In the lush landscapes of tropical agriculture, two waste products—oyster shells from the sea and coconut shells from the trees—are being combined to solve a major headache for farmers: how to turn animal manure into high-quality compost faster and more effectively. A study recently published in Carbon Research reveals that a unique "Ca-modified biochar" can act as a powerful catalyst for the composting process. Developed by a research team at Hainan University, this new material helps transform pig manure and rice straw into stable, nutrient-rich humus, significantly boosting the quality of the final fertilizer.
The research was spearheaded by corresponding authors Shanshuai Chen and Pingshan Fan. Their work bridges the College of Tropical Agriculture and Forestry and the School of Breeding and Multiplication (Sanya Institute of Breeding and Multiplication) at Hainan University. By utilizing local agricultural and fishery byproducts, the team has created a circular economy solution that is both practical and environmentally friendly. "Composting is nature's way of recycling, but it can be slow and inefficient," explain the researchers. "By adding biochar modified with oyster shells, we are essentially giving the beneficial microbes a high-performance workspace. This leads to more stable organic matter and a product that is much safer and more beneficial for plants."
The Driver of Humification :
This innovation from Hainan University is particularly significant for tropical regions where agricultural waste management is a priority. By improving the "humification" process—the conversion of raw waste into stable soil organic matter—this research helps prevent nitrogen loss and reduces the environmental footprint of livestock farming. The findings provide a scalable and sustainable blueprint for industrial-scale composting facilities. As the world moves toward greener farming practices, the work of Shanshuai Chen, Pingshan Fan, and their colleagues at Hainan University demonstrates that the best solutions for the land often come from a creative mix of the land and the sea.
Corresponding Authors :
Shanshuai Chen
College of Tropical Agriculture and Forestry / School of Breeding and Multiplication, Hainan University, China.
Pingshan Fan
School of Breeding and Multiplication (Sanya Institute of Breeding and Multiplication), Hainan University, Sanya, China.
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Journal reference: He, J., Li, L., Shi, Y. et al. Oyster shell-functionalized biochar enhanced compost humification during the co-composting of pig manure with rice straw. Carbon Res. 5 , 7 (2026).
https://doi.org/10.1007/s44246-025-00249-x
About Carbon Research
The journal Carbon Research is an international multidisciplinary platform for communicating advances in fundamental and applied research on natural and engineered carbonaceous materials that are associated with ecological and environmental functions, energy generation, and global change. It is a fully Open Access (OA) journal and the Article Publishing Charges (APC) are waived until Dec 31, 2025. It is dedicated to serving as an innovative, efficient and professional platform for researchers in the field of carbon functions around the world to deliver findings from this rapidly expanding field of science. The journal is currently indexed by Scopus and Ei Compendex, and as of June 2025, the dynamic CiteScore value is 15.4.
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Oyster shell-functionalized biochar enhanced compost humification during the co-composting of pig manure with rice straw
20-Jan-2026