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1 |
Nine years of warming and nitrogen addition in the Tibetan grassland promoted loss of soil organic carbon but did not alter the bulk change in chemical structure
Enthalten in Biogeosciences Bd. 21, 2024, Nr. 2: 575-589. 15 S.
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2 |
Calcium is associated with specific soil organic carbon decomposition products
Enthalten in EGUsphere 27.11.2024: 1-12. 12 S.
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3 |
Nine years of warming and nitrogen addition in the Tibetan grassland promoted loss of soil organic carbon but did not alter the bulk change of chemical structure
Enthalten in Biogeosciences discussions 01.09.2023: 1-43. 43 S.
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4 |
Whole-soil warming decreases abundance and modifies the community structure of microorganisms in the subsoil but not in surface soil
Enthalten in Soil Bd. 7, 2021, Nr. 2: 477-494. 18 S.
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5 |
Whole soil warming decreases abundance and modifies community structure of microorganisms in subsoil but not in surface soil
Enthalten in Soil discussions 2021: 1-30
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6 |
Publisher Correction: Global-scale evidence for the refractory nature of riverine black carbon
Enthalten in Nature geoscience 9.10.2018: 1
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7 |
How relevant is recalcitrance for the stabilization of organic matter in soils? †
Enthalten in Journal of plant nutrition and soil science Bd. 171, 2008, Nr. 1: 91-110. 20 S.
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8 |
Organic matter in natural soils and in soils contaminated by atmospheric organic particles from coal processing industries
Schmidt, Michael W. I.. - Aachen : Shaker, 1998, Als Ms. gedr.
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9 |
Belowground plant allocation regulates rice methane emissions from degraded peat soils
Enthalten in Scientific reports Bd. 14, 25.6.2024, Nr. 1, date:12.2024: 1-12
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10 |
Climate warming and elevated CO2 alter peatland soil carbon sources and stability
Enthalten in Nature Communications Bd. 14, 20.11.2023, Nr. 1, date:12.2023: 1-10
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