Your search keyword '"Sally Hladyz"' showing total 19 results

1. Morphological, physiological and behavioural response patterns of carp gudgeon Hypseleotris spp. to food deprivation: implications for assessing health

Author

Amina Price, Sally Hladyz, Nathan Ning, Simon Maffei, Ben Gawne, and Daryl L. Nielsen

Subjects

Food deprivation, biology, Behavior, Animal, Ecology, Aquatic Science, biology.organism_classification, Lipids, Perciformes, Condition factor, Dry weight, Lipid content, Freshwater fish, Body Composition, Hypseleotris, Animals, Carp, Food Deprivation, Ecology, Evolution, Behavior and Systematics, Swimming

Abstract

MDFRC item.Morphological (growth, Fulton's condition factor), physiological (per cent dry mass, total lipid content) and behavioural (activity levels) response patterns of carp gudgeon Hypseleotris spp. were examined in response to food deprivation during a 56 day experiment. Considerable variability in the nature and magnitude of these response patterns was observed, suggesting that caution should be taken when interpreting changes in the health of small-bodied fishes based on individual response variables.

Published

2023

2. Invertebrate community structure and ecosystem functioning in European conifer plantation streams

Author

Miira P. Riipinen, Tadeusz Fleituch, Sally Hladyz, Michael Dobson, Paul S. Giller, and Guy Woodward

Subjects

geography, geography.geographical_feature_category, Ecology, Vegetation type, Detritivore, Litter, Community structure, Environmental science, Ecosystem, Vegetation, Aquatic Science, Decomposer, Riparian zone

Abstract

Murray-Darling Freshwater Research CentreMDFRC item.1. Terrestrial leaf-litter is the dominant energy input to many headwater streams and consequently the nature of the riparian vegetation can have profound effects on in-stream processes. The impact of conifer plantations on community structure and ecosystem functioning (litter breakdown) was investigated in field experiments in three countries (Britain, Ireland, Poland), each representing a distinct European ecoregion. Twenty-six streams were used in the trial: half were bordered with broadleaved and the other half with conifer riparian vegetation. 2. In a leaf breakdown study using litter bags, two leaf types (oak and alder) were used to assess the impact of resource quality and two mesh sizes (10 and 0.5 mm aperture) were used to gauge the relative importance of invertebrate detritivores and microbial decomposers respectively. Comparisons were made between vegetation types and among regions; pH varied among individual streams but, unlike many previous studies, it was not confounded with vegetation type, enabling us to isolate the effect of vegetation more effectively. 3. Overall, riparian vegetation type did not affect breakdown rates but strong regional differences were observed. There was also a significant interaction between these two variables, but this disappeared after fitting pH as a covariable, demonstrating its importance in determining breakdown rates and raising the possibility that in previous studies the impacts of conifer plantations might have been confounded with pH. 4. Shredder species composition differed between vegetation types. Small stoneflies were most strongly associated with conifer streams; broadleaved streams generally had a higher proportion of larger taxa, such as limnephilid caddisflies and gammarid shrimps, although the latter were excluded from sites with low pH. However, breakdown rates were maintained irrespective of shredder community composition, suggesting a high degree of functional redundancy in these communities. Similar processing rates were observed between streams with high numbers of nemourids and those with only a few limnephilids or gammarids, suggesting that density compensation among consumers might stabilise process rates. 5. Our results suggest that leaf-litter breakdown can be an effective proxy for assessing stream ecosystem functioning, as rates differed significantly across spatial scales, from between streams to across regions and responded to an environmental gradient (pH). The litter bag technique can also complement traditional assessment methods by providing valuable information on the composition of consumer guilds, thereby providing an important link between structure and function that is needed to help inform management practices.

Published

2023

3. Macroecology of fish community biomass – size structure: effects of invasive species and river regulation

Author

R. Keller Kopf, Paul Humphries, Ross M. Thompson, John D. Koehn, Nicole McCasker, Robyn Watts, Simon McDonald, Sally Hladyz, Nick Bond, Alison J. King, and Neil Sims

Subjects

0106 biological sciences, Biomass (ecology), Ecology, 010604 marine biology & hydrobiology, Ecology (disciplines), Community structure, River regulation, Aquatic Science, Biology, 010603 evolutionary biology, 01 natural sciences, Freshwater ecosystem, Invasive species, Streamflow, Ecology, Evolution, Behavior and Systematics, Macroecology

Abstract

The biomass of organisms of different sizes is increasingly being used to explore macroscale variation in food-web and community structure. Here we examine how invasive species and river flow regulation affect native fish biomass and fish community log10biomass – body mass scaling relationships in Australia’s largest river system, the Murray–Darling. The log10biomass – body mass scaling exponent (scaling B) of invasive fishes (95% CI: −0.14 to −0.18) was less negative than for native fishes (95% CI: −0.20 to −0.25), meaning that invasive species attained a higher biomass in larger size-classes compared to native species. Flow alteration and invasive common carp (Cyprinus carpio) biomass were correlated with severe reductions in native fish biomass ranging from −47% to −68% (95% CI). Our study provides novel evidence suggesting that invasive and native communities have different biomass – body mass scaling patterns, which likely depend on differences in their trophic ecology and body size distributions. Our results suggest that restoration efforts using environmental flows and common carp control has potential to boost native fish biomass to more than double the current level.

