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The Influence of Ceramsite and Superphosphate on Humification in the Composting Process of Garden Wastes

Sustainability 2025 3 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 48 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Di Wang Hui Wang, Suyan Li, Suyan Li, Xiangyang Sun, Yalin Li, Hao Ding, Dan Hao, Di Wang, Di Wang

Summary

A 50-day composting experiment found that adding ceramsite and superphosphate to garden waste composting increased humic substrate formation by up to 14.69%, improved lignocellulose degradation, and accelerated humification, with the ceramsite combination showing the greatest overall benefit.

This study used ceramsite and superphosphate as exogenous additives for composting garden wastes. It investigated the changes in temperature, pH, lignocellulose, enzyme activity, humic substrates, and humification parameters during the composting process. A total of four treatments—T0 (CK), T1 (ceramsite), T2 (superphosphate), and T3 (superphosphate + ceramsite)—were tested in a 50-day composting experiment. It was found that the formation of the compost humic substrate could be increased to 14.69% under the action of ceramsite. In addition, ceramsite promoted lignocellulose degradation, improved enzyme activity, and enhanced the material conversion in the composting process. At the same time, superphosphate also promoted the formation of humic substrates in compost but was less effective than ceramsite. Ceramsite is the best additive in promoting compost maturation.

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