18 diapositivas de la visita guiada.-- Breve descripción del estado actual del Corredor Verde del Guadiamar.-- Visita guiada en el Corredor Verde del Guadiamar. Dra. María Teresa Domínguez Núñez ; The research leading to these results has received funding from the European Union Seventh Framework Programme (FP7/2007-2013) under grant agreement n° 603498 (RECARE project).' ; No
Jusqu'à sa disparition durant la décennie de 1860, le boulevard du Temple s'érige en centre névralgique de la vie théâtrale parisienne et française. Il participe alors activement au succès du genre mélodramatique, mais il accueille aussi d'autres genres populaires, comme les hippodromes et pantomimes zoologiques du Cirque Olympique. La présence animale est leur dénominateur commun. Érigés en protagonistes, les éléphants parviennent à se constituer en figures célèbres de plein droit, devenant de véritables vedettes. L'objectif du présent article est d'étudier le rôle de la presse dans la popularisation de ces vedettes animales et le surgissement du phénomène qualifié d'éléphantomanie. L'article étudie les registres émotionnels véhiculés par les journaux, porte-parole d'une opinion publique majoritairement fascinée par ces « colosses de la nature ». Il s'agit également de sonder les portraits, récits et discours de presse sur ces éléphants, autant de leur vivant, qu'après leur mise à mort. Enfin, l'article questionne l'identité hybride de ces animaux humanisés.
El objetivo del presente artículo es restablecer las dinámicas que condujeron a la constitución del imperio francés en el siglo XIX, este último entendido en cuanto espacio, así como una historia, todo ello desde una perspectiva animal. Se trata de reconstruir los desplazamientos, acontecimientos, símbolos e instituciones en los que el animal se inscribió y que lo hacen emerger como vector histórico. El trabajo analizará tres ejes principales, a saber, su valor político-diplomático, simbólico y comercial. En última instancia, lo que se busca es mostrar la participación activa y efectiva del animal en la edificación de la noción de imperio y así restituir su papel de actante en la historia industrial, científica, teatral, sino en la Historia misma. ; L'objectif du présent article est de retracer les dynamiques au cœur de la construction de l'empire français au XIXe siècle, celui-ci compris en tant qu'espace et histoire, à partir d'une perspective animale. Il s'agit en outre de reconstruire les déplacements, événements, symboles et institutions au sein desquels l'animal s'est inscrit, émergeant de ce fait en vecteur historique. Le travail portera sur trois axes principaux, à savoir, sa valeur politiquediplomatique, symbolique et commerciale. Le but ultime est donc de montrer la participation active et effective de l'animal dans la construction de la notion d'empire et ainsi restituer son rôle d'actant dans l'histoire industrielle, scientifique, théâtrale, voire dans l'histoire tout court. ; The objective of this article is to establish the dynamics that led to the constitution of the French Empire in the nineteenth century, the latter understood as a space, as well as a history, from an animal perspective. We will reconstruct the displacements, events, symbols and institutions in which animals were registered and that make them emerge as a historical vector The work will analyze three main axes, the political-diplomatic, symbolic and commercial value of animals. Ultimately, what is sought is to show the active and effective participation of animals in the construction of the notion of Empire and thus restore their role as actors in industrial, scientific and theatrical history, as well as in History itself
17 páginas.-- 9 figuras.-- 3 tablas.-- 74 referencias.-- The online version of this article (doi:10.1007/s10021-016-0062-3) contains supplementary material, which is available to authorized users. ; Understanding the response of soil respiration to climate variability is critical to formulate realistic predictions of future carbon (C) fluxes under different climate change scenarios. There is growing evidence that the influence of long-term climate variability in C fluxes from terrestrial ecosystems is modulated by adjustments in the aboveground–belowground links. Here, we studied the inter-annual variability in soil respiration from a wet shrubland going through successional change in North Wales (UK) during 13 years. We hypothesised that the decline in plant productivity observed over a decade would result in a decrease in the apparent sensitivity of soil respiration to soil temperature, and that rainfall variability would explain a significant fraction of the inter-annual variability in plant productivity, and consequently, in soil respiration, due to excess-water constraining nutrient availability for