44 results on '"Rojo, Naiara"'
Search Results
2. Automatic Feedback and Assessment of Team-Coding Assignments in a DevOps Context
- Author
-
Fernandez-Gauna, Borja, Rojo, Naiara, and Graña, Manuel
- Abstract
We describe an automated assessment process for team-coding assignments based on DevOps best practices. This system and methodology includes the definition of Team Performance Metrics measuring properties of the software developed by each team, and their correct use of DevOps techniques. It tracks the progress on each of metric by each group. The methodology also defines Individual Performance Metrics to measure the impact of individual student contributions to increase in Team Performance Metrics. Periodically scheduled reports using these metrics provide students valuable feedback. This process also facilitates the process of assessing the assignments. Although this method is not intended to produce the final grade of each student, it provides very valuable information to the lecturers. We have used it as the main source of information for student and team assessment in one programming course. Additionally, we use other assessment methods to calculate the final grade: written conceptual tests to check their understanding of the development processes, and cross-evaluations. Qualitative evaluation of the students filling relevant questionnaires are very positive and encouraging.
- Published
- 2023
- Full Text
- View/download PDF
3. Automatic feedback and assessment of team-coding assignments in a DevOps context
- Author
-
Fernandez-Gauna, Borja, Rojo, Naiara, and Graña, Manuel
- Published
- 2023
- Full Text
- View/download PDF
4. Effects of gamma irradiation on instream leaf litter decomposition
- Author
-
Boyero, Luz, López-Rojo, Naiara, Pérez, Javier, Tonin, Alan M., Correa-Araneda, Francisco, Davis, Aaron, and Pearson, Richard G.
- Published
- 2021
- Full Text
- View/download PDF
5. Loss of Key Riparian Plant Species Impacts Stream Ecosystem Functioning
- Author
-
Alonso, Alberto, Pérez, Javier, Monroy, Silvia, López-Rojo, Naiara, Basaguren, Ana, Bosch, Jaime, and Boyero, Luz
- Published
- 2021
- Full Text
- View/download PDF
6. Plant diversity loss affects stream ecosystem multifunctionality
- Author
-
López-Rojo, Naiara, Pozo, Jesús, Pérez, Javier, Basaguren, Ana, Martínez, Aingeru, Tonin, Alan M., Correa-Araneda, Francisco, and Boyero, Luz
- Published
- 2019
7. A feasibility study of the installation of a modular bioreactor inside a chemical scrubber at a wastewater treatment plant
- Author
-
Barona, Astrid, Malo, Adrián, Elías, Ana, Rojo, Naiara, Santaolalla, Arrate, and Gallastegui, Gorka
- Published
- 2021
- Full Text
- View/download PDF
8. Drying and fragmentation drive the dynamics of resources, consumers and ecosystem functions across aquatic‐terrestrial habitats in a river network.
- Author
-
Sarremejane, Romain, Silverthorn, Teresa, Arbaretaz, Angélique, Truchy, Amélie, Barthélémy, Nans, López‐Rojo, Naiara, Foulquier, Arnaud, Simon, Laurent, Pella, Hervé, Singer, Gabriel, and Datry, Thibault
- Subjects
INVERTEBRATE communities ,HABITATS ,CONSUMERS ,COMPETITION (Biology) - Abstract
Rivers form meta‐ecosystems, in which disturbance and connectivity control biodiversity, ecosystem functioning and their interactions across the river network, but also across connected instream and riparian ecosystems. This aquatic–terrestrial linkage is modified by drying, a disturbance that also naturally fragments river networks and thereby modifies organism dispersal and organic matter (OM) transfers across the river network. However, little evidence of the effects of drying on river network‐scale OM cycling exists. Here, we assessed the effects of fragmentation by drying at the river meta‐ecosystem scale by monitoring leaf resource stocks, invertebrate communities and decomposition rates, across three seasons and 20 sites, in the instream and riparian habitats of a river network naturally fragmented by drying. Although instream leaf resource quantity and quality increased, leaf‐shredder invertebrate richness and abundance decreased with flow intermittence. Decomposition was, however, mainly driven by network‐scale fragmentation and connectivity. Shredder richness and invertebrate‐driven decomposition both peaked at sites with intermediate amounts of intermittent reaches upstream, suggesting that upstream drying can promote the biodiversity and functioning of downstream ecosystems. Shredder richness, however, had a negative effect on decomposition in perennial sites, likely due to interspecific competition. Leaf quantity, invertebrate communities and invertebrate‐driven decomposition became more similar between instream and riparian habitats as drying frequency increased, likely due to homogenization of environmental conditions between both habitats as the river dried. Our study demonstrates the paramount effects of drying on the dynamics of resources, communities and ecosystem functioning in rivers and presents evidence of one of the first network‐scale examples of the co‐drivers of ecosystem functions across terrestrial–aquatic boundaries. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
9. Viability of two alternatives for treating waste solutions from the biomachining process
- Author
-
Santaolalla, Arrate, García, Josu, Rojo, Naiara, Barona, Astrid, and Gallastegui, Gorka
- Published
- 2020
- Full Text
- View/download PDF
10. A common fungicide impairs stream ecosystem functioning through effects on aquatic hyphomycetes and detritivorous caddisflies
- Author
-
Cornejo, Aydeé, Pérez, Javier, Alonso, Alberto, López-Rojo, Naiara, Monroy, Silvia, and Boyero, Luz
- Published
- 2020
- Full Text
- View/download PDF
11. Shifts in Key Leaf Litter Traits Can Predict Effects of Plant Diversity Loss on Decomposition in Streams
- Author
-
López-Rojo, Naiara, Pérez, Javier, Pozo, Jesús, Basaguren, Ana, Apodaka-Etxebarria, Unai, Correa-Araneda, Francisco, and Boyero, Luz
- Published
- 2021
- Full Text
- View/download PDF
12. Microplastics increase susceptibility of amphibian larvae to the chytrid fungus Batrachochytrium dendrobatidis
- Author
-
Bosch, Jaime, Thumsová, Barbora, López-Rojo, Naiara, Pérez, Javier, Alonso, Alberto, Fisher, Matthew C., and Boyero, Luz
- Published
- 2021
- Full Text
- View/download PDF
13. Impacts of detritivore diversity loss on instream decomposition are greatest in the tropics
- Author
-
Boyero, Luz, López-Rojo, Naiara, Tonin, Alan M., Pérez, Javier, Correa-Araneda, Francisco, Pearson, Richard G., Bosch, Jaime, Albariño, Ricardo J., Anbalagan, Sankarappan, Barmuta, Leon A., Basaguren, Ana, Burdon, Francis J., Caliman, Adriano, Callisto, Marcos, Calor, Adolfo R., Campbell, Ian C., Cardinale, Bradley J., Jesús Casas, J., Chará-Serna, Ana M., Chauvet, Eric, Ciapała, Szymon, Colón-Gaud, Checo, Cornejo, Aydeé, Davis, Aaron M., Degebrodt, Monika, Dias, Emerson S., Díaz, María E., Douglas, Michael M., Encalada, Andrea C., Figueroa, Ricardo, Flecker, Alexander S., Fleituch, Tadeusz, García, Erica A., García, Gabriela, García, Pavel E., Gessner, Mark O., Gómez, Jesús E., Gómez, Sergio, Gonçalves, Jr, Jose F., Graça, Manuel A. S., Gwinn, Daniel C., Hall, Jr, Robert O., Hamada, Neusa, Hui, Cang, Imazawa, Daichi, Iwata, Tomoya, Kariuki, Samuel K., Landeira-Dabarca, Andrea, Laymon, Kelsey, Leal, María, Marchant, Richard, Martins, Renato T., Masese, Frank O., Maul, Megan, McKie, Brendan G., Medeiros, Adriana O., Erimba, Charles M. M’, Middleton, Jen A., Monroy, Silvia, Muotka, Timo, Negishi, Junjiro N., Ramírez, Alonso, Richardson, John S., Rincón, José, Rubio-Ríos, Juan, dos Santos, Gisele M., Sarremejane, Romain, Sheldon, Fran, Sitati, Augustine, Tenkiano, Nathalie S. D., Tiegs, Scott D., Tolod, Janine R., Venarsky, Michael, Watson, Anne, and Yule, Catherine M.
