestone, here corrected by the Pyrenean orogeny and released by erosion.Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque Country, Spain. Ichnofossil: Helminthorhaphe - Flysch formed at the end of the Mesozoic era, in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, caused by earthquakes, and producing after compaction and crystallization of very regular layers of sandstone and limestone, here corrected by the Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437373

Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque

RMRight Managed

JPG

LightboxDownload low resolution image

Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque Country, Spain. Ichnofossil: Helminthorhaphe - Flysch formed at the end of the Mesozoic era, in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, caused by earthquakes, and producing after compaction and crystallization of very regular layers of sandstone and limestone, here corrected by the Pyrenean orogeny and released by erosion.Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque Country, Spain. Ichnofossil: Helminthorhaphe - Flysch formed at the end of the Mesozoic era, in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, caused by earthquakes, and producing after compaction and crystallization of very regular layers of sandstone and limestone, here corrected by the Pyrenean orogeny and released by erosion.Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque Country, Spain. Ichnofossil: Helminthorhaphe - Flysch formed at the end of the Mesozoic era, in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, caused by earthquakes, and producing after compaction and crystallization of very regular layers of sandstone and limestone, here corrected by the Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437372

Ichnofossils on flysch Deba, Geopark of the Basque Coast, Basque

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437366

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437365

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437364

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437363

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437362

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437361

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437360

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437359

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437358

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437357

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437356

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437355

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437354

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437353

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437352

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.Remarkable flysch formations of Deba, Basque Coast Geopark, Basque Country, Spain. Flysch formed at the end of the Mesozoic era in the Cretaceous - flyschs are formed by sediment accumulation following repeated submarine avalanches, due to earthquakes, and producing after compaction and crystallization very regular layers of sandstone and limestone here recovered by Pyrenean orogeny and released by erosion.© Jean-Philippe Delobelle / BiosphotoJPG - RM

2437351

Remarkable flysch formations of Deba, Basque Coast Geopark,

RMRight Managed

JPG

LightboxDownload low resolution image

Anticlinal couché de Saint Clément, Célèbre charnière synclinale, dessinée par des couches de flysch à Helminthoïdes, Vallée de la Durance, Hautes Alpes, FranceAnticlinal couché de Saint Clément, Célèbre charnière synclinale, dessinée par des couches de flysch à Helminthoïdes, Vallée de la Durance, Hautes Alpes, FranceAnticlinal couché de Saint Clément, Célèbre charnière synclinale, dessinée par des couches de flysch à Helminthoïdes, Vallée de la Durance, Hautes Alpes, France© Jean-Philippe Delobelle / BiosphotoJPG - RM

2419236

Anticlinal couché de Saint Clément, Célèbre charnière

RMRight Managed

JPG

LightboxDownload low resolution image

Flysch cliff on the Basque corniche, Urrugne, Pyrénées-Atlantiques, FranceFlysch cliff on the Basque corniche, Urrugne, Pyrénées-Atlantiques, FranceFlysch cliff on the Basque corniche, Urrugne, Pyrénées-Atlantiques, France© Frédéric Tournay / BiosphotoJPG - RM

2138269

Flysch cliff on the Basque corniche, Urrugne,

RMRight Managed

JPG

LightboxDownload low resolution image

Common everlasting (Helichrysum stoechas) on the Basque corniche in front off a flysch cliff, FranceCommon everlasting (Helichrysum stoechas) on the Basque corniche in front off a flysch cliff, FranceCommon everlasting (Helichrysum stoechas) on the Basque corniche in front off a flysch cliff, France© Frédéric Tournay / BiosphotoJPG - RM

2138267

Common everlasting (Helichrysum stoechas) on the Basque corniche

RMRight Managed

JPG

LightboxDownload low resolution image

Folds very marked in flysch to Jausiers , High Ubaye , Alpes-de-Haute-Provence , FranceFolds very marked in flysch to Jausiers , High Ubaye , Alpes-de-Haute-Provence , FranceFolds very marked in flysch to Jausiers , High Ubaye , Alpes-de-Haute-Provence , France© Jean-Philippe Delobelle / BiosphotoJPG - RM

2065959

Folds very marked in flysch to Jausiers , High Ubaye ,

RMRight Managed

JPG

LightboxDownload low resolution image

Folds very marked in flysch to Jausiers , High Ubaye , Alpes-de-Haute-Provence , FranceFolds very marked in flysch to Jausiers , High Ubaye , Alpes-de-Haute-Provence , FranceFolds very marked in flysch to Jausiers , High Ubaye , Alpes-de-Haute-Provence , France© Jean-Philippe Delobelle / BiosphotoJPG - RM

2065958

Folds very marked in flysch to Jausiers , High Ubaye ,

RMRight Managed

JPG

LightboxDownload low resolution image

Syn-orogenic flysch rock formations - Basque Country FranceSyn-orogenic flysch rock formations - Basque Country FranceSyn-orogenic flysch rock formations - Basque Country France© Laurent Lhoté / BiosphotoJPG - RM

1993303

Syn-orogenic flysch rock formations - Basque Country France

RMRight Managed

JPG

LightboxDownload low resolution image

Flysch rock formations syn-orogenic - Basque CountryFlysch rock formations syn-orogenic - Basque CountryFlysch rock formations syn-orogenic - Basque Country© Laurent Lhoté / BiosphotoJPG - RM

1938995

Flysch rock formations syn-orogenic - Basque Country

RMRight Managed

JPG

LightboxDownload low resolution image

Flysch rock formations syn-orogenic - Basque CountryFlysch rock formations syn-orogenic - Basque CountryFlysch rock formations syn-orogenic - Basque Country© Laurent Lhoté / BiosphotoJPG - RM

1938994

Flysch rock formations syn-orogenic - Basque Country

RMRight Managed

JPG

LightboxDownload low resolution image

Cliffs of Flysch in Basque countryCliffs of Flysch in Basque countryCliffs of Flysch in Basque country© Laurent Lhoté / BiosphotoJPG - RM

1917042

Cliffs of Flysch in Basque country

RMRight Managed

JPG

LightboxDownload low resolution image

Cliffs of Flysch in Basque countryCliffs of Flysch in Basque countryCliffs of Flysch in Basque country© Laurent Lhoté / BiosphotoJPG - RM

1917041

Cliffs of Flysch in Basque country

RMRight Managed

JPG

LightboxDownload low resolution image

Flysch formations syn-orogenic Basque Country FranceFlysch formations syn-orogenic Basque Country FranceFlysch formations syn-orogenic Basque Country France© Laurent Lhoté / BiosphotoJPG - RM

1623955

Flysch formations syn-orogenic Basque Country France

RMRight Managed

JPG

LightboxDownload low resolution image

Next page
1 / 2

Your request is processing. Please wait...

Galleries General conditions Legal notices Photographers area





Your request has been registered.

To use this feature you must first register or login.

Log in

To organize photos in lightboxes you must first register or login. Registration is FREE! Lightboxes allow you to categorize your photos, to keep them when you sign in and send them by email.

Log in

A Biosphoto authorization has to be granted prior using this feature. We'll get in touch shortly, please check that your contact info is up to date. Feel free to contact us in case of no answer during office hours (Paris time).

Delete permanently this lightbox?

Delete permanently all items?



The lightbox has been duplicated

The lightbox has been copied in your personal account

Your request has been registered. You will receive an e-mail shortly in order to download your images.

You can insert a comment that will appear within your downloads reports.





Your lightbox has been sent.

In case of modification, changes will be seen by your recipient.

If deleted, your lightbox won't be avalaible for your recipient anymore.