Published

2019

4. Anthropocene Baselines: Assessing Change and Managing Biodiversity in Human-Dominated Aquatic Ecosystems

Author

Sally Hladyz, C. Max Finlayson, Paul Humphries, R. Keller Kopf, and Neil Sims

Subjects

Geography, business.industry, Alternative stable state, Anthropocene, Aquatic ecosystem, Environmental resource management, Biodiversity, Regime shift, Total human ecosystem, General Agricultural and Biological Sciences, Resilience (network), business, Novel ecosystem

Published

2015

5. UNDERSTANDING AND OVERCOMING BASELINE ISOTOPIC VARIABILITY IN RUNNING WATERS

Author

Douglas P. Westhorpe, Simon M. Mitrovic, Karen A. Kidd, Wade L. Hadwen, Stephen K. Hamilton, Vanessa M Fry, Sally Hladyz, Fran Sheldon, Mark Daniel Spears, Wing Ying Tsoi, Stuart E. Bunn, and Timothy D. Jardine

Subjects

River ecosystem, δ13C, biology, Ecology, fungi, Sampling (statistics), biology.organism_classification, Food web, Algae, Benthic zone, Environmental Chemistry, Baseline (configuration management), General Environmental Science, Water Science and Technology, Trophic level

Abstract

Natural abundances of stable isotopes in lotic food webs yield valuable information about sources of organic matter for consumers and trophic structure. However, interpretation of isotopic information can be challenging in the face of variability in organisms at the base of food webs. Unionid and dreissenid mussels, commonly used as baseline organisms in lakes, are uncommon in many river settings and can have variable diets, thus making them unsuitable as a universal baseline for many river food web studies and often forcing reliance on more common benthic insects for this purpose. Turnover rates of body carbon and nitrogen in insects are relatively rapid (1 to 50 days half-life). These rapid turnover rates in primary consumers can result in considerable temporal variability in δ13C that rivals that of algae (>10‰ range within a site). This suggests that using primary consumers as a surrogate baseline for algae may not circumvent the problem of temporal variability and the resultant mismatch of sources with longer-lived, slow-growing secondary and tertiary consumers. There are several strategies for reducing the influence of these confounding factors when bivalves with a known diet are not present. These include sampling over large spatial scales and correlating δ13C of consumers with the source of interest (e.g. benthic algae), sampling baseline organisms multiple times in the weeks preceding sampling of larger consumers (particularly in response to large changes in discharge) and using algal-detrital separation methods and multiple tracers as much as possible. Incorporating some of these recommendations and further exploring variability at the base of the food web will potentially provide greater insights into consumer–resource coupling in running waters and more robust conclusions about food web structure and energy flow in these dynamic systems. Copyright © 2012 John Wiley & Sons, Ltd.

Published

2012

6. The effects of climatic fluctuations and extreme events on running water ecosystems

Author

Guy, Woodward, Núria, Bonada, Lee E, Brown, Russell G, Death, Isabelle, Durance, Clare, Gray, Sally, Hladyz, Mark E, Ledger, Alexander M, Milner, Steve J, Ormerod, Ross M, Thompson, and Samraat, Pawar

Subjects

Food Chain, Climate Change, Articles, Review Article, Models, Biological, Rivers, ecosystem functioning, food webs, community assembly, metabolism, resilience, Ecosystem, biodiversity

Abstract

Most research on the effects of environmental change in freshwaters has focused on incremental changes in average conditions, rather than fluctuations or extreme events such as heatwaves, cold snaps, droughts, floods or wildfires, which may have even more profound consequences. Such events are commonly predicted to increase in frequency, intensity and duration with global climate change, with many systems being exposed to conditions with no recent historical precedent. We propose a mechanistic framework for predicting potential impacts of environmental fluctuations on running-water ecosystems by scaling up effects of fluctuations from individuals to entire ecosystems. This framework requires integration of four key components: effects of the environment on individual metabolism, metabolic and biomechanical constraints on fluctuating species interactions, assembly dynamics of local food webