Biological weathering and the long‐term carbon cycle: integrating mycorrhizal evolution and function into the current paradigm
The dramatic decline in atmospheric CO2 evidenced by proxy data during the Devonian
(416.0–359.2 Ma) and the gradual decline from the Cretaceous (145.5–65.5 Ma) onwards …
(416.0–359.2 Ma) and the gradual decline from the Cretaceous (145.5–65.5 Ma) onwards …
Biological weathering and the long‑term carbon cycle: integrating mycorrhizal evolution and function into the current paradigm
LL Taylor, JR Leake, J Quirk, K Hardy… - …, 2009 - ui.adsabs.harvard.edu
The dramatic decline in atmospheric CO2 evidenced by proxy data during the Devonian
(416.0–359.2 Ma) and the gradual decline from the Cretaceous (145.5–65.5 Ma) onwards …
(416.0–359.2 Ma) and the gradual decline from the Cretaceous (145.5–65.5 Ma) onwards …
Biological weathering and the long‐term carbon cycle: integrating mycorrhizal evolution and function into the current paradigm
LL TAYLOR, JR LEAKE, J QUIRK, K HARDY… - Geobiology, 2009 - cir.nii.ac.jp
抄録< jats: title> ABSTRACT</jats: title>< jats: p> The dramatic decline in atmospheric CO<
jats: sub> 2</jats: sub> evidenced by proxy data during the Devonian (416.0–359.2 Ma) and …
jats: sub> 2</jats: sub> evidenced by proxy data during the Devonian (416.0–359.2 Ma) and …
Biological weathering and the long-term carbon cycle: integrating mycorrhizal evolution and function into the current paradigm
LL Taylor, JR Leake, J Quirk, K Hardy… - …, 2009 - pubmed.ncbi.nlm.nih.gov
The dramatic decline in atmospheric CO2 evidenced by proxy data during the Devonian
(416.0-359.2 Ma) and the gradual decline from the Cretaceous (145.5-65.5 Ma) onwards …
(416.0-359.2 Ma) and the gradual decline from the Cretaceous (145.5-65.5 Ma) onwards …
Biological weathering and the long-term carbon cycle: integrating mycorrhizal evolution and function into the current paradigm.
LL TAYLOR, JR LEAKE, J QUIRK, K HARDY… - …, 2009 - search.ebscohost.com
The dramatic decline in atmospheric CO< sub> 2 evidenced by proxy data during the
Devonian (416.0–359.2 Ma) and the gradual decline from the Cretaceous (145.5–65.5 Ma) …
Devonian (416.0–359.2 Ma) and the gradual decline from the Cretaceous (145.5–65.5 Ma) …
Biological weathering and the long-term carbon cycle: integrating mycorrhizal evolution and function into the current paradigm.
LL Taylor, JR Leake, J Quirk, K Hardy, SA Banwart… - Geobiology, 2009 - europepmc.org
The dramatic decline in atmospheric CO2 evidenced by proxy data during the Devonian
(416.0-359.2 Ma) and the gradual decline from the Cretaceous (145.5-65.5 Ma) onwards …
(416.0-359.2 Ma) and the gradual decline from the Cretaceous (145.5-65.5 Ma) onwards …
[引用][C] Biological weathering and the long-term carbon cycle: integrating mycorrhizal evolution and function into the current paradigm
LL TAYLOR - Geobiology, 2009 - cir.nii.ac.jp
Biological weathering and the long-term carbon cycle : integrating mycorrhizal evolution
and function into the current paradigm | CiNii Research CiNii 国立情報学研究所 学術情報 …
and function into the current paradigm | CiNii Research CiNii 国立情報学研究所 学術情報 …