- Published
- 2021
- Full Text
- View/download PDF
14. River network‐scale drying impacts the spatiotemporal dynamics of greenhouse gas fluxes.
- Author
-
Silverthorn, Teresa, López‐Rojo, Naiara, Sarremejane, Romain, Foulquier, Arnaud, Chanudet, Vincent, Azougui, Abdelkader, del Campo, Rubén, Singer, Gabriel, and Datry, Thibault
- Subjects
- *
GAS dynamics , *GREENHOUSE gases , *CARBON dioxide , *BIOGEOCHEMICAL cycles , *NITROUS oxide , *RIPARIAN areas , *ADAPTIVE fuzzy control , *SCALE-free network (Statistical physics) - Abstract
Rivers significantly contribute to global biogeochemical cycles; however, we have a limited understanding of how drying may influence these cycles. Drying fragments river networks, thereby influencing important ecosystem functions such as the processing of carbon and nitrogen, and associated fluxes of greenhouse gases (GHGs) both locally, and at the river network scale. Our objective was to assess, using a network‐scale approach, the lateral, longitudinal, and temporal dynamics of GHG fluxes in a river network naturally fragmented by drying. We used a closed‐loop chamber with automated analyzers to measure carbon dioxide (CO2), methane (CH4), and nitrous oxide (N2O) fluxes from dry sediments, flowing waters, isolated pools, and riparian soils, along with a suite of environmental variables, over 9 months at 20 sites across a non‐perennial river network in France. Network‐scale drying had a spatial and temporal legacy effect on GHG fluxes. On average, CO2 fluxes were up to 29 times higher from perennial than non‐perennial sites under flowing conditions. At non‐perennial sites, CO2 and N2O fluxes positively covaried with time since rewetting. In addition, CO2 and N2O fluxes at perennial sites positively covaried with the percent of non‐perennial reaches upstream, indicating a spatial effect of drying. GHG fluxes from riparian soil and dry riverbed sediments had markedly different magnitudes and covariates. This research demonstrates that drying not only has a local‐scale impact but also influences GHG fluxes at the network scale, contributing valuable insights for upscaling global riverine GHG estimates. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
15. Effects of two measures of riparian plant biodiversity on litter decomposition and associated processes in stream microcosms
- Author
-
López-Rojo, Naiara, Pérez, Javier, Basaguren, Ana, Pozo, Jesús, Rubio-Ríos, Juan, Casas, J. Jesús, and Boyero, Luz
- Published
- 2020
- Full Text
- View/download PDF
16. Greenhouse gas dynamics in river networks fragmented by drying and damming.
- Author
-
Silverthorn, Teresa, López‐Rojo, Naiara, Foulquier, Arnaud, Chanudet, Vincent, and Datry, Thibault
- Subjects
- *
GAS dynamics , *GREENHOUSE gases , *CLIMATE change mitigation , *LITERATURE reviews , *DAMS , *WATER temperature - Abstract
River fragmentation by drying and damming is occurring more frequently in the Anthropocene era, yet there is limited knowledge of how this fragmentation influences greenhouse gas (GHG) fluxes in river networks. River networks have the potential to be important sources of GHGs to the atmosphere through both similar and dissimilar mechanisms associated with temporary (drying) and permanent (damming) fragmentation.We conducted a review of the literature and found 49, 43 and six studies about GHGs (CO2, CH4 and N2O) in rivers impacted by damming, drying and their interaction, respectively.We found research lacking in non‐arid climates and in small water‐retention structures for studies regarding drying and damming, respectively. The major factors directly influencing GHG fluxes in river networks impacted by drying were sediment moisture, temperature, organic matter content and texture. In networks impacted by damming, the most influential factors were water temperature, dissolved oxygen, and phytoplankton Chlorophyll‐a.Based on our literature review and meta‐ecosystem theory, we propose that the spatial distribution of fragmentation strongly influences GHG fluxes at the river‐network scale.The actionable future research directions identified here will help to improve our understanding of the effects of fragmentation by drying and damming on GHG fluxes, with the potential to inform river management and climate change mitigation strategies. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
17. Downstream bioprocessing of CS2-polluted emissions: Innovative use of a black slag in mixed biofilters
- Author
-
Rojo, Naiara, Prenafeta-Boldú, Francesc X., Illa, Josep, Gallastegui, Gorka, Guivernau, Miriam, Elías, Ana, and Barona, Astrid
- Published
- 2015
- Full Text
- View/download PDF
18. A Unique Historical Case to Understand the Present Sustainable Development
- Author
-
Barona, Astrid, Etxebarria, Begoña, Aleksanyan, Aida, Gallastegui, Gorka, Rojo, Naiara, and Diaz-Tena, Estibaliz
- Published
- 2017
- Full Text
- View/download PDF
19. Role of Thiobacillus thioparus in the biodegradation of carbon disulfide in a biofilter packed with a recycled organic pelletized material
- Author
-
Prenafeta-Boldú, Francesc X., Rojo, Naiara, Gallastegui, Gorka, Guivernau, Miriam, Viñas, Marc, and Elías, Ana
