Weini Wang
Biochemistry, Genetics and Molecular Biology · Indiana University
Publications
85
Citations
669
Est. group size
—
Recurring co-author estimate
Active years
23
Publishing since 2004
Weini Wang's recent research focuses on improving crop growth and soil health in saline and salt-affected soils, especially through the use of organic fertilizers, soil amendments, and beneficial microbial communities. Studies examine how treatments like humic acid, manure, film mulching, and combined fertilization affect crops such as maize and sunflower, soil nutrients, and the microbes living around plant roots. The publication record also includes some scattered work in unrelated areas such as air quality forecasting and human genetics.
Publication activity was modest through the late 2010s and then sharply increased around 2023, with continued output into 2025-2026, indicating a recent period of high productivity.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Synergistic soil-foliar fertilization promotes maize growth under salt stress by shaping rhizosphere metabolites and microbiomes
Industrial Crops and Products · 2026
- Combined organic ameliorants is benefits for improving ecosystem multi-functionality in saline soils
Industrial Crops and Products · 2025
- The Effect of Coal Gangue Fertilizer and Chemical Fertiliser Allocation on Maize Growth and Soil Nutrients
Journal of soil science and plant nutrition · 2025
- A classification modeling strategy based on dominant factors of salinization to enhance remote sensing inversion accuracy
Journal of Integrative Agriculture · 2025
- Degradable film mulching recruited beneficial microbiota and increased rhizosphere bacterial diversity in sunflower
Scientific Reports · 2025
- Multi-environment meta-analysis reveals the mechanism of action of potassium-solubilizing microorganisms on crop yields
Frontiers in Plant Science · 2025
- Straw interlayer improves sunflower root growth: Evidence from moisture and salt migration and the microbial community in saline-alkali soil
Journal of Integrative Agriculture · 2024
- Degradable film mulching recruited beneficial microbiota and increased rhizosphere bacterial diversity in sunflower
Research Square · 2024
- Humic acid plus manure increases the soil carbon pool by inhibiting salinity and alleviating the microbial resource limitation in saline soils
CATENA · 2023
- Humus Acid Plus Organic Ameliorant Increase SOC and Sic by Inhibiting Salinity and Alleviating the Microbial Resource Limitation in Saline Soils
SSRN Electronic Journal · 2023
- Mixed Sowing of Feed Rape and Vicia Villosa Can Substitute Nitrogen Fertilizer to Improve Soil Multifunctionality in the Hetao Irrigation District
SSRN Electronic Journal · 2023
- Combination of Organic Ameliorants is More Benefits for Improving Ecosystem Multi-Functionality by Enhancing Soil Health and Crop Productivity in Saline Soils
SSRN Electronic Journal · 2023
- Subsurface Organic Fertilization Increases Ecosystem Multifunctionality and Sunflower Yield in Saline Soil
SSRN Electronic Journal · 2023
- Pro-Life and Pro-Choice Contentions in Joyce Carol Oates’s: A Book of American Martyrs
Scientific and Social Research · 2021
- Effect of otago exercise on falls in patients with osteoarthritis
Medicine · 2020
- Cancer Research×5
- SSRN Electronic Journal×4
- Scientific Reports×3
- bioRxiv (Cold Spring Harbor Laboratory)×3
- Journal of Integrative Agriculture×2
This profile was generated automatically from public scholarly data (OpenAlex). Group size and activity levels are estimates derived from co-authorship patterns.
Last updated Jul 11, 2026.
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