Carbono, nitrogênio e atividade da biomassa microbiana em diferentes estruturas de serapilheira de uma floresta natural Carbon, nitrogen, and microbial biomass activity in different litter structures of a natural forest

O objetivo deste trabalho foi avaliar a influência da qualidade nutricional e orgânica sobre a atividade C e N da biomassa microbiana em diferentes estruturas da serapilheira de uma mata atlântica montana no entorno do Parque Estadual do Desengano-RJ. As amostras de serapilheira foram coletadas em setembro de 1999. Realizou-se a separação das estruturas em: folhas, galhos e raízes superficiais; mistura de material mais fragmentado (estrutura F) e matéria orgânica menor que 2 mm (estrutura H). A qualidade nutricional e orgânica da serapilheira influenciou a atividade da biomassa microbiana. Das estruturas, as folhas apresentaram uma biomassa microbiana mais eficiente na imobilização de C e N. O qCO2 foi um indicador de condições de estresse, presença de celulose e polifenol, para a biomassa microbiana nas diferentes estruturas. Utilizando a técnica de agrupamento de Tocher, observou-se a formação de três grupos distintos. Um constituído pelas raízes superficiais e estrutura H; o segundo pelas folhas e o terceiro grupo pela estrutura F. Por meio da contribuição relativa dos caracteres para a divergência entre as estruturas, a variável que mais contribuiu foi a relação polifenol: N, seguida do carbono da biomassa microbiana, polifenol, celusose e relação lignina: N.<br>The objective of this work was to evaluate the influence of the organic and nutritional quality on the activity and C and N contents of the microbial biomass in different structures of litter from a Mountain Atlantic Forest from around the Desengano State Park-RJ, Brazil. Litter samples were collected in September 1999. The litter structures were leaves, branches, and superficial roots; fine debris (F structure); and organic matter smaller than 2 mm (H structure). The nutritional and organic litter quality influenced the activity of the microbial biomass. The leaves had the most efficient microbial biomass in the immobilization of C and N. The qCO2 (metabolic quotient) was an indicator for the stress condition and presence of cellulose and polyphenol for the microbial biomass in the different structures. The formation of three distinct groups was observed by the Tocher group technique. The first group consisted of superficial roots and H strucuture; the second comprised leaves and the third group consisted of F strucuture. Through the relative contribution of the characters to the divergence between components, the variable that most contributed was polifenol: N ratio, followed by carbon microbial biomass, polifenol, cellulose and lignin: N ratio

Spatial variability of microbial biomass and organic matter labile pools in a haplic planosol soil

The objective of this work was to study the spatial variability of soil microbial biomass (SMB) and labile soil organic matter pools (labile SOM), under different management systems and plant cover. The experiment was conducted in a Haplic Planosol soil on an Integrated Agroecological Production System (SIPA), in Seropédica, Rio de Janeiro. The evaluated management systems were: alley cropping, pasture, and bush garden, the late one was used as reference area. Three grids of regular spacing of 2.5 x 2.5 meters were used for sampling, consisting of 25 georeferenced points each, where soil samples were taken at 0-10 cm depth. The following labile constituents of soil organic matter were determined: free light fraction (FLF), water soluble C and N, C and N of SMB (SMB-C and SMB-N), and glomalin content. The textural fractions (sand, silt, and clay), pH in water, and chemical attributes (organic C, total N, Ca, Mg, Al, P, K, and CEC-cation exchange capacity) were also determined. The areas of alley cropping and pasture showed spatial dependence to the attributes of SOM. The occurrence of high spatial dependence for the attributes associated to microbial biomass in the alley cropping system (C, FLF, SMB-N and respiration), probably was due to external factors related to management, such as: intensive rotational cropping system, diversity of crops and different inputs of organic matter to soil such as pruning material and organic compost

