Your search keyword '"Margarita Menéndez"' showing total 4 results

1. Dam removal effects on carbon processing in a mountainous Mediterranean stream

Author

Bega, João Miguel Merces, Cunha, Davi Gasparini Fernandes, López, Margarita Menéndez, Camacho-Santamans, Alba, and von Schiller, Daniel

Published

2024

2. Drought and detritivores determine leaf litter decomposition in calcareous streams of the Ebro catchment (Spain)

Author

Silvia Monroy, Jesús Pozo, Ana Basaguren, Javier Pérez, Arturo Elosegi, Margarita Menéndez, and Universitat de Barcelona

Subjects

0106 biological sciences, Mediterranean climate, Leaves, Food Chain, Environmental Engineering, Water stress, Ebro River (Spain), STREAMS, Fulles, Alnus, 010603 evolutionary biology, 01 natural sciences, Alder, Quercus, Rivers, Decomposition (Chemistry), Litter breakdown, Curs d'aigua) [Ebre (Espanya], Climate change, Canvi climàtic, Environmental Chemistry, Ecosystem, Waste Management and Disposal, Hydrology, Biomass (ecology), biology, Descomposició (Química), 010604 marine biology & hydrobiology, Detritivore, Climatic changes, Plant litter, biology.organism_classification, Pollution, Climatic change, Droughts, Plant Leaves, Biodegradation, Environmental, Spain, Ecosystem functioning, Litter, Environmental science, Leaf quality, Canvis climàtics, Environmental Monitoring

Abstract

Drought, an important environmental factor affecting the functioning of stream ecosystems, is likely to become more prevalent in the Mediterranean region as a consequence of climate change and enhanced water demand. Drought can have profound impacts on leaf litter decomposition, a key ecosystem process in headwater streams, but there is still limited information on its effects at the regional scale. We measured leaf litter decomposition across a gradient of aridity in the Ebro River basin. We deployed coarse- and fine-mesh bags with alder and oak leaves in 11 Mediterranean calcareous streams spanning a range of over 400km, and determined changes in discharge, water quality, leaf-associated macroinvertebrates, leaf quality and decomposition rates. The study streams were subject to different degrees of drought, specific discharge (Ls−1km−2) ranging from 0.62 to 9.99. One of the streams dried out during the experiment, another one reached residual flow, whereas the rest registered uninterrupted flow but with different degrees of flow variability. Decomposition rates differed among sites, being lowest in the 2 most water-stressed sites, but showed no general correlation with specific discharge. Microbial decomposition rates were not correlated with final nutrient content of litter nor to fungal biomass. Total decomposition rate of alder was positively correlated to the density and biomass of shredders; that of oak was not. Shredder density in alder bags showed a positive relationship with specific discharge during the decomposition experiment. Overall, the results point to a complex pattern of litter decomposition at the regional scale, as drought affects decomposition directly by emersion of bags and indirectly by affecting the functional composition and density of detritivores.

Published

2016

3. Heterogeneity in leaf litter decomposition in a temporary Mediterranean stream during flow fragmentation

Author

Meritxell Abril, Isabel Muñoz, Margarita Menéndez, and Universitat de Barcelona

Subjects

0106 biological sciences, Leaves, Environmental Engineering, Nitrogen, Biodegradació, Fulles, 010603 evolutionary biology, 01 natural sciences, Black poplar, Rivers, Dissolved organic carbon, Water Movements, Environmental Chemistry, Ecosystem, Waste Management and Disposal, Ecologia fluvial, Biomass (ecology), Bacteria, biology, Ecology, 010604 marine biology & hydrobiology, Aquatic ecosystem, fungi, Fungi, Plant litter, biology.organism_classification, Pollution, Stream ecology, Spatial heterogeneity, Plant Leaves, Biodegradation, Environmental, Biodegradation, Litter, Environmental science, Seasons, Environmental Monitoring

Abstract

In temporary Mediterranean streams, flow fragmentation during summer droughts originates an ephemeral mosaic of terrestrial and aquatic habitat types. The heterogeneity of habitat types implies a particular ecosystem functioning in temporary streams that is still poorly understood. We assessed the initial phases of leaf litter decomposition in selected habitat types: running waters, isolated pools and moist and dry streambed sediments. We used coarse-mesh litter bags containing Populus nigm leaves to examine decomposition rates, microbial biomass, macroinvertebrate abundance and dissolved organic carbon (DOC) release rates in each habitat type over an 11-clay period in late summer. We detected faster decomposition rates in aquatic (limning waters and isolated pools) than in terrestrial habitats (moist and dry streambed sediments). Under aquatic conditions, decomposition was characterized by intense leaching and early microbial colonization, which swiftly started to decompose litter. Microbial colonization in isolated pools was primarily dominated by bacteria, whereas in running waters fungal biomass predominated. Under terrestrial conditions, leaves were most often affected by abiotic processes that resulted in small mass losses. We found a substantial decrease in DOC release rates in both aquatic habitats within the first days of the study, whereas DOC release rates remained relatively stable in the moist and dry sediments.This suggests that leaves play different roles as a DOC source during and after flow fragmentation. Overall, our results revealed that leaf decomposition is heterogeneous during flow fragmentation, which has implications related to DOC utilization that should be considered in future regional carbon budgets. (C) 2016 Elsevier B.V. All rights reserved.

Published

2016

4. Effects of water flow regulation on ecosystem functioning in a Mediterranean river network assessed by wood decomposition

Author

Joan Pere Casas-Ruiz, Francesc Oliva, Meritxell Abril, Margarita Menéndez, Isabel Muñoz, Milagros Barceló, and Lluís Gómez-Gener

Subjects

Mediterranean climate, Hydrology, Biomass (ecology), geography, Environmental Engineering, River ecosystem, geography.geographical_feature_category, Ecology, Water flow, Drainage basin, Lake ecosystem, STREAMS, Wood, Pollution, Plant Leaves, Rivers, Water Movements, Environmental Chemistry, Environmental science, Ecosystem, Biomass, Seasons, Waste Management and Disposal, Environmental Monitoring

Abstract

Mediterranean rivers are extensively modified by flow regulation practises along their courses. An important part of the river impoundment in this area is related to the presence of small dams constructed mainly for water abstraction purposes. These projects drastically modified the ecosystem morphology, transforming lotic into lentic reaches and increasing their alternation along the river. Hydro-morphologial differences between these reaches indicate that flow regulation can trigger important changes in the ecosystem functioning. Decomposition of organic matter is an integrative process and this complexity makes it a good indicator of changes in the ecosystem. The aim of this study was to assess the effect caused by flow regulation on ecosystem functioning at the river network scale, using wood decomposition as a functional indicator. We studied the mass loss from wood sticks during three months in different lotic and lentic reaches located along a Mediterranean river basin, in both winter and summer. Additionally, we identified the environmental factors affecting decomposition rates along the river orders. The results revealed differences in decomposition rates between sites in both seasons that were principally related to the differences between stream orders. The rates were mainly related to temperature, nutrient concentrations (NO2(-), NO3(2-)) and water residence time. High-order streams with higher temperature and nutrient concentrations exhibited higher decomposition rates compared with low-order streams. The effect of the flow regulation on the decomposition rates only appeared to be significant in high orders, especially in winter, when the hydrological characteristics of lotic and lentic habitats widely varied. Lotic reaches with lower water residence time exhibited greater decomposition rates compared with lentic reaches probably due to more physical abrasion and differences in the microbial assemblages. Overall, our study revealed that in high orders the reduction of flow caused by flow regulation affects the wood decomposition indicating changes in ecosystem functioning.

Published

2015