- Published
- 2014
- Full Text
- View/download PDF
20. Sustainable mold biomachining for the manufacturing of microfluidic devices.
- Author
-
Santaolalla, Arrate, Alvarez-Braña, Yara, Barona, Astrid, Basabe-Desmonts, Lourdes, Benito-Lopez, Fernando, and Rojo, Naiara
- Subjects
MICROFLUIDIC devices ,PRESSURE-sensitive adhesives ,MOLDING materials ,COPPER - Abstract
[Display omitted] • Biomachining was a feasible new technique for generating microfluidic metallic molds. • The simple combination of a mask and a varnish was effective for piece preparation. • The bioregeneration of the medium considerably enhanced the process sustainability. • The regenerated medium allowed a repetitive process in consecutive etching stages. • The bioengraved pieces acted as effective molds for the fabrication of PDMS devices. Biomachining has been investigated as a sustainable and effective alternative to conventional prototyping techniques for molding polymeric materials for their subsequent use as microfluidic devices. A novel and simple process based on the combination of a Pressure Sensitive Adhesive mask and a varnish has been proposed for preparing metal workpieces as an alternative to photolithography, with the latter being the most widely used technique for protecting workpieces. As far as the bioprocess is concerned, it has been applied in successive mold-etching and oxidant bio-regeneration stages. Metal solubilization has proven to be repeatable in several consecutive mold-etching stages when using the regenerated oxidant solution. As a result, the lifespan of the biomachining medium has been prolonged, contributing to process sustainability. An equation with two restrictions has been proposed to predict the time required to obtain a mold with a fixed height, as metal solubilization evolves differently between the first and subsequent hours. Finally, the bio-engraved copper pieces have acted as effective molds in the fabrication of self-powered polydimethylsiloxane microfluidic devices. This new biomachining application is therefore an effective and ecofriendly process for producing microfluidic devices. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
21. Functional consequences of alder and oak loss in stream ecosystems.
- Author
-
Alonso, Alberto, López‐Rojo, Naiara, Pérez, Javier, and Boyero, Luz
- Subjects
- *
ALNUS glutinosa , *ALDER , *ENGLISH oak , *RIPARIAN plants , *NATIVE plants , *OAK - Abstract
Alder (Alnus glutinosa) and oak (Quercus robur) are dominant tree species in European Atlantic mixed forests, and their leaf litter is a key resource for stream ecosystems. While alder litter has higher nutrient content and palatability than other species and is rapidly processed in the stream by detritivores and microorganisms, oak litter is a tougher and less nutritious but more persistent resource. Given that both species are declining due to the spread of the fungal pathogens Phytophthora alni and Phytophthora cinnamomi, respectively, we investigated how their reduction or loss might alter stream ecosystem functioning through changes in litter decomposition, invertebrate detritivore (Sericostoma pyrenaicum) growth and stoichiometry, and fungal decomposer assemblage characteristics.We conducted a microcosm experiment where we incubated litter mixtures representing different scenarios of alder and oak reduction or loss (and a concomitant increase in the other species), compared to a control that contained the four most common species in the study area (alder, oak, hazel [Corylus avellana] and willow [Salix atrocinerea]) in the same proportions as found in nature. The experiment lasted for 9 weeks, with the above variables measured every 3 weeks.Decomposition rates changed depending on which species was lost. Rates decreased as a result of alder loss and increased following oak loss. Sericostoma nutrient assimilation also responded to species loss, increasing and decreasing following alder and oak loss, respectively, possibly due to compensatory assimilation. Differences in Sericostoma nutrient concentrations among treatments decreased with time in the case of nitrogen, whereas they increased for phosphorus, probably due to microbial colonisation.The presence of oak also constrained microbial activity at the end of the experiment, reducing sporulation rates and causing differences in assemblage structure, probably due to inhibitory traits such as tannins or phenolic compounds.Treatments examining the loss of both species did not differ from the control, either in decomposition or sporulation rate, since loss of both alder and oak counteracted their effects. However, sporulation rates were higher for the scenario with loss of both species than for treatments with either alder reduction or loss, whereas sporulation rate and assemblage structure in the treatment with loss of both species were similar to the scenarios with oak reduction and loss, indicating that oak loss is more important for microbial activity.Changes in nutrient assimilation throughout the experiment suggested that effects of plant species reduction and loss can alter ecosystem functioning depending not only on litter palatability, but also on detritivore life stage. Overall, our results provide evidence for the importance of maintaining native riparian vegetation to preserve various ecosystem functions. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
22. Reverse-flow strategy in biofilters treating CS2 emissions
- Author
-
Rojo, Naiara, Gallastegui, Gorka, Gurtubay, Luis, Barona, Astrid, and Elías, Ana
- Published
- 2013
- Full Text
- View/download PDF
23. Biotechnology as an alternative for carbon disulfide treatment in air pollution control
- Author
-
Rojo, Naiara, Gallastegi, Gorka, Barona, Astrid, Gurtubay, Luis, Ibarra-Berastegi, Gabriel, and Ellas, Ana
- Subjects
Carbon disulfide -- Environmental aspects ,Bioreactors -- Usage ,Biotechnology -- Research ,Air quality management -- Methods ,Environmental issues - Abstract
Biotechnology has emerged as an affordable, effective, and eco-friendly alternative to treat carbon disulfide ([CS.sub.2]) containing waste gases. Carbon disulfide is a chemical of widespread use both in the past and in the present. Its industry demand has dramatically changed over the last two decades and is expected to grow in future in step with those industries involving fibre, mining, rubber products, and the agro-chemical sector. This compound, classified as a hazardous air pollutant about 20 years ago, has been re-appraised, as increasingly restrictive pollution standards are expected to be introduced. An array of physical-chemical technologies for treating [CS.sub.2] containing air are already in use, but they have a series of drawbacks, such as high energy consumption (incineration, thermal oxidation), the immobilization of the contaminant solely from one phase to another (adsorption), and the generation of secondary by-products that require additional treatment (hydrolysis). Thus, technological research on affordable processing alternatives is of considerable interest for related industries using or producing [CS.sub.2]. The biological technologies whose efficiency is based on the activity of microorganisms to biodegrade air pollutants overcome many of the disadvantages of conventional techniques and are especially useful for the removal of relatively low concentrations of pollutants. In this paper, the main properties, sources, and uses of [CS.sub.2] are summarized, and alternative biotreatments for [CS.sub.2] are reviewed. Several applications of the technical and economical feasibility of biofilters and biotrickling filters are shown, although their widespread industrial application still requires further research. Key words: carbon disulfide, bioreactors, air pollution control, biotechnology, industrial emissions. La biotechnologie devient une alternative abordable, efficace et eecologiquement acceptable pour traiter les deechets gazeux contenant du disulfure de carbone ([CS.sub.2]). Le [CS.sub.2] est une substance chimique d'utilisation tresrepandue dans le passe; aussi bien que presentement. Sa demande industrielle a fortement change; au cours des deux dernieeres decades et l'on s'attend a ce qu'elle prenne de l'expansion dans le future, de concert avec l'engagement de ces industries dans les secteurs de la fibre, des mines, des produits du caoutchouc et du secteur agrochimique. Ce compose, classified comme dangereux polluant de l'air il y a environ 20 ans a ete reeevalue, car on s'attend a l'introduction de nouveaux standards de plus en plus restrictifs de pollution. On utilise deja un ensemble de technologies physico-chimiques pour traiter l'air contenant du [CS.sub.2], mais ils preesentent des probleemes comme une forte consommation d'energie (incineration, oxydation thermique) l'immobilisation du contaminant uniquement d'une phase a une autre (adsorption) et la generation de produits secondaires qui neecessitent un traitement additionnel (hydrolyses). Ainsi, la recherche technologique de procedes alternatifs abordables presente un inteeret considerable pour les industries utilisant ou produisant du disulfure de carbone. Les techniques biologiques, dont l'efficacite est basee sur l'activite de microorganismes degradant les polluants de l'air, evitent plusieurs des desavantages des techniques conventionnelles et deviennent particulieerement utiles pour eeliminer les contaminants a faibles concentrations. Les auteurs passent en revue et reesument les principales proprietees ainsi que les sources et les usages du [CS.sub.2], et examinent les traitements biologiques alternatifs. On presente plusieurs applications de la faisabilite technique et economique des biofiltres et des filtres par biotrickling, bien que leurs applications industrielles generaliseees demandent encore des recherches. Mots-cles: disulfide de carbone, bioreeacteurs, controle de la pollution de l'air, biotechnologie, emissions industrielles. [Traduit par la Redaction], 1. Introduction Carbon disulfide ([CS.sub.2], CAS Reg. No. 75-15-0) is also known as carbon bisulphide or dithiocarbonic anhydride (ATSDR 1996). Carbon disulfide is a colourless to faintly yellow liquid. The [...]
