CHANGES IN LITTER DURING THE INITIAL LEACHING PHASE - AN EXPERIMENT ON THE LEAF-LITTER OF MEDITERRANEAN SPECIES

A laboratory experiment was carried out with the litter of 7 Mediterra nean species of plants to compare their mass losses during the initial leaching phase of decomposition. To this end, the leaf and needle lit ter of deciduous, marcescent (deciduous species in which the withered leaves remain on the tree for several months) and evergreen broad-leav ed species and pine was immersed for 10 days in demineralized water, i n the dark at 22 degrees C. Samples were taken at 1, 6, 24, 72, 168 an d 240 h. Depending an the species, the litter lost between 7-15% of in itial dry mass, and water content values were between 130-360% of dry mass. The water absorption rate was positively correlated with the ini tial cellulose content of the litter and negatively correlated with th e initial leaf density, but the water content at the end of the experi ment, the leaching rate and the total mass loss were uncorrelated with any of the initial litter characteristics studied. For 100 g of litte r at the start (as dry matter), the losses after 240 h of immersion in water were, when they were significant, 5-8 g of C, 70-130 mg of N (s ignificant for 3 species), 4-40 mg of soluble sugars and 3 g of inorga nic elements (significant for only 2 species). In contrast, the quanti ties of lignin and cellulose in the litter remained unchanged. Most of the leaching losses (50-80%) therefore consisted of C. During leachin g, the litter showed a tendency to become more concentrated in cellulo se and lignin and poorer in sugars. Pine needle litter was distinguish ed by its low water absorption and low mass loss during leaching. In g eneral, the litters of deciduous species were more absorbent than the litters of evergreen species. In contrast, the losses of water-soluble substances were not significantly different between these 2 groups of litters. In the broad-leaved species, the losses of water-soluble sub stances were slower and 2-3 times lower, compared to results already p ublished for species from mesic biomes.