Profile

Tida Ge
Ningbo University · 🇨🇳 CN

Career Stage: Eminent

CDR Specialization

Soil Carbon

Enhancing carbon storage in agricultural and terrestrial soils through management practices and biochar amendment.

Metrics

MetricValue
h-index72
Citations15,988
Publications385
CDR Focus7.0%
TrajectoryStable

Top CDR Publications

  1. Contrasting pathways of carbon sequestration in paddy and upland soils (2021) 401 citations · Soil Carbon

  2. Stoichiometric regulation of priming effects and soil carbon balance by microbial life strategies (2022) 210 citations · Soil Carbon

  3. Rice rhizodeposition promotes the build-up of organic carbon in soil via fungal necromass (2021) 123 citations · Soil Carbon

  4. Decreasing microbial phosphorus limitation increases soil carbon release (2022) 119 citations · Soil Carbon

  5. Abiotic and biotic regulation on carbon mineralization and stabilization in paddy soils along iron oxide gradients (2021) 105 citations · Soil Carbon

  6. Visualization and quantification of carbon “rusty sink” by rice root iron plaque: Mechanisms, functions, and global implications (2022) 81 citations · Soil Carbon

  7. Meta-analysis on the effects of types and levels of N, P, and K fertilization on organic carbon in cropland soils (2023) 61 citations · Soil Carbon

  8. Reduction in net greenhouse gas emissions through a combination of pig manure and reduced inorganic fertilizer application in a double-rice cropping system: Three-year results (2021) 57 citations · General CDR

  9. Biochar decreased rhizodeposits stabilization via opposite effects on bacteria and fungi: diminished fungi-promoted aggregation and enhanced bacterial mineralization (2021) 41 citations · Biochar

  10. Carbon stabilization by iron plaque on rice roots: The role of oxygen loss (2025) 21 citations · Soil Carbon

External Profiles


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