Year-round poultry litter decomposition and N, P, K and Ca release

Poultry litter is an important nutrient source in agriculture, although little information is available regarding its decomposition rate and nutrient release. To evaluate these processes, poultry litter (PL) was applied to the soil to supply 100, 200 and 300 kg ha-1 N contained in 4,953, 9,907 and 14,860 kg ha-1 PL, respectively. The litter bag technique was used to monitor the process of decomposition and nutrient release from the litter. These bags were left on the soil surface and collected periodically (after 15, 30, 60, 90, 120, 150, 180, 210, 240, 270, 300, 330, and 365 days). The dry matter (DM) loss was highest (35 %) after the first 30 days of field incubation. The highest nutrient release occurred in the first 60 days on the field, when 40, 34, 91, and 39 %, respectively, of N, P, K, and Ca of the initial PL dry matter (4,860 kg ha-1) was already released to the soil. In absolute terms, these percentages represent 40, 23, 134, and 69 kg ha-1 of N, P, K, and Ca and these values doubled and tripled as the PL fertilization rates increased to 9,907 and 14,860 kg ha-1, respectively. After one year of field incubation, the residual contents in the litter were 27, 15, 18 and 30 % of the initial DM , and N, P and Ca, respectively. The release rate of K was the fastest and 91 % of the K had been released from the PL after 30 days of field incubation

Organic material decomposition and nutrient dynamics in a mulch system enriched with leguminous trees in the Amazon Decomposição de material orgânico e dinâmica de nutrientes em um sistema de cobertura morta enriquecido com árvores leguminosas na Amazônia

The new techniques proposed for agriculture in the Amazon region include rotational fallow systems enriched with leguminous trees and the replacement of biomass burning by mulching. Decomposition and nutrient release from mulch were studied using fine-mesh litterbags with five different leguminous species and the natural fallow vegetation as control. Samples from each treatment were analyzed for total C, N, P, K, Ca, Mg, lignin, cellulose content and soluble polyphenol at different sampling times over the course of one year. The decomposition rate constant varied with species and time. Weight loss from the decomposed litter bag material after 96 days was 30.1 % for Acacia angustissima, 32.7 % for Sclerolobium paniculatum, 33.9 % for Iinga edulis and the Fallow vegetation, 45.2 % for Acacia mangium and 63.6 % for Clitoria racemosa. Immobilization of N and P was observed in all studied treatments. Nitrogen mineralization was negatively correlated with phenol, C-to-N ratio, lignin + phenol/N ratio, and phenol/phosphorus ratios and with N content in the litterbag material. After 362 days of field incubation, an average (of all treatments), 3.3 % K, 32.2 % Ca and 22.4 % Mg remained in the mulch. Results confirm that low quality and high amount of organic C as mulch application are limiting for the quantity of energy available for microorganisms and increase the nutrient immobilization for biomass decomposition, which results in competition for nutrients with the crop plants.<br>As novas técnicas propostas para a agricultura na Amazônia incluem sistema de rotação de capoeira enriquecido com árvores leguminosas e transformando a queima da biomassa em cobertura morta sobre o solo. A decomposição e a liberação de nutrientes da cobertura morta foram estudadas usando sacos de liteira com malha fina que continham cinco tratamentos com diferentes espécies de leguminosas em comparação a um tratamento-controle com vegetação natural. As amostras para cada tratamento foram analisadas para conteúdos de C total, N, P, K, Ca, Mg, lignina, celulose e polifenóis solúveis em diferentes tempos de amostragem durante um ano. A razão constante de decomposição variou com a espécie e com o tempo. A perda de massa nos sacos de decomposição foi de 30,1 % para Acacia angustissima, de 32,7 % para Sclerolobium paniculatum, de 33,9 % para Inga edulis e para a vegetação secundária, de 45,2 % para Acacia mangium e de 63,6 % para Clitoria racemosa. Foi observada imobilização de N e P em todos os tratamentos, sendo a mineralização do N negativamente correlacionada com o fenol, razão C/N, razão (lignina + fenol)/N, razão fenol/P e o conteúdo de N nos sacos de liteira. Depois de 362 dias de incubação no campo, 3,3 % de K, 32,2 % de Ca e 22,4 % de Mg permaneceram no material em decomposição. Os resultados evidenciaram que a baixa qualidade mineral e a alta quantidade de carbono orgânico e aplicado como cobertura morta podem limitar a quantidade de energia disponível para os microrganismos resultando em uma competição por nutrientes com as plantas agrícolas