- Published
- 2010
- Full Text
- View/download PDF
24. Preliminary acclimation strategies for successful startup in conventional biofilters
- Author
-
Elias, Ana, Barona, Astrid, Gallastegi, Gorka, Rojo, Naiara, Gurtubay, Luis, and Ibarra-Berastegi, Gabriel
- Subjects
Water treatment plants -- Equipment and supplies ,Biofiltration -- Analysis ,Environmental services industry ,Environmental issues ,Science and technology - Abstract
ABSTRACT The question of how to obtain the best inocula for conventional biofilters arises when an acclimation/adaptation procedure is to be applied. Bearing in mind that no standardized procedure for [...]
- Published
- 2010
- Full Text
- View/download PDF
25. Multiple Intelligence Informed Resources for Addressing Sustainable Development Goals in Management Engineering.
- Author
-
Etxebarria, Begoña, Sánchez, Francisco, Rojo, Naiara, and Barona, Astrid
- Abstract
The competence-based model focuses on acquiring skills and abilities, yet each student's individual circumstances condition the way in which they learn, develop, and implement them. Accordingly, there is a growing interest in defining learning activities that consider the diverse range of intelligences, abilities, and prevailing mindsets in each individual in order to promote inclusive education and sustainable development. This article seeks to design a methodology for the teaching–learning resources associated with the nature of the prevailing intelligence in the competence-based model. Thus, the "competence-intelligence-resource triangle" was proposed for promoting inclusive education in the degree in Management Engineering at the University of the Basque Country (UPV/EHU). A total of 99 teaching–learning resources, 11 competences, and 9 types of intelligence were combined. As far as the multiple intelligence approach is concerned, the 50 students surveyed prioritized logical–mathematical, interpersonal, intrapersonal, linguistic, and spatial intelligences. As a conclusion, the use of teaching–learning resources designed for promoting different types of intelligence in the competence-based model constitutes an adaptive strategy for the students to successfully acquire competences. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
26. No evidence of biodiversity effects on stream ecosystem functioning across green and brown food web pathways.
- Author
-
López‐Rojo, Naiara, Boyero, Luz, Pérez, Javier, Basaguren, Ana, and Cardinale, Bradley J.
- Subjects
- *
FOOD chains , *ECOSYSTEMS , *STREAM function , *ALGAL communities , *NUTRIENT cycles , *BIODIVERSITY , *ENVIRONMENTAL degradation - Abstract
Biodiversity loss is known to affect the two fundamental and opposite processes controlling carbon and nutrient cycles globally, that is, primary production and decomposition, which are driven by green and brown food web compartments, respectively.However, biodiversity in these two food web compartments has been mostly studied independently, and potential reciprocal effects of biodiversity loss on ecosystem processes remain unclear.We conducted a 35‐day stream mesocosm experiment with two levels of algal diversity (natural and diluted periphyton communities) and three levels of litter diversity (no litter, monocultures of poplar, maple, and oak, and the three‐spp. mixture) to simulate changes in biodiversity in both the green and brown pathways of an aquatic food web. We then measured multiple ecosystem processes pertaining to carbon cycling.We predicted that algal diversity would enhance decomposition and sporulation of fungal decomposers, while litter diversity would enhance algal growth and net primary production, due to the more diverse algal exudates or litter nutrients being released from more diverse mixtures.In contrast to this hypothesis, we only found biodiversity effects on an ecosystem process within the green pathway: there was a relationship between algal diversity and biofilm carrying capacity. Nevertheless, we found that this relationship was affected by the presence or absence of litter (algal diversity increased the carrying capacity in presence of litter and decreased it in its absence), which also influenced the algal community structure.Our mesocosm experiment did not evidence relationships between biodiversity and ecosystem processes across different food web compartments, but further studies in more realistic conditions would be necessary to confirm this result. If supported, the lack of biodiversity–ecosystem functioning relationships across compartments would facilitate the prediction of the impacts of biodiversity loss on ecosystems. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
27. Immobilization of Acidithiobacillus Ferrooxidans on Two Hydrogels.
- Author
-
Santaolalla, Arrate, Rojo, Naiara, Gutierrez, Juncal, and Barona, Astrid
- Subjects
THIOBACILLUS ferrooxidans ,HYDROGELS ,BACTERIAL leaching ,MICROMACHINING ,BIOREACTORS - Abstract
Bioleaching is considered a sustainable and effective alternative to conventional micromachining and extracting processes for recovering valuable metals from electronic waste. Nevertheless, the industrial scaling-up of these applications is limited by several factors. Among these factors, the use of free cells and low microbial density have been reported to reduce process efficiency. Recent research has therefore focused on bacterial immobilization on different support materials as a solution for increasing microbial density inside the bioreactor and protecting microorganisms from toxic compounds. Furthermore, biomass immobilization facilitates biomass replacement whenever required. The increasing amount of metals in the solution is also a factor to be controlled, as it can inhibit bacterial activity. This study set out to assess the suitability of two hydrogels, polyvinyl alcohol (PVA) and biocellulose (BC) as support materials for Acidithiobacillus ferrooxidans (A. ferrooxidans) immobilisation, and to analyse the effectiveness of the active material generated for use in metal bioleaching processes. In addition, an assessment was conducted of the influence of the amount of dissolved copper (0-20 g Cu
2+ /L) on the time required for complete Fe2+ oxidation to Fe3+ . The two hydrogels tested, PVA and BC, were viable as support materials for A. ferrooxidans immobilisation. Both active materials successfully transformed all the Fe2+ contained in the nutrient medium to Fe3+. Nevertheless, BC was specifically selected for further studies because of its higher efficiency (shorter oxidation time needed for complete iron transformation), longer integrity maintenance, and higher resistance to dissolved copper up to 20 g Cu2+ /L. [ABSTRACT FROM AUTHOR]- Published
