P-limitation drives changes in DOM production by aquatic bacteria

Agriculture & Biology

• dissolved organic matter 100%
• aquatic bacteria 83%
• soil organic matter 64%
• bacteria 32%
• organic phosphorus 27%
• dissolved organic carbon 26%
• optical properties 23%
• biogeochemical cycles 21%
• phosphorus 21%
• nutrients 17%
• carbon cycle 13%
• eutrophication 11%
• aromatic compounds 8%
• nutrient content 8%
• microorganisms 6%
• carbon 6%
• degradation 5%

Earth & Environmental Sciences

• organic matter 45%
• bacterium 43%
• nutrient 25%
• biogeochemical cycle 21%
• phosphorus 21%
• optical property 19%
• carbon cycle 9%
• eutrophication 8%
• laboratory experiment 8%
• decomposition 6%
• carbon 5%
• trend 4%