[HTML][HTML] Microscale spatial distribution and soil organic matter persistence in top and subsoil

TM Inagaki, AR Possinger, SA Schweizer… - Soil Biology and …, 2023 - Elsevier
The spatial distribution of organic substrates and microscale soil heterogeneity significantly
influence organic matter (OM) persistence as constraints on OM accessibility to …

Microscale spatial distribution and soil organic matter persistence in top and subsoil

TM Inagaki, AR Possinger, SA Schweizer… - Soil Biology and …, 2022 - osti.gov
The spatial distribution of organic substrates and microscale soil heterogeneity significantly
influence organic matter (OM) persistence as constraints on OM accessibility to …

[引用][C] Microscale spatial distribution and soil organic matter persistence in top and subsoil

TM Inagaki, AR Possinger… - Soil Biology and …, 2023 - mediatum.ub.tum.de
mediaTUM - Medien- und Publikationsserver mediaTUM Universitätsbibliothek Technische
Universität München Logo Benutzer: Gast Login de en mediaTUM Gesamtbestand …

Microscale spatial distribution and soil organic matter persistence in top and subsoil

TM Inagaki, AR Possinger… - Soil Biology and …, 2023 - ui.adsabs.harvard.edu
The spatial distribution of organic substrates and microscale soil heterogeneity significantly
influence organic matter (OM) persistence as constraints on OM accessibility to …

Microscale spatial distribution and soil organic matter persistence in top and subsoil

TM Inagaki, AR Possinger, SA Schweizer, CW Mueller… - 2023 - nibio.brage.unit.no
The spatial distribution of organic substrates and microscale soil heterogeneity significantly
influence organic matter (OM) persistence as constraints on OM accessibility to …

[引用][C] Microscale spatial distribution and soil organic matter persistence in top and subsoil

Soil Biology & Biochemistry, 2023 - ign.ku.dk
Inagaki, TM, Possinger, AR, Schweizer, SA, Mueller, CW, Hoeschen, C, Zachman, MJ,
Kourkoutis, LF, Kögel-Knabner, I & Lehmann, J 2023,'Microscale spatial distribution and soil …

Microscale spatial distribution and soil organic matter persistence in top and subsoil.

TM Inagaki, AR Possinger, SA Schweizer, CW Mueller… - 2023 - cabidigitallibrary.org
The spatial distribution of organic substrates and microscale soil heterogeneity significantly
influence organic matter (OM) persistence as constraints on OM accessibility to …

Microscale spatial distribution and soil organic matter persistence in top and subsoil

TM Inagaki, AR Possinger, SA Schweizer, CW Mueller… - 2023 - vtechworks.lib.vt.edu
The spatial distribution of organic substrates and microscale soil heterogeneity significantly
influence organic matter (OM) persistence as constraints on OM accessibility to …

[PDF][PDF] Microscale spatial distribution and soil organic matter persistence in top and subsoil

TM Inagaki, AR Possinger, SA Schweizer… - Soil Biology and …, 2023 - par.nsf.gov
The spatial distribution of organic substrates and microscale soil heterogeneity significantly
influence organic matter (OM) persistence as constraints on OM accessibility to …

[PDF][PDF] Microscale spatial distribution and soil organic matter persistence in top and subsoil

TM Inagaki, AR Possinger… - Soil Biology and …, 2023 - lehmannlab.cals.cornell.edu
The spatial distribution of organic substrates and microscale soil heterogeneity significantly
influence organic matter (OM) persistence as constraints on OM accessibility to …