- 2020
- Full Text
- View/download PDF
28. Extreme climate events can slow down litter breakdown in streams.
- Author
-
Correa-Araneda, Francisco, Tonin, Alan M., Pérez, Javier, Álvarez, Katia, López-Rojo, Naiara, Díaz, Angie, Esse, Carlos, Encina-Montoya, Francisco, Figueroa, Ricardo, Cornejo, Aydeé, and Boyero, Luz
- Subjects
FOREST litter ,RIVERS ,BIOGEOCHEMICAL cycles ,WEATHER ,CLIMATOLOGY - Abstract
Extreme temperatures have increased in intensity, duration and frequency in the last century, with potential consequences on key ecological processes such as organic matter breakdown. Many stream ecosystems are fueled by the breakdown of terrestrial leaf litter, which is exposed to atmospheric conditions for certain periods of time before entering the stream. Thus, extreme warming or freezing events may affect the litter physicochemical structure, which could translate into altered breakdown within the stream. The above prediction was tested by exposing litter of common riparian tree species in southern Chile to freezing (−20 ºC; dry or wet litter) or heating (40 ºC) and comparing breakdown with control litter exposed to room temperature (20 ºC), separating the effects of different breakdown agents (i.e., leaching, microorganisms and detritivores). The greatest effects were found in wet litter subjected to freezing; this treatment significantly increased leaching in the short term (48 h) and slowed down breakdown in the long term (30 days), mostly due to the inhibition of microbial breakdown. Heating also retarded microbial breakdown, but the effect was smaller. Our results suggest that short-term extreme temperatures—particularly cold ones—have the potential to slow down litter breakdown in streams, which will most likely impact global biogeochemical cycles where streams play a key role. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
29. Leaf traits drive plant diversity effects on litter decomposition and FPOM production in streams.
- Author
-
López-Rojo, Naiara, Martínez, Aingeru, Pérez, Javier, Basaguren, Ana, Pozo, Jesús, and Boyero, Luz
- Subjects
- *
BIODIVERSITY , *RIPARIAN forests , *RIVER ecology , *PLANT diversity , *ORGANIC compounds - Abstract
Biodiversity loss in riparian forests has the potential to alter rates of leaf litter decomposition in stream ecosystems. However, studies have reported the full range of positive, negative and no effects of plant diversity loss on decomposition, and there is currently no explanation for such inconsistent results. Furthermore, it is uncertain whether plant diversity loss affects other ecological processes related to decomposition, such as fine particulate organic matter production or detritivore growth, which precludes a thorough understanding of how detrital stream food webs are impacted by plant diversity loss. We used a microcosm experiment to examine the effects of plant diversity loss on litter decomposition, fine particulate organic matter production, and growth of a dominant leaf-shredding detritivore, using litter mixtures varying in species composition. We hypothesized that plant diversity loss would decrease the rates of all studied processes, but such effects would depend on the leaf traits present in litter mixtures (both their average values and their variability). Our findings partly supported our hypotheses, showing that plant diversity loss had a consistently negative effect on litter decomposition and fine particulate organic matter production (but not on detritivore growth) across litter mixtures, which was mediated by detritivores. Importantly, the magnitude of the diversity effect and the relative importance of different mechanisms underlying this effect (i.e., complementarity vs. selection) varied depending on the species composition of litter mixtures, mainly because of differences in litter nutritional quality and trait variability. Complementarity was prevalent but varied in size, with positive selection effects also occurring in some mixtures. Our results support the notion that loss of riparian plant species is detrimental to key stream ecosystem processes that drive detrital food webs, but that the magnitude of such effects largely depends on the the order of species loss. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
30. A Unique Historical Case to Understand the Present Sustainable Development.
- Author
-
Barona, Astrid, Etxebarria, Begoña, Aleksanyan, Aida, Gallastegui, Gorka, Rojo, Naiara, and Diaz-Tena, Estibaliz
- Subjects
SUSTAINABLE development ,AMMONIA synthesis ,TECHNOLOGICAL innovations ,TWENTIETH century - Abstract
Every innovation seeks to become a profitable business, with this considered to be the engine for economic prosperity. When an innovation is revolutionary, its long-term consequences can be revolutionary too. The Haber-Bosh process for ammonia synthesis is arguably the twentieth century’s most significant innovation, and its importance to global food production and its impact on the environment are not expected to diminish over the coming decades. The historical case of the ammonia synthesis process invented by Fritz Haber and the ensuing innovation provides an incomparable opportunity to illustrate the interactions across contemporary needs, prominent scientists, political concerns, moral dilemmas, ethics, governance and environmental implications at a time when the concept of sustainability was still in its infancy. Despite its high economic and environmental costs, no cleaner or more efficient sustainable alternative has so far been found, and so replacing this “old” innovation that still “feeds” a large part of the world’s population does not appear to be on the cards in the near future. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
31. Biomachining: Preservation of Acidithiobacillus ferrooxidans and treatment of the liquid residue.
- Author
-
Díaz‐Tena, Estíbaliz, Rojo, Naiara, Gurtubay, L., Rodríguez‐Ezquerro, Adrián, López de Lacalle, Luis Norberto, Oyanguren, Iñigo, Barbero, Francisca, and Elías, Ana
- Subjects
- *
THIOBACILLUS ferrooxidans , *MICROMACHINING , *MICROORGANISMS , *PRECIPITATION (Chemistry) , *CRYOPROTECTIVE agents - Abstract
Biomachining has become a promising alternative to micromachining metal pieces, as it is considered more environmentally friendly than their physical and chemical machining counterparts. In this research work, two strategies that contribute to the development of this innovative technology and could promote its industrial implementation were investigated: preservation of biomachining microorganisms ( Acidithiobacillus ferrooxidans) for their further use, and making valuable use of the liquid residue obtained following the biomachining process. Regarding the preservation method, freeze-drying, freezing, and drying were tested to preserve biomachining bacteria, and the effect of different cryoprotectants, storage times, and temperatures was studied. Freezing at -80°C in Eppendorf cryovials using betaine as a cryoprotective agent reported the highest bacteria survival rate (40% of cell recovery) among the studied processes. The treatment of the liquid residue in two successive stages led to the precipitation of most of the total dissolved iron and divalent copper (99.9%). The by-products obtained (iron and copper hydroxide) could be reused in several industrial applications, thereby enhancing the environmentally friendly nature of the biomachining process. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
