[HTML][HTML] Unmixing biogenic and terrigenous magnetic mineral components in red clay of the Pacific Ocean using principal component analyses of first-order reversal …
Red clay widely occupies the seafloor of pelagic environments in middle latitudes, and
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
Unmixing biogenic and terrigenous magnetic mineral components in red clay of the Pacific Ocean using principal component analyses of first-order reversal curve …
T Yamazaki, W Fu, T Shimono… - Earth, Planets & Space, 2020 - search.ebscohost.com
Red clay widely occupies the seafloor of pelagic environments in middle latitudes, and
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
Unmixing biogenic and terrigenous magnetic mineral components in red clay of the Pacific Ocean using principal component analyses of first-order reversal curve …
Y Toshitsugu, W Fu, S Takaya… - Earth, Planets and …, 2020 - search.proquest.com
Red clay widely occupies the seafloor of pelagic environments in middle latitudes, and
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
Unmixing biogenic and terrigenous magnetic mineral components in red clay of the Pacific Ocean using principal component analyses of first-order reversal curve …
T Yamazaki, W Fu, T Shimono, Y Usui - Earth, Planets and Space, 2020 - go.gale.com
Red clay widely occupies the seafloor of pelagic environments in middle latitudes, and
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
[PDF][PDF] Unmixing biogenic and terrigenous magnetic mineral components in red clay of the Pacific Ocean using principal component analyses of first-order reversal …
T Yamazaki, W Fu, T Shimono, Y Usui - 2020 - earth-planets-space.springeropen …
Red clay widely occupies the seafloor of pelagic environments in middle latitudes, and
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
Unmixing biogenic and terrigenous magnetic mineral components in red clay of the Pacific Ocean using principal component analyses of first-order reversal curve …
T Yamazaki, W Fu, T Shimono… - Earth, Planets and …, 2020 - ui.adsabs.harvard.edu
Red clay widely occupies the seafloor of pelagic environments in middle latitudes, and
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
Unmixing biogenic and terrigenous magnetic mineral components in red clay of the Pacific Ocean using principal component analyses of first-order reversal curve …
臼井洋一 - 2020 - kanazawa-u.repo.nii.ac.jp
Red clay widely occupies the seafloor of pelagic environments in middle latitudes, and
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
[PDF][PDF] Unmixing biogenic and terrigenous magnetic mineral components in red clay of the Pacific Ocean using principal component analyses of first-order reversal …
T Yamazaki, W Fu, T Shimono, Y Usui - 2020 - scholar.archive.org
Red clay widely occupies the seafloor of pelagic environments in middle latitudes, and
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
Unmixing biogenic and terrigenous magnetic mineral components in red clay of the Pacific Ocean using principal component analyses of first-order reversal curve …
T Yamazaki, W Fu, T Shimono, Y Usui - Earth, Planets and Space, 2020 - cir.nii.ac.jp
抄録< jats: title> Abstract</jats: title>< jats: p> Red clay widely occupies the seafloor of
pelagic environments in middle latitudes, and potentially preserves long paleoceanographic …
pelagic environments in middle latitudes, and potentially preserves long paleoceanographic …
[PDF][PDF] Unmixing biogenic and terrigenous magnetic mineral components in red clay of the Pacific Ocean using principal component analyses of first-order reversal …
T Yamazaki, W Fu, T Shimono, Y Usui - 2020 - kanazawa-u.repo.nii.ac.jp
Red clay widely occupies the seafloor of pelagic environments in middle latitudes, and
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …
potentially preserves long paleoceanographic records. We conducted a rock-magnetic study …