Gil Won Kim scite author profile

The effective utilization of slag fertilizer in agriculture to neutralize soil acidity, improve crop productivity, mitigate greenhouse gas emissions, and stabilize heavy metals in contaminated soils turns it into a high value added product in sustainable agriculture. These effects could be due to the shift in microbial metabolism and/or modification of microbial habitats. At the system level, soil microorganisms play an integral role in virtually all ecosystem processes. There is a growing interest to reveal the underlying mechanisms of slag-microbe interactions and the contribution of soil biota to ecosystem functioning. In this perspective, we discuss the possible driving mechanisms of slag-microbe interactions in soil and how these slag-microbe interactions can affect crop yield, greenhouse gas emissions, soil carbon sequestration, and heavy metal stabilization in contaminated soils. In addition, we discuss the problems and environmental concerns in using slag in agriculture. Emphasis has been given for further research to validate the proposed mechanisms associated with slag-microbe interactions for increasing soil quality, crop productivity, and mitigating environmental consequences. While evaluating the slag amendment, effects on agriculture and environment, the potential risks, socio-economics, techno-economics, and ethics should be assessed.

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Climate warming negates arbuscular mycorrhizal fungal reductions in soil phosphorus leaching with tall fescue but not lucerne

Zhang

Powell

Plett

et al. 2021

Soil Biology and Biochemistry

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Effect of cover cropping on the net global warming potential of rice paddy soil

Hwang¹,

Kim²,

Kim

et al. 2017

Geoderma

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Optimization of removal and recycling ratio of cover crop biomass using carbon balance to sustain soil organic carbon stocks in a mono-rice paddy system

Haque

Kim

et al. 2015

Agriculture, Ecosystems & Environment

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Improvement of the value of green manure via mixed hairy vetch and barley cultivation in temperate paddy soil

Hwang

Kim

Lee

et al. 2015

Field Crops Research

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Gil Won Kim

Cropping With Slag to Address Soil, Environment, and Food Security

Climate warming negates arbuscular mycorrhizal fungal reductions in soil phosphorus leaching with tall fescue but not lucerne

Effect of cover cropping on the net global warming potential of rice paddy soil

Optimization of removal and recycling ratio of cover crop biomass using carbon balance to sustain soil organic carbon stocks in a mono-rice paddy system

Improvement of the value of green manure via mixed hairy vetch and barley cultivation in temperate paddy soil

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