Abstract
Anthropogenic activities have caused irreversible consequences on our planet, including climate change and environmental pollution. Nevertheless, reducing greenhouse gas (GHG) emissions and capturing carbon can mitigate global warming. Biochar and hydrochar are increasingly used for soil remediation due to their stable adsorption qualities. As soil amendments, these materials improve soil quality and reduce water loss, prevent cracking and shrinkage, and interact with microbial communities, resulting in a promising treatment method for reducing gas emissions from the top layer of soil. However, during long-term studies, contradictory results were found, suggesting that higher biochar application rates led to higher soil CO2 effluxes, biodiversity loss, an increase in invasive species, and changes in nutrient cycling. Hydrochar, generated through hydrothermal carbonization, might be less stable when introduced into the soil, which could lead to heightened GHG emissions due to quicker carbon breakdown and increased microbial activity. On the other hand, biochar, created via pyrolysis, demonstrates stability and can beneficially impact GHG emissions. Biochar could be the preferred red option for carbon sequestration purposes, while hydrochar might be more advantageous for use as a gas adsorbent. This review paper highlights the ecological impact of long-term applications of biochar and hydrochar in soil. In general, using these materials as soil amendments helps establish a sustainable pool of organic carbon, decreasing atmospheric GHG concentration and mitigating the impacts of climate change. Copyright © 2024 The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.
Original language | English |
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Pages (from-to) | 42614-42639 |
Journal | Environmental Science and Pollution Research |
Volume | 31 |
DOIs | |
Publication status | Published - Jun 2024 |
Citation
Kravchenko, E., Dela Cruz, T. L., Chen, X. W., & Wong, M. H. (2024). Ecological consequences of biochar and hydrochar amendments in soil: Assessing environmental impacts and influences. Environmental Science and Pollution Research, 31, 42614-42639. https://doi.org/10.1007/s11356-024-33807-8Keywords
- Greenhouse gas emissions
- Bioavailability
- Adsorption mechanisms
- Carbon storage
- Life cycle assessment