32. Wave Energy Forecasting at Three Coastal Buoys in the Bay of Biscay.
- Author
-
Ibarra-Berastegi, Gabriel, Saenz, Jon, Esnaola, Ganix, Ezcurra, Agustin, Ulazia, Alain, Rojo, Naiara, and Gallastegui, Gorka
- Subjects
WAVE energy ,FLUID mechanics ,RANDOM forest algorithms ,FLUX (Energy) ,WAVE analysis - Abstract
In 2008, the first commercial wave farm came online in Portugal. As with other types of renewable energy, the electricity obtained from waves has the drawback of intermittency. Knowing a few hours ahead how much energy waves will hold can contribute to a better management of the electricity grid. In this work, three types of statistical models have been used to create up to 24-h forecasts of the zonal and meridional components of wave energy flux (WEF) levels at three directional buoys located off the coast in the Bay of Biscay. Each model’s performance has been compared at a 95% confidence level with the simplest prediction (persistence of levels), along with the forecasts provided by the physics-based WAve Modeling (WAM) wave model at the nearest grid point. The results indicate that for forecasting horizons between 3 and roughly 16 h ahead, the statistical models built on random forests (RFs) outperform the rest, including WAM and persistence. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
- Full Text
- View/download PDF
33. TRABAJANDO POR EL CUIDADO DEL PLANETA TIERRA. ACCIONES RELEVANTES EN MATERIA DE MEDIO AMBIENTE Y AGUA.
- Author
-
Díaz-Tena, Estíbaliz, Gallastegui, Gorka, Rojo, Naiara, Barona, Astrid, Aleksanyan, Aida, and Elías, Ana
- Published
- 2016
- Full Text
- View/download PDF
34. Carbon disulfide biofiltration: Influence of the accumulation of biodegradation products on biomass development.
- Author
-
Rojo, Naiara, Muñoz, Raul, Gallastegui, Gorka, Barona, Astrid, Gurtubay, Luis, Prenafeta-Boldú, Francesc X., and Elías, Ana
- Published
- 2012
- Full Text
- View/download PDF
35. Litter decomposition can be reduced by pesticide effects on detritivores and decomposers: Implications for tropical stream functioning.
- Author
-
Cornejo, Aydeé, Pérez, Javier, López-Rojo, Naiara, García, Gabriela, Pérez, Edgar, Guerra, Alisson, Nieto, Carlos, and Boyero, Luz
- Subjects
STREAM function ,PESTICIDES ,FOREST litter ,ECOSYSTEMS ,INSECTICIDES ,PLANT litter ,BIOLOGICAL extinction ,CHLOROTHALONIL - Abstract
Understanding which factors affect the process of leaf litter decomposition is crucial if we are to predict changes in the functioning of stream ecosystems as a result of human activities. One major activity with known consequences on streams is agriculture, which is of particular concern in tropical regions, where forests are being rapidly replaced by crops. While pesticides are potential drivers of reduced decomposition rates observed in agricultural tropical streams, their specific effects on the performance of decomposers and detritivores are mostly unknown. We used a microcosm experiment to examine the individual and joint effects of an insecticide (chlorpyrifos) and a fungicide (chlorothalonil) on survival and growth of detritivores (Anchytarsus, Hyalella and Lepidostoma), aquatic hyphomycetes (AH) sporulation rate, taxon richness, assemblage structure, and leaf litter decomposition rates. Our results revealed detrimental effects on detritivore survival (which were mostly due to the insecticide and strongest for Hyalella), changes in AH assemblage structure, and reduced sporulation rate, taxon richness and microbial decomposition (mostly in response to the fungicide). Total decomposition was reduced especially when the pesticides were combined, suggesting that they operated differently and their effects were additive. Importantly, effects on decomposition were greater for single-species detritivore treatments than for the 3-species mixture, indicating that detritivore species loss may exacerbate the consequences of pesticides of stream ecosystem functioning. Pesticide side effects. [Display omitted] • Chlorpyrifos and chlorothalonil had detrimental effects on stream organisms and decomposition. • Detritivores died mostly due to the insecticide, with differences among species. • Aquatic hyphomycete assemblages and their activity were altered mainly by the fungicide. • Total decomposition was reduced, with additive effects of both pesticides. • Effects on decomposition were weaker when all 3 detritivores species were present. Pesticides reduced litter decomposition rates and altered the associated detritivore and fungal assemblages in microcosms simulating tropical streams. Effects were attenuated when detritivore assemblages had three species compared to one, suggesting a key role of diversity for the maintenance of ecosystem functioning in streams exposed to pesticides. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
36. Metal Extraction and Recovery from Mobile Phone PCBs by a Combination of Bioleaching and Precipitation Processes.
- Author
-
Santaolalla, Arrate, Lens, Piet N. L., Barona, Astrid, Rojo, Naiara, Ocio, Ainhoa, and Gallastegui, Gorka
- Subjects
BACTERIAL leaching ,METAL recycling ,METALS ,PRINTED circuits ,SODIUM hydroxide ,CELL phones ,IRON - Abstract
Bearing in mind the metal rich composition of printed circuit boards (PCBs), this material represents a secondary source of valuable metals and offers an entrepreneurial opportunity in the metal sales market. Based on the ability of microorganisms to regenerate and produce the chemical oxidants that are responsible for metal leaching, bioleaching has become an efficient and affordable alternative to conventional metal recycling technologies, although further research is still necessary before industrial implementation. This study focuses on the recovery of metals contained in mobile phone PCBs through a combined process. Two different PCB pre-treatments were evaluated: grinding the whole piece and removing the epoxy cover from the piece without grinding. The benefit of A. ferrooxidans activity on the metal solubilization rate was analyzed. Additional chemical leaching assays were also conducted for comparison purposes and the reagents ferric iron (Fe
3+ ) and sulfuric acid (H2 SO4 ) were selected for these experiments. The copper extraction results obtained in Fe3+ experiments with and without bacteria (A. ferrooxidans) were similar after 260 h of operation, indicating the need for alternative strategies to ensure a controlled and continuous metal biodissolution rate. The contribution of H2 SO4 to the leaching processes for copper and nickel was almost negligible during the first 50 h, and more significant thereafter. The recovered metals were precipitated from a synthetic solution simulating a real ferric leaching by adding sodium hydroxide (NaOH) and sodium sulfide (Na2 S). The combination of both precipitants allowed an effective removal of metals from the leachate. [ABSTRACT FROM AUTHOR]- Published
- 2021
- Full Text
- View/download PDF
37. Creating a Green Chemistry Lab: Towards Sustainable Resource Management and Responsible Purchasing.
- Author
-
Gutierrez, Junkal, Santaolalla, Arrate, Tercjak, Agnieszka, Rojo, Naiara, Encinas, Dolores, Gomez-de-Balugera, Zuriñe, and Gallastegui, Gorka
- Abstract
The main goal of this project was to improve the efficiency and sustainability of the chemistry teaching laboratories of the Faculty of Engineering Vitoria-Gasteiz (University of the Basque Country (UPV/EHU)). With this aim, three different actions were developed. The first two actions aspired to achieve and maintain order and maximize efficiency within the facilities. With this in mind, the first phase involved carrying out an inventory, classifying, and rearranging all the chemical products in the warehouse using a computer storage system. Secondly, 5S lean methodology was implemented in the laboratories. The final phase included the development of a protocol for a joint purchasing strategy of chemical reagents that fostered a more responsible and sustainable acquisition and management of the substances used in various departments of the UPV/EHU. This protocol plays a key role in the transition towards the Circular Economy and its importance lies in the fact that it could be extended to other departments and faculties with similar needs. This project was developed during last two academic years (2017/2019) in the frame of the Campus Bizia Lab Programme, an initiative created to address sustainability challenges within the University. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