plants. As hypothesised, there were parallel decreases between plant productivity and annual and summer CO2 emissions over the 13-year period. Soil temperatures did not follow a similar trend, which resulted in a decline in the apparent sensitivity of soil respiration to soil temperature (apparent Q10 values decreased from 9.4 to 2.8). Contrary to our second hypothesis, summer maximum air temperature rather than rainfall was the climate variable with the greatest influence on aboveground biomass and annual cumulative respiration. Since summer air temperature and rainfall were positively associated, the greatest annual respiration values were recorded during years of high rainfall. The results suggest that adjustments in plant productivity might have a critical role in determining the long-term-sensitivity of soil respiration to changing climate conditions. ; This research was funded by the EU projects CLIMOOR, VULCAN and INCREASE FP7-INFRASTRUCTURE-2008-1 (Grant Agreement No. 227628)—the INCREASE project. M.T.D was supported by two postdoctoral fellowships awarded by the Spanish Government (National Science and Technology Foundation and Juan de la Cierva fellowship). ; Peer reviewed
5 páginas.-- 2 figuras.-- 2 tablas.-- 39 referencias ; Evaluating the response of soil organic matter decomposition to warming and changes in rainfall is critical to assess the likelihood of proposed positive feedbacks from the terrestrial to the atmospheric system. The response of soil respiration and extracellular activities (EEAs) to long-term warming and recurrent summer drought was studied in a wet shrubland ecosystem in Wales (UK), after 13 years of climate change simulation in a whole-ecosystem experiment. Over a year soil respiration, temperature and moisture was monitored in the field. During the summer season, coinciding with maximum soil respiration rates, soil inorganic N and P, microbial biomass and the extracellular activities (EEAs) of a selection of enzymes involved in C, N and P cycling were analysed. Based on previous field measurements of C and N mineralization, we expected a stronger response of C-cycling EEAs, in comparison to N-cycling EEAs, to drought and warming, and a greater sensitivity of C-cycling EEAs to drought than to warming. Drought had a clear impact on soil respiration during the summer season. However, the availability of inorganic N or P was not significantly affected by the treatments. Microbial biomass and C:N ratio also remained unchanged. In contrast to one of our hypothesis, C-cycling EEAs measured under non-optimal conditions that simulated soil environment in the field (pH of 4.1 and with a temperature incubation of 10 °C) showed no significant differences due to long-term warming and recurring drought treatments. Possibly, this assay approach may have obscured treatment effects on the soil enzyme pool. Our results highlight the need for developing methods for the in-situ analysis of EEAs to determine rates of reactions. ; This research was funded by the EU project FP7-INFRASTRUCTURE-2008-1 (Grant Agreement no. 227628) − the INCREASE project. M.T.D was supported by two postdoctoral fellowships awarded by the Spanish Government (National Science and Technology Foundation and Juan de la Cierva fellowship). ; Peer reviewed
11 páginas.-- 5 figuras.-- 2 tablas.-- Supplementary data related to this article can be found at http://dx.doi.org/10.1016/j.jenvman.2015.07.009. ; The revegetation of polluted sites and abandoned agricultural soils is critical to reduce soil losses and to control the spread of soil pollution in the Mediterranean region, which is currently exposed to the greatest soil erosion risk in Europe. However, events of massive plant mortality usually occur during the first years after planting, mainly due to the adverse conditions of high irradiance and drought stress. Here, we evaluated the usefulness of considering the positive plant–plant interactions (facilitation effect) in the afforestation of polluted agricultural sites, using pre-existing shrubs as nurse plants. We used nurse shrubs as planting microsites for acorns of Quercus ilex (Holm oak) along a gradient of soil pollution in southwestern Spain, and monitored seedling growth, survival, and chemical composition during three consecutive years. Seedling survival greatly increased (from 20% to more than 50%) when acorns were sown under shrub, in comparison to the open, unprotected matrix. Facilitation of seedling growth by shrubs increased along the gradient of soil pollution, in agreement with the stress gradient hypothesis that predicts higher intensity of the facilitation effects with increasing abiotic stress. Although the accumulation of trace elements in seedling leaves was higher underneath shrub, the shading conditions provided by the shrub