Effect of gut transit and mound deposit on soil organic matter transformations in the soil feeding termite: A review

Even if termites are often considered as a pest due to the damage they cause to agriculture and architecture, they contribute to the soil humification process in the tropics. This impact on the soil organic matter humification process is due to the most important feeding habit in terms of species diversity diet is not based on lignocellulosic plant degradation, but on the consumption of the mineral-containing horizons for the acquisition of nutrients. They are mostly distributed in humid forest or savannah equatorial zone. High structure and compartment with steep radial and axial gradients of O-2, H-2 and pH characterize their gut and create a patchy biotope. Furthermore, the humic compounds ingested are submitted, during a sequential transit, to different chemical (alkaline hydrolysis) and microbial degradation processes (fermentation, anaerobic respiration and mineralization). During this gut transit, the soil organic matter is strongly modified in terms of nature (organic matter concentration, fulvic and humic acid ratio) and organization (formation of organo-mineral complexes with clay). The soil organic matter ingested is further included as faeces in the nest and the galleries which, as a whole, constitutes the termitosphere. Compared to the control soil, the soil organic matter in the termitosphere is more stable and protected from the intense mineralization, which occurs in the tropics. These shifts of the organic matter into long turnover pool generated by the termite gut transit and deposition in the termitosphere indicate that besides the earthworm, the soil feeding termite has a positive impact on the overall organic matter cycling in the tropics. (C) 2000 Editions scientifiques et medicales Elsevier SAS.