38. Microplastics impair amphibian survival, body condition and function.
- Author
-
Boyero, Luz, López-Rojo, Naiara, Bosch, Jaime, Alonso, Alberto, Correa-Araneda, Francisco, and Pérez, Javier
- Subjects
- *
PLASTIC marine debris , *AMPHIBIANS , *TADPOLES , *CLIMATE change , *TOADS - Abstract
Microplastics (MPs) are contaminants of increasing concern; they are abundant, ubiquitous and persistent over time, representing potential risks for organisms and ecosystems. However, such risks are still virtually unknown for amphibians, despite the particular attention that these organisms often receive because of their global decline. We examined the effects of MPs (fluorescent, 10-μm polystyrene microspheres) at different concentrations (from 0 to 103 particles mL−1) on tadpoles of the common midwife toad, Alytes obstetricans , using a microcosm experiment. We assessed MP effects on tadpole feeding, growth and body condition, as well as their ingestion and egestion of MPs (estimated through fluorescence). Additionally, we explored whether MPs became attached to periphyton (the main food source for these tadpoles, thus potentially representing a major way of MP ingestion), and the effect of MPs on periphyton growth (which may translate into altered freshwater ecosystem functioning). Our results showed significant effects on all the examined variables, and caused tadpole mortality at the highest concentration; also, fluorescence indicated the presence of MPs in tadpoles, tadpole faeces and periphyton. This suggests that MPs can be an important source of stress for amphibians in addition to other pollutants, climate change, habitat loss or chytrid infections, and that amphibians can be a major transfer path for MPs from freshwater to terrestrial ecosystems. Image 10217 • MP effects on tadpole feeding, growth and body condition were examined. • The highest concentration (1800 part. mL−1) caused mortality of most tadpoles. • MPs impaired tadpole growth and condition and were found in tadpoles and faeces. • MPs attached to periphyton and reduced its growth, affecting ecosystem functioning. • Tadpoles most likely ingested MPs while feeding on periphyton. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
39. Microplastics have lethal and sublethal effects on stream invertebrates and affect stream ecosystem functioning.
- Author
-
López-Rojo, Naiara, Pérez, Javier, Alonso, Alberto, Correa-Araneda, Francisco, and Boyero, Luz
- Subjects
STREAM function ,FOREST litter ,AQUATIC invertebrates ,ANIMAL litters ,LEAF physiology ,AQUATIC insects ,WATER distribution ,FRESH water - Abstract
Microplastics (MPs) are contaminants of increasing concern due to their abundance, ubiquity and persistence over time. However, knowledge about MP distribution in fresh waters and their effects on freshwater organisms is still scarce, and there is virtually no information about their potential influence on ecosystem functioning. We used a microcosm experiment to examine the effects of MPs (fluorescent, 10-μm polystyrene microspheres) at different concentrations (from 0 to 10
3 particles mL−1 ) on leaf litter decomposition (a key process in stream ecosystems) and associated organisms (the caddisfly detritivore Sericostoma pyrenaicum), and the extent to which MPs were attached to leaf litter and ingested and egested by detritivores, thus assessing mechanisms of MP trophic transfer. We found that MPs caused detritivore mortality (which increased 9-fold at the highest concentration) but did not affect their growth. Analysis of fluorescence in samples suggested that MPs were rapidly ingested (most likely through ingestion of particles attached to leaf litter) and egested. Leaf litter decomposition was reduced as a result of increasing MP concentrations; the relationship was significant only in the presence of detritivores, but microbially-mediated decomposition showed a similar trend. Our findings provide novel evidence of harmful effects of MPs on aquatic insects and stream ecosystem functioning, and highlight the need for the standardization of methods in future experiments with MPs in order to allow comparisons and generalizations. Image 1 • We examined microplastic (MP) effects on leaf litter decomposition and detritrivore growth. • Detritivore mortality increased with MP concentration (0–1800 part. mL−1 ). • MPs reduced leaf litter decomposition, affecting ecosystem functioning. • MPs were found in detritivore faeces indicating ingestion and egestion. • MP adherence to leaf litter suggested they were ingested while feeding. [ABSTRACT FROM AUTHOR]- Published
- 2020
- Full Text
- View/download PDF
40. Latitude dictates plant diversity effects on instream decomposition.
- Author
-
Boyero, Luz, Pérez, Javier, López-Rojo, Naiara, Tonin, Alan M., Correa-Araneda, Francisco, Pearson, Richard G., Bosch, Jaime, Albariño, Ricardo J., Anbalagan, Sankarappan, Barmuta, Leon A., Beesley, Leah, Burdon, Francis J., Caliman, Adriano, Callisto, Marcos, Campbell, Ian C., Cardinale, Bradley J., Casas, J. Jesús, Chará-Serna, Ana M., Ciapała, Szymon, and Chauvet, Eric
- Subjects
- *
PLANT diversity , *RIPARIAN plants , *ALNUS glutinosa , *LATITUDE , *FOREST litter decomposition , *LIFE sciences , *AQUATIC sciences , *PLANT invasions - Abstract
The article offers information on how latitude dictates plant diversity effects on instream decomposition. It mentions that running waters contribute substantially to global carbon fluxes through decomposition of terrestrial plant litter by aquatic microorganisms and detritivores. It discusses the consequences of the latitudinal pattern indicates that loss of plant functional diversity.
- Published
- 2021
- Full Text
- View/download PDF
41. Structural and functional recovery of macroinvertebrate communities and leaf litter decomposition after a marked drought: Does vegetation type matter?
- Author
-
Monroy, Silvia, Martínez, Aingeru, López-Rojo, Naiara, Pérez-Calpe, Ana Victoria, Basaguren, Ana, and Pozo, Jesús
- Subjects
- *
FOREST litter , *INVERTEBRATE communities , *CLIMATE change , *OCEAN temperature , *SPECIES diversity - Abstract
Climate change and anthropogenic disturbances are expected to lead to more intense and frequent droughts, with potentially severe effects on structure and function of perennial temperate streams. However, more information is required on whether streams flowing through basins already affected by exotic plantations will respond to droughts in the same way as streams under native forests. The recolonisation dynamics of benthic macroinvertebrate communities and leaf litter decomposition rates were examined in nine streams of oceanic-temperate climate that differed in catchment vegetation (three streams draining native deciduous forest, three in pine plantations and three in eucalypt plantations) after a marked drought. In each stream, five benthic samples were collected three times (ca. 1.5 months between sampling dates) after flow recovery, and the taxonomic and functional trait compositions of the macroinvertebrate communities were analysed. The decomposition rate of Alnus glutinosa was measured in fine- and coarse-mesh litter bags. Benthic macroinvertebrate density, richness and diversity increased with time after flow recovery but only richness and diversity differed among stream types, with eucalypt streams showing the lowest values. Both the taxonomic and functional compositions of the macroinvertebrate community were dependent on vegetation type and time, with the differences among stream types diminishing over time. While leaf-litter decomposition rate did not depend on catchment vegetation after drought, detritivore activity was the lowest under eucalypt streams and it was positively correlated to benthic shredder density. Our results indicated that in these perennial temperate streams the catchment vegetation influenced the recovery of benthic macroinvertebrate communities after a period of drought, although the decomposition rate of leaf litter was not strongly affected. Greater understanding of the structural and functional responses of stream ecosystems to different stressors is required before the effects of expected more intense and frequent hydrological changes caused by climate change can be adequately forecast. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