canopy allowed seedlings to cope with the toxicity provoked by the concurrence of low pH and high trace element concentrations in the most polluted sites. Our results show that the use of shrubs as nurse plants is a promising tool for the cost-effective afforestation of polluted lands under Mediterranean conditions. Keywords ; the research leading to these results has received funding from the European Union Seventh Framework Programme (FP7/2007–2013) under grant agreement n° 603498 (RECARE), and from the Regional Ministry of Environment (Junta de Andalucía) within the SECOVER and ANASINQUE projects (PGC2010-RNM-5782). M.T.D. was supported by a Juan de la Cierva postdoctoral grant awarded to by the Spanish Ministry of Economy and Competitiveness. We are grateful to José María Alegre for his help at different stages of the study. ; Peer reviewed
4 páginas.-- 1 figura.-- 1 tabla.-- 14 referencias.-- ; Trees modify the physico-chemical and biological properties of the soil underneath. Here we present results for seven tree species planted at a site that was contaminated by a mine spill – after which soil was cleaned up and remediated – and later was afforested. We studied the chemical composition (24 elements) in five ecosystem compartments (leaves, forest floor, roots, topsoil and deep soil). The variation in chemical concentration was highest at the level of canopy leaves and lowest at deep soil. The identity of tree species significantly affected the composition of all elements in the canopies but none in the deep soil underneath. Although the observed tree effects on topsoil chemistry were weak, the footprint is expected to be reinforced with age of the plantation, contributing to the phytostabilization of contaminating elements and to the carbon sequestration. ; Thanks to J. M. Alegre for helping during sampling and to P. Burgos for chemical analyses. The research leading to these results has received funding from the European Union Seventh Framework Programme (FP7/2007–2013) under grant agreement no. 603498 (RECARE) and from the Spanish RESTECO (CGL2014-52858-R) project. ; Peer reviewed
15 páginas.-- 3 figuras.-- 3 tablas.-- referencias.-- The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fpls.2018.01682/full#supplementary-material ; There is an increasing consensus that microbial communities have an important role in mediating ecosystem processes. Trait-based ecology predicts that the impact of the microbial communities on ecosystem functions will be mediated by the expression of their traits at community level. The link between the response of microbial community traits to environmental conditions and its effect on plant functioning is a gap in most current microbial ecology studies. In this study, we analyzed functional traits of ectomycorrhizal fungal species in order to understand the importance of their community assembly for the soil–plant relationships in holm oak trees (Quercus ilex subsp. ballota) growing in a gradient of exposure to anthropogenic trace element (TE) contamination after a metalliferous tailings spill. Particularly, we addressed how the ectomycorrhizal composition and morphological traits at community level mediate plant response to TE contamination and its capacity for phytoremediation. Ectomycorrhizal fungal taxonomy and functional diversity explained a high proportion of variance of tree functional traits, both in roots and leaves. Trees where ectomycorrhizal fungal communities were dominated by the abundant taxa Hebeloma cavipes and Thelephora terrestris showed a conservative root economics spectrum, while trees colonized by rare taxa presented a resource acquisition strategy. Conservative roots presented ectomycorrhizal functional traits characterized by high rhizomorphs formation and low melanization which may be driven by resource limitation. Soil-to-root transfer of TEs was explained substantially by the ectomycorrhizal fungal species composition, with the highest transfer found in trees whose roots were colonized by Hebeloma cavipes. Leaf phosphorus was related to ectomycorrhizal species composition, specifically higher leaf phosphorus was related to the root colonization by Thelephora terrestris. These findings support that ectomycorrhizal fungal community composition and their functional traits mediate plant performance in metal-contaminated soils, and have a high influence on plant capacity for phytoremediation of contaminants. The study also corroborates the overall effects of ectomycorrhizal fungi on ecosystem functioning through their mediation over the plant economics spectrum. ; This work was financially supported by European Union Seventh Framework Programme (FP7/2007–2013) (Grant No. 603498- RECARE); Spanish Ministry of Science, Innovation and Universities (Grant No. CGL2014-52858-R- RESTECO and Grant No. CGL2017-82254-R- INTARSU). MG-M was supported by Spanish Ministry of Economy and Competitiveness (Grant No. BES-2015-073882). During manuscript preparation, ÁL-G was supported by European Union's Horizon 2020 Marie Curie Individual Fellowship (Grant No. 708530 –DISPMIC). ; Peer reviewed
