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Benthic Substrata (benthic + substrata)
Selected AbstractsOrganic matter availability structures microbial biomass and activity in a Mediterranean streamFRESHWATER BIOLOGY, Issue 10 2009JOAN ARTIGAS Summary 1. We compared microbial biomass (bacteria, fungi, algae) and the activity of extracellular enzymes used in the decomposition of organic matter (OM) among different benthic substrata (leaves, coarse and fine substrata) over one hydrological year in a Mediterranean stream. 2. Microbial heterotrophic biomass (bacteria plus fungi) was generally higher than autotrophic biomass (algae), except during short periods of high light availability in the spring and winter. During these periods, sources of OM shifted towards autochthonous sources derived mainly from algae, which was demonstrated by high algal biomass and peptidase activity in benthic communities. 3. Heterotrophic activity peaked in the autumn. Bacterial and fungal biomass increased with the decomposition of cellulose and hemicellulose compounds from leaf material. Later, lignin decomposition was stimulated in fine (sand, gravel) and coarse (rocks, boulders and cobbles) substrata by the accumulation of fine detritus. 4. The Mediterranean summer drought provoked an earlier leaf fall. The resumption of the water flow caused the weathering of riparian soils and subsequently a large increase in dissolved organic carbon and nitrate, which led to growth of bacteria and fungi. [source] Benthic organic carbon influences denitrification in streams with high nitrate concentrationFRESHWATER BIOLOGY, Issue 7 2007CLAY P. ARANGO Summary 1. Anthropogenic activities have increased reactive nitrogen availability, and now many streams carry large nitrate loads to coastal ecosystems. Denitrification is potentially an important nitrogen sink, but few studies have investigated the influence of benthic organic carbon on denitrification in nitrate-rich streams. 2. Using the acetylene-block assay, we measured denitrification rates associated with benthic substrata having different proportions of organic matter in agricultural streams in two states in the mid-west of the U.S.A., Illinois and Michigan. 3. In Illinois, benthic organic matter varied little between seasons (5.9,7.0% of stream sediment), but nitrate concentrations were high in summer (>10 mg N L,1) and low (<0.5 mg N L,1) in autumn. Across all seasons and streams, the rate of denitrification ranged from 0.01 to 4.77 ,g N g,1 DM h,1 and was positively related to stream-water nitrate concentration. Within each stream, denitrification was positively related to benthic organic matter only when nitrate concentration exceeded published half-saturation constants. 4. In Michigan, streams had high nitrate concentrations and diverse benthic substrata which varied from 0.7 to 72.7% organic matter. Denitrification rate ranged from 0.12 to 11.06 ,g N g,1 DM h,1 and was positively related to the proportion of organic matter in each substratum. 5. Taken together, these results indicate that benthic organic carbon may play an important role in stream nitrogen cycling by stimulating denitrification when nitrate concentrations are high. [source] Toward Quantifying the Relative Importance of Invertebrate Consumption and Bioturbation in Puerto Rican StreamsBIOTROPICA, Issue 4 2008Wyatt. ABSTRACT Although many tropical stream consumers have large effects on resource quantity and quality, little is known about the relative importance of consumption versus bioturbation. We quantified egestion rates of freshwater shrimps (Atya spp. and Xiphocaris elongata) and mayflies (Leptophlebiidae) in two forest streams within the Luquillo Experimental Forest, Puerto Rico. Consumer body size was a strong predictor of egestion rates, with mass-specific egestion rates declining with body size and per-individual egestion rates increasing with body size. We used these egestion rates, together with published rates of epilithon removal by consumers and epilithon accrual by particle deposition and periphytic growth (i.e., with and without consumer access), to estimate the importance of consumption and bioturbation after storm events and during base-flow conditions. Our estimates suggest that direct consumption of epilithon can only account for a minor proportion (< 5%) of material removed following storm events, with most removal likely resulting from bioturbation. During base-flow conditions, we found that consumers (largely shrimps) may be capable of consuming a significant proportion of the material that would otherwise accrue on benthic substrata, but this result was limited to one high-elevation site. Our study suggests that bioturbation is the dominant process that redistributes and entrains fine particles after storm events, and that a variable fraction of deposited and accrued benthic material may be consumed during base-flow conditions. Our results underscore the importance of tropical stream animals in altering the benthic environment through both consumption and bioturbation, and suggest that consumer-mediated material cycling is likely to be context dependent. RESUMEN A pesar de que muchos de los consumidores en ríos tropicales tienen grandes efectos en la cantidad y calidad de los recursos, se sabe poco sobre la importancia relativa del consumo y los biodisturbios. Por ello, cuantificamos las tasas de egestión de los camarones (Atya spp. y Xiphocaris elongata) y los efemerópteros (Leptophlebiidae) en dos quebradas dentro del Bosque Experimental de Luquillo, Puerto Rico. El tamaño corporal de los consumidores fue un buen indicador de las tasas de egestión, y las tasas de egestión por masa disminuyeron con el tamaño corporal y las por individuo aumentaron con el tamaño corporal. Usamos estas tasas de egestión, junto con tasa publicadas de remoción de perifiton por los consumidores y acumulación de epiliton por la deposición y el crecimiento de perifiton (ej. con y sin consumidores), para estimar la importancia del consumo y los biodisturbios luego de tormentas y durante condiciones de flujo basal. Nuestros resultados sugieren que el consumo directo de epiliton representa una proporción menor (< 5%) del material removido luego de las tormentas, la mayor parte de la remoción es probablemente el resultado de los biodisturbios. Durante condiciones de flujo basal, encontramos que los consumidores (mayormente camarones) pueden ser capaces de consumir una proporción importante del material que de otra forma se acumularía sobre el substrato béntico, pero este resultado se limita a uno solo de los sitios. Nuestro estudio sugiere que los biodisturbios son el proceso que predomina en la redistribución y mueve partículas luego de las tormentas, y que una fracción variable del material béntico depositado y acumulado puede ser consumida durante condiciones de flujo basal. Nuestros resultados enfatizan la importancia de los animales en alterar el ambiente béntico de los ríos tropicales a través del consumo y los biodisturbios, y sugiere que el reciclaje de los materiales por los consumidores es un proceso que probablemente depende del contexto. [source] |