Abstract
Leaf litter degradation and nutrient supply in the mangroves of Mecoacán Lagoon, Gulf of Mexico. Mangroves are ecosystems with a high primary productivity that is mainly driven mainly by degradation processes. Energy (nutrients) flows from mangroves toward adjacent zones and the surrounding aquatic environment. The objective of the present study was to estimate the daily degradation coefficient (k) of mangrove leaves in relation to physical-chemical soil factors and in situ nutrient supply (phosphorus and nitrogen) in Mecoacán Lagoon, Gulf of Mexico. Leaf litter degradation bags were placed at six monthly monitoring sites to evaluate degradation and to calculate the corresponding degradation coefficients. A rapid degradation of up to 51 % was observed for Avicennia germinans (L.) Stearn during the first month in association with leaching resulting from flood conditions. The degradation of Rhizophora mangle (L.) (k= 0.0052±0.0002) (F= 12.2 p< 0.05 n= 216) and Laguncularia racemosa (L.) Gaertn (k= 0.005±0.0003) (F= 3.7 p= 0.2 n= 108), differed significantly from that of A. germinans (k= 0.009 ± 0.0003) (F= 1.2 p= 0.2 n= 216) did not present significant differences. To reach T50 degradation, R. mangle and L. racemosa required more time (133 and 138 days, respectively) than A. germinans (74 days). Organic matter and soil humidity were significantly correlated with the decay constant of A. germinans (r= 0.65 p< 0.05 and r= 0.55 p< 0.05, respectively). Total nitrogen content was highest in the Pajaral site (2 683 mg.kg) and was also highly correlated with organic matter content (r= 0.9 p= 0.003). Total phosphorus content was highest in the Boca site (2 031 mg.kg) and was also negatively correlated with pH (r= -0.61 p= 0.004). In conclusion, differences in the rate of mangrove leaf degradation depend on the involved species (leaf composition), time of exposure or immersion in water (flooding patterns) and sediment heterogeneity (i.e., texture, pH, humidity content and bulk density). Rev. Biol. Trop. 66(2): 892-907. Epub 2018 June 01.
Highlights
& Richards, 1986; Steinke, Barnabas, & Samuru, 1990)
En la parte este de la laguna (Pajaral) se registró la máxima acumulación de nitrógeno en sedimento (Fig. 4), la cual según AkéCastillo (2006) y Twilley et al, (1986) puede atribuirse a los aportes in situ en el proceso de degradación de la hoja de R. mangle por su alto contenido de nitrógeno en la hoja, que presentó las mayores densidades de árboles en Pajaral (1 350 org.ha-1)
New Zealand Journal of Marine and Freshwater Research, 16, 179-188
Summary
Área de estudio: La Laguna Mecoacán tiene una extensión de 96 454.39 ha (Barba, Rangel, & Ramos, 2006) y se ubica en el sur del Golfo de México (18°16’ - 18°20’ N & 93°04’ - 93°14’ W). Espacialmente el contenido de humedad presentó diferencias significativas (F= 19.2 p< 0.05 n= 216), el mayor registro fue en Cerros (163±14 %) y Pajaral (137±11 %) seguidos por Arrastradero (108±10 %) y los sitios con menor almacenamiento de agua fueron Mojarrero (79±11 %) y Boca (51±2 %) (Fig. 3), se identificó alta correlación positiva entre el contenido de humedad y el porcentaje de arcilla en suelo (r= 0.82 p= 0.05) y correlación negativa con la densidad aparente (r= -0.96 p< 0.05) del suelo. Espacialmente, A. germinans y hoja combinada no presentaron diferencias significativas en la tasa de degradación R (p >0.05 n= 216), mientras que las especies R. mangle (F= 3.5 p= 0.004 n= 216) y L. racemosa (p< 0.05 n= 216) presentaron diferencias significativas, las diferencias se registraron en Mojarrero con el menor valor de R (0.05±0.006 y 0.06±0.01 g.día-1 para cada especie respectivamente) comparada con lo demás sitios (Fig. 6). CUADRO 2 Coeficiente de degradación (k) por sitio y temporada de cada especie y hoja combinada de manglar
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