Determinism of nonadditive litter mixture effect on decomposition: Role of the moisture content of litters.

The mechanisms behind the plant litter mixture effect on decomposition are still difficult to disentangle. To tackle this issue, we used a model that specifically addresses the role of the litter moisture content. Our model predicts that when two litters interact in terms of water flow, the difference of evaporation rate between two litters can trigger a nonadditive mixture effect on decomposition. Water flows from the wettest to the driest litter, changing the reaction rates without changing the overall litter water content. The reaction rate of the litter receiving the water increases relatively more than the decrease in the reaction rate of the litter supplying the water, leading to a synergistic effect. Such water flow can keep the microbial biomass of both litter in a water content domain suitable to maintain decomposition activity. When applied to experimental data (Sphagnum rubellum and Molinia caerulea litters), the model is able to assess whether any nonadditive effect originates from water content variation alone or whether other factors have to be taken into account.

Response of C and N cycles to N fertilization in Sphagnum and Molinia-dominated peat mesocosms.

Plant communities play an important role in the C-sink function of peatlands. However, global change and local perturbations are expected to modify peatland plant communities, leading to a shift from Sphagnum mosses to vascular plants. Most studies have focused on the direct effects of modification in plant communities or of global change (such as climate warming, N fertilization) in peatlands without considering interactions between these disturbances that may alter peatlands' C function. We set up a mesocosm experiment to investigate how Greenhouse Gas (CO2, CH4, N2O) fluxes, and dissolved organic carbon (DOC) and total dissolved N (TN) contents are affected by a shift from Sphagnum mosses to Molinia caerulea dominated peatlands combined with N fertilization. Increasing N deposition did not alter the C fluxes (CO2 exchanges, CH4 emissions) or DOC content. The lack of N effect on the C cycle seems due to the capacity of Sphagnum to efficiently immobilize N. Nevertheless, N supply increased the N2O emissions, which were also controlled by the plant communities with the presence of Molinia caerulea reducing N2O emissions in the Sphagnum mesocosms. Our study highlights the role of the vegetation composition on the C and N fluxes in peatlands and their responses to the N deposition. Future research should now consider the climate change in interaction to plants community modifications due to their controls of peatland sensitivity to environmental conditions.

Uso dos fenóis da lignina no estudo da matéria orgânica na várzea do Lago Grande Curuái, Pará e no Lago do Caçó, Maranhão, Brasil / Use of lignin phenols in the study of organic matter in the Lago Grande Curuái floodplain, Pará and Lake Caçó, Maranhão, Brazil

ste estudo tem por objetivo caracterizar os sedimentos superficiais, quanto ao seu teor e qualidade dos fenóis da lignina, em dois sistemas lacustres distintos: a Várzea do Lago Grande Curuái (PA) e o Lago do Caçó (MA). A Várzea do Lago Grande Curuái é localizada na margem direita do Rio Amazonas, aproximadamente 850 km da foz e é caracterizada pela presença de lagos de águas brancas e pretas. O Lago do Caçó está localizado no Maranhão, na borda do ecossistema amazônico. Foram realizadas análises da concentração de lignina (λ), carbono orgânico total (COT), nitrogênio e isótopos do carbono (δ13C). Os resultados indicam que os sedimentos superficias de lagos de águas brancas apresentam baixos valores de COT (1,5 a 3,6%), baixa concentração de λ (0,73 a 1,28 mg.100mg CO-1) e alto índice de degradação (0,29 a 2,01). Os sedimentos superficiais de lagos de águas pretas apresentam maiores valores de COT (6,0 a 12,1%) e de λ (1,44 a 1,93 mg.100mg CO-1) em relação aos sedimentos de lagos de águas brancas, porém baixos em comparação com os sedimentos do Lago do Caçó (7,2 ~ 15,3% e 1,83 ~ 4,64 mg .100mg CO-1, respectivamente). Através das análises realizadas foi possível identificar diferentes contribuições de fontes assim como diferentes estados de preservação da matéria orgânica sedimentada nos dois sistemas apresentados.

This study aims to characterize the superficial sediments of lakes in black and white waters of an Amazonian floodplain system in terms of carbon content and quality of lignin phenols. "Várzea do Lago Grande Curuái" floodplain is located on the right bank of the Amazon River about 850 km from the estuary. Superficial sediments samples were compared with superficial samples from Lake Caçó, located in Maranhão, the edge of the Amazon ecosystem. Concentration of lignin (λ), Total Organic Carbon (COT), nitrogen and isotope of carbon (δ13C) were undertaken. The results indicate that, in general, the superficial sediments of lakes of white water have low values of COT (1,5 to 3,6%), low concentrations of λ (0,73 to 1,28 mg.100mg CO-1) and high degradation index (0.29 to 2.01). Superficial sediments of lakes of black water had higher values of COT (6,0 to 12,1%) and λ (1,44 to 1,93 mg.100mg CO-1) than the sediments of lakes of white waters, but lower in comparison with the sediments of Caçó Lake. Through such analysis, it was possible to identify different contributions of organic matter sources and the preservation states to the superficial sediments at both sites.