42. Extreme temperature events alter stream ecosystem functioning.
- Author
-
Pérez, Javier, Correa-Araneda, Francisco, López-Rojo, Naiara, Basaguren, Ana, and Boyero, Luz
- Subjects
- *
FOREST litter , *STREAM function , *NUTRIENT cycles , *CLIMATE extremes , *BACTERIAL leaching , *BIOGEOCHEMICAL cycles , *ECOLOGICAL integrity - Abstract
• Extreme climatic events (ECEs) affected litter decomposition in stream microcosms. • Heating enhanced short-term nutrient leaching and long-term microbial biomass accrual. • Freezing tended to enhance decomposition but had inconsistent effects. • Both ECEs strongly and consistently reduced detritivore growth. • Consumer physiological variables can be good indicators of environmental change. Extreme temperature events have increased in intensity, duration and frequency in the last century, with potential consequences on organisms and ecosystems. In many streams, leaf litter of terrestrial origin is a key resource for microorganisms and some detritivores, and its decomposition has a main role on ecosystem functioning and is often used as an indicator of ecological integrity. As litter is often exposed to atmospheric conditions before entering the stream, extreme warming and freezing events may alter its physicochemical structure and affect decomposition and associated detritivores. We tested this prediction in a microcosm experiment by exposing litter of three tree species (in single-species treatments and the 3-species mixture) to different temperature pre-treatments: heating (40 °C), freezing (−20 °C) and both (heating followed by freezing). We then examined changes in litter traits due to leaching (72 h), litter decomposition in the absence and presence of detritivores, and detritivore growth (28 d), with focus on mass and nutrient (nitrogen and phosphorus) changes. Nutrient leaching was promoted mostly by the heating pre-treatment, which apparently produced lower-quality litter. However, microbial activity mostly resulted in litter mass and nutrient gain, which were reinforced by the heating pre-treatment, while freezing had the opposite effect. When detritivores were present, decomposition showed high variation among litter types but, again, the heating and freezing pre-treatments tended to reduce and enhance nutrient loss, respectively. The greatest and more consistent effects occurred for detritivore growth, which was reduced by temperature pre-treatments, particularly in the highest-quality litter type. In general, the sequential application of heating and freezing pre-treatments showed no synergistic effect, and the litter mixture showed similar responses to single-species treatments. Our results demonstrate that short-term extreme temperatures can modify litter quality in riparian soils and have subsequent effects on its decomposition within the stream and associated fauna, potentially altering stream food webs, ecosystem functioning and biogeochemical cycles. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
43. Agriculture impairs stream ecosystem functioning in a tropical catchment.
- Author
-
Cornejo, Aydeé, Pérez, Javier, López-Rojo, Naiara, Tonin, Alan M., Rovira, Dalys, Checa, Brenda, Jaramillo, Nicomedes, Correa, Karina, Villarreal, Allison, Villarreal, Víctor, García, Gabriela, Pérez, Edgar, Ríos González, Tomás A., Aguirre, Yusseff, Correa-Araneda, Francisco, and Boyero, Luz
- Abstract
The expansion of agriculture is particularly worrying in tropical regions of the world, where native forests are being replaced by crops at alarming rates, with severe consequences for biodiversity and ecosystems. However, there is little information about the potential effects of agriculture on the functioning of tropical streams, which is essential if we are to assess the condition and ecological integrity of these ecosystems. We conducted a litter decomposition experiment in streams within a tropical catchment, which were subjected to different degrees of agricultural influence: low (protected area, PA), medium (buffer area, BA) and high (agricultural area, AA). We quantified decomposition rates of litter enclosed within coarse-mesh and fine-mesh bags, which allowed the distinction of microbial and detritivore-mediated decomposition pathways. We used litter of three riparian species representing a gradient in litter quality (Alnus acuminata > Ficus insipida > Quercus bumelioides), and examined detritivore assemblages through the contents of litterbags and benthic samples. We found that the increasing agricultural influence promoted microbial decomposition, probably due to nutrient-mediated stimulation; and inhibited detritivore-mediated and total decomposition because of reduced detritivore numbers, most likely caused by pesticides and sedimentation. Effects were evident for Alnus and Ficus , but not for Quercus , which was barely decomposed across the gradient. Our study provides key evidence about the impact of agriculture on tropical stream ecosystem functioning, which is associated to changes in stream assemblages and may have far-reaching repercussions for global biochemical cycles. Unlabelled Image • Tropical stream functional integrity was assessed through litter decomposition. • Decomposition decreased following a rising agricultural influence gradient. • The reduction was due to impaired detritivore assemblages. • Microbial decomposition increased but did not compensate for effects on detritivores. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
44. Black slag fixed bed for toluene, ethylbenzene and p-xylene (TEX) biodegradation and meiofauna development.
- Author
-
Gallastegui, Gorka, Manrique de Lara, Rafael, Elías, Ana, Rojo, Naiara, and Barona, Astrid
- Subjects
- *
MEIOFAUNA , *FIXED bed reactors , *TOLUENE , *ETHYLBENZENE , *P-Xylene , *BIODEGRADATION , *INVERTEBRATE development - Abstract
In the past, black slag from an Electric Arc Furnace was dumped or stockpiled. Nevertheless, after much controversy, slag can no longer be considered a “waste”, and bearing in mind its positive properties, reuse alternatives are being sought. In this study, a black slag was used as an alternative packing material for toluene, ethylbenzene and p -xylene biofiltration, with these pollutants being fed both individually and jointly. Ethylbenzene recorded the highest elimination capacity when the ternary mixture was fed. The electrical conductivity of the leaching solution showed that the slag did not contribute to ion release or dissolution. The acid neutralizing capacity of the slag played a major role in preventing bed acidification. All the biofilters were invaded by mites, and other meiofauna including nematodes and rotifers also developed in the bed. Under these conditions, CO 2 production was attributed not only to contaminant degradation but also to the metabolic processes of the meiofauna originating from the inoculum. Despite the favourable evolution of the operating parameters and the suitable performance of the slag bed, its high bulk density restricts the size of the bed. Slag is nonetheless recommended for use as a co-packing material. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.