Descomposición de hojarasca y liberación de nutrientes en plantaciones de Acacia mangium (Mimosaceae) establecidas en suelos degradados de Colombia

Litter decomposition and nutrient release in Acacia mangium plantations established on degraded soils of Colombia. Several factors control the decomposition in terrestrial ecosystems such as humidity, temperature, quality of litter and microbial activity. We investigated the effects of rainfall and soil plowing prior to the establishment of Acacia mangium plantations, using the litterbag technique, during a six month period, in forests plantations in Bajo Cauca region, Colombia. The annual decomposition constants (k) of simple exponential model, oscillated between 1.24 and 1.80, meanwhile k1 y k2 decomposition constants of double exponential model were 0.88-1.81 and 0.58-7.01. At the end of the study, the mean residual dry matter (RDM) was 47% of the initial value for the three sites. We found a slow N, Ca and Mg release pattern from the A. mangium leaf litter, meanwhile, phosphorus (P) showed a dominant immobilization phase, suggesting its low availability in soils. Chemical leaf litter quality parameters (e.g. N and P concentrations, C/N, N/P ratios and phenols content) showed an important influence on decomposition rates. The results of this study indicated that rainfall plays an important role on the decomposition process, but not soil plowing. Rev. Biol. Trop. 59 (1): 113-128. Epub 2011 March 01.

La descomposición de hojarasca en los ecosistemas terrestres está regulada por varios factores, entre ellos, la humedad, temperatura, calidad de la hojarasca y la actividad de los microoganismos. Estudiamos el efecto de la precipitación y el tratamiento de subsolado del suelo previo establecimiento de plantaciones de Acacia mangium, usando la técnica de bolsas de descomposición durante seis meses en plantaciones del Bajo Cauca (Colombia). La constante de descomposición anual (k) del modelo simple exponencial, osciló entre 1.24 y 1.80. Las constantes k1 y k2 del modelo doble exponencial fluctuaron entre 0.88-1.81 y 0.58-7.01. Al final del experimento la materia seca residual promedio (MSR) fue del 47%. Las cantidades residuales de N, Ca y Mg en la hojarasca de A. mangium mostraron un patrón de liberación lento. La evolución del P en la MSR mostró un proceso dominante de inmovilización, dada su baja disponibilidad en el suelo. Algunos parámetros de calidad del sustrato (N, P, C/N, N/P y fenoles) fueron buenos predictores del proceso, así como la precipitación, situación contraria a la del tratamiento de subsolado.

Soil dehydrogenase in a land degradation-rehabilitation gradient: observations from a savanna site with a wet/dry seasonal cycle

Soil dehydrogenase activity is a good indicator of overall microbial activity in soil, and it can serve as a good indicator of soil condition. However, seasonal changes in soil moisture content may have an effect on soil dehydrogenase activity, making an accurate assessment of soil condition difficult. In this study, we attempted to determine the significance of soil dehydrogenase activity for assessing soil condition, and we attempted to find a way to account for the influence of soil moisture content on soil dehydrogenase activity. Soils were sampled in dry evergreen forest (original vegetation), bare ground (severely degraded) and Acacia plantation plots established on bare ground in 1986 and 1987 in Sakaerat, Thailand. Soil physico-chemical characteristics and dehydrogenase activity in the Acacia plantation soil had few differences from those in the evergreen forest soil. Soil dehydrogenase activity varied significantly between the bare ground and the forests regardless of the season (wet or dry), while the season did not produce a significant variation in soil dehydrogenase activity, as determined by repeated measures analysis of variance (p=0.077). The physico-chemical data provided the first principal component as a good measure of soil fertility. Values of soil dehydrogenase activity significantly correlated to scores of the soil samples of the first principal component (R=0.787, p<0.001). We found that soil dehydrogenase activity is a useful indicator of the extent of soil degradation and the rehabilitative effects of reforestation in this part of Thailand. Rev. Biol. Trop. 57 (1-2): 223-234. Epub 2009 June 30.