12 páginas.- 5 figuras.- 4 tablas.- referencias.- The Supplementary data to this article: in https://doi.org/10.1016/j.soilbio.2020.108102 ; Soil biodiversity loss due to pollution may affect ecosystem services negatively. This environmental problem may be solved by phytoremediation, which is an effective strategy to manage and remediate contaminated areas. During this remediation process, the establishment of plant communities may improve soil fungal community structure and, in particular, may favour mycorrhizal symbiotic associations. As a consequence, afforestation of degraded lands will have different outcomes on fungal diversity and functionality, which will depend on the selected tree and shrub species. We analysed soil fungal diversity and functional guilds by high-throughput sequencing of environmental DNA in a trace element contaminated area, part of a large scale phytoremediation project running for 20 years. We selected five habitats for comparison purposes: three under the canopy of selected tree species (wild olive, white poplar and stone pine), adjacent treeless areas (grassland) and non-remediated areas (bare soil). Soil fungal diversity and richness seemed to be enhanced by phytoremediation. White poplar soil had the highest diversity and richness compared to wild olive and stone pine. Fungal communities were especially different between stone pine, with soils rich in organic C and high C:N ratio, and grassland soils. We identified 9,428 fungal OTUs from which 1,283 were assigned to a unique functional guild; the most abundant belonging to saprotrophic, plant pathogenic and ectomycorrhizal functional guilds. Ectomycorrhizal fungi were more abundant in soils under ectomycorrhizal host trees. Saprotrophs were abundant in grassland and wild olive soils, while plant pathogens were abundant in non-remediated soils. The remediation of soils (clean-up and amendment addition) allowed the natural establishment of grassland habitats throughout the study area, increasing fungal diversity, richness, taxonomy and functionality, when compared to non-remediated soils. Tree afforestation allowed the establishment of a forest type community bringing a further recruitment of fungal taxa, mainly the ectomycorrhizal fungal guild. Afforestation with different tree species showed species-specific effects on soil N, organic C, Ca and C:N ratio which led to increased spatial heterogeneity in areas with potential to recruit a wider diversity of fungi. ; This work was supported by European Union Seventh Framework Programme (FP7/2007–2013) [grant number 603498 - RECARE], and Spanish Ministry of Science, Innovation and Universities [grants number CGL2014-52858-R – RESTECO and CGL2017-82254-R – INTARSU]. MG-M was supported by Spanish Ministry of Economy and Competitiveness [grant number BES-2015-073882]. AL-G was supported by European Union's Horizon 2020 Marie Curie Individual Fellowship [grant number 708530 – DISPMIC], Spanish Ministry of Science, Innovation and Universities [grant number CGL2015-69118-C2-2-P-COEXMED-II] and University of Jaén under the Plan 6-UJA postdoctoral fellowship. MTD was supported by a postdoctoral grant by Universidad de Sevilla (V Plan Propio de Investigación) and by Spanish Ministry of Science, Innovation and Universities [grant number CGL2017-85891-R- DEGRAMED]. ; Peer reviewed
11 páginas.-- informe de los resultados y conclusiones del Taller 1 celebrado el 19 de febrero del 2015 ; El Corredor Verde del Guadiamar (provincia de Sevilla) es uno de los 17 casos de estudio del proyecto europeo RECARE (2014-2018), que tiene como finalidad encontrar métodos para evaluar las amenazas actuales de los suelos y de buscar soluciones innovadoras para evitar una mayor degradación del suelo en toda Europa. El pasado 19 de Febrero de 2015 tuvo lugar un Taller participativo en el Centro de Visitantes del Guadiamar (Aznalcázar), organizado por Engracia Madejón (IRNAS, CSIC) y María Anaya (Evenor-Tech), con los representantes de los principales sectores implicados en la gestión, estudio y uso del Corredor Verde del Guadiamar. Participaron más de 30 representantes de la Administración, Centros académicos y de investigación, Entidades de educación ambiental, Asociaciones de agricultores y ganaderos y ONGs. El propósito del taller ha sido crear una plataforma multidisciplinar desde la que identificar las principales amenazas y proponer las mejores soluciones para la recuperación de los suelos contaminados. En este primer Taller del proyecto se establecieron los contactos entre los agentes de interés y se pusieron en común las diferentes perspectivas sobre la gestión del espacio Corredor Verde del Guadiamar. Se elaboró una lista de las principales amenazas y los problemas de la zona, y se evaluaron las posibles soluciones, tecnologías y aproximaciones para la recuperación de las funciones del suelo y la provisión de los servicios ecosistémicos ; The research leading to these results has received funding from the European Union Seventh Framework Programme (FP7/2007-2013) under grant agreement n° 603498 (RECARE project).' ; No
Ecosystem services are the direct and indirect contributions of ecosystems to human well-being. Despite the importance of soil services, they are often underestimated and largely unrecognized. We introduce briefly the framework recently proposed by Schwilch et al. (2016), and present some results of the potential use of different tree species to remediate contaminated soils on Mediterranean conditions. Disruptions of biogeochemical cycles by human activities act as a direct driver of global change. The Guadiamar Green Corridor (Seville, Spain), is an example of extensive soil contamination by trace elements originated by mining activities. In the large-scale remediation and restoration plan, soil was cleaned-up, amendments were added, and trees of several native species were planted (Domínguez et al. 2008). We present some approaches to study tree-soil interactions, soil functioning and the provided ecosystem services. 1) Potential of trees for the phytostabilization of soil contaminants. The immobilization of contaminants by plant roots, litter decomposition and their associated microbes means an improvement of soil quality and therefore a regulation service. We measured the effects of different tree species (Marañón et al. 2015). 2) Carbon storage in soil. We assessed the effectiveness of different tree species in providing this regulation service. 3) Promoting soil biodiversity. We evaluated the colonization by mycorrhizal fungi of roots of Quercus ilex planted on different soil conditions of acidity and contamination level. References: Domínguez MT et al. (2008). Environmental Pollution, 152: 50-59. Marañón T et al. (2015). Web Ecology, 15: 45-48. Schwilch G et al. (2016). Ecological Indicators, 67: 586-597. ; European Union Seventh Framework Programme (FP7/2007–2013) under grant agreement n° 603498 (RECARE). Proyecto RESTECO- CGL2014-52858-R, Ministerio de Economía y Competitividad, Programa Retos. ; No
Comunicación oral en la Sesión 66- "Soil-Plant Interactions and Soil Ecosystem Services Delivery" del "5th International Ecosummit. Ecological Sustainability. Engineering Change", 29 August - 1 September, 2016, Montpellier, Francia. ; Introduction. Afforestation on contaminated soils contributes to stabilization of trace elements, and to carbon accumulation in biomass and soil. We have assessed two ecosystem services - phytoremediation and carbon sequestration – delivered by trees and shrubs planted on a contaminated land. Methods. The Guadiamar Green Corridor (SW Spain) is a large-scale case of phytoremediation. After the 1998 mine spill, which contaminated over 4000 ha, soil was cleaned up, remediated and afforested. For phytoremediation assessment, we selected seven tree species and measured concentration of 24 mineral elements, 13C and 15N, in five ecosystem compartments: leaves, roots, litterfall, topsoil and deep soil. For carbon sequestration assessment, we selected four woody species in three sites. We measured soil carbon fractions, microbial biomass and a suit of soil enzyme activities. Soil respiration was monitored over one year in one of the sites. Results. Tree leaves had the highest variation in chemical concentration (mean CV 79%), and the identity of tree species was a major source of variation. In contrast, topsoil had lower variation (mean CV 25%) and only three elements presented significant differences associated to tree species. Microbial biomass and activity was strongly influenced by soil pH, increasing under trees which neutralized soil acidity, like Populus. Soil underneath trees accumulated more organic matter and lost less C by respiration than in the open microsites. Discussion. Soil chemical footprint of seven planted tree species was still weak, 16 years after plantation, probably due to their young age. However, those trees planted in a contaminated and remediated soil were contributing effectively to the phytostabilization of trace elements by their immobilization in roots and organic matter. Soil underneath trees presented a higher net contribution to carbon sequestration than open. The role of tree plantations in contaminated soils and their potential delivering ecosystem services are discussed. ; European Union: Seventh Framework Programme grant 603498. RECARE project. ; Spanish Ministry of Economy and Competitivity: RESTECO project - CGL2014-52858-R ; No
8 páginas.-- 6 figuras.-- 2 tablas.-- referencias ; Riparian areas are highly dynamic systems where the control of soil pollution might be particularly challenging. Limited accessibility to river banks and bed sediments makes reclamation operations particularly difficult in these topographical positions, in comparison to floodplains. This usually leads to the large-scale spread of pollutants following pollution episodes in riparian areas. Here, we aimed to evaluate the persistence of trace-element pollution in the soils of Guadiamar River Valley (SW Spain), a large-scale remediation after a mine-spill. We monitored topsoil along the river basin, and in different topographical positions across the river section (river channel, river banks and floodplain), 16. years after a pollution episode and subsequent remediation program. River channels and banks were identified as hotspots of soil pollution, where soluble concentrations of As, Cd and Zn were significantly higher than in floodplains. Along the basin, soil pH and carbonate content was highly variable as a result of contrasted geological background, differential loads of sulfide deposition after the accident and irregular effectiveness of the applied amendments. Cadmium and Zn showed the highest levels of long-term re-distribution from the pollution source. The results suggests that the stabilization and remediation of soil pollution in river banks and channels, often overlooked when achieving remediation works, should be a priority for land managers. ; The research leading to these results has received funding from the European Union Seventh Framework Programme (FP7/2007–2013) under grant agreement n° 603498 (RECARE). M.T.D. was supported by a Juan de la Cierva postdoctoral grant awarded by the Spanish Ministry of Economy and Competitiveness. We are grateful to Patricia Puente and Cristina García for their help at different stages of the study. ; Peer Reviewed
Comunicación oral y póster presentados en la Reunión Plenaria del proyecto europeo RECARE, Hella, Islandia, 29 mayo-2 junio 2017. Se presentan resultados sobre las dos medidas de recuperación de suelos contaminados evaluadas en el Corredor Verde del Guadiamar: a) adición de enmiendas y b) plantación de árboles. ; Evaluation of two measures to remediate contaminated soils at the Guadiamar study site (Spain): a) amendment addition and b) tree plantation. Contribution to the RECARE Plenary Meeting, 2017 (Hella, Iceland). ; European Union 7th Framework Programme. ; No
22 páginas.-- 5 figuras.-- 4 tablas.-- 89 referencias.-- : All relevant data are within the paper and its Supporting Information file https://doi.org/10.1371/journal.pone.0180240 ; Soil pollution by trace elements (TEs) from mining and industrial activity is widespread and presents a risk to humans and ecosystems. The use of trees to immobilize TEs (phytostabilization) is a low-cost and effective method of soil remediation. We aimed to determine the chemical composition of leaves and flower buds of Eucalyptus camaldulensis in seven sites along the Guadiamar River valley (SW Spain), an area contaminated by a mine-spill in 1998. E. camaldulensis trees in the spill-affected area and adjacent non affected areas were growing on a variety of soils with pH from 5.6 to 8.1 with low concentration of plant nutrients. The spill affected soils contained up to 1069 mg kg-1 of As and 4086 mg kg-1 of Pb. E. camaldulensis tolerated elevated TE concentrations in soil and, compared to other species growing in the same environment, had low TE concentrations in the aerial portions. Besides tolerance to soil contamination, E. camaldulensis had low bioaccumulation coefficients for soil contaminants. TE concentrations in the aboveground portions were below levels reported to be toxic to plants or ecosystems. Flower buds had even lower TE concentrations than leaves. Despite the relatively low concentration of TEs in leaves they were significantly correlated with the soil extractable (0.01 M CaCl2) Cd, Mn and Zn (but not Cu and Pb). The general features of this tree species: tolerance to impoverished and contaminated soils, fast growth and deep root system, and low transfer of TEs from soil to aboveground organs makes it suitable for phytostabilization of soils contaminated by TEs. In addition, eucalyptus leaves could be used for biomonitoring the soil extractability of Cd, Mn and Zn but not Cu or Pb. ; This work has been funded by the European Union Seventh Framework Programme (FP7/2007-2013) under grant agreement n˚ 603498 (RECARE), and by the Spanish Ministry of Economy and Competitiveness, project RESTECO (CGL-2014-52858-R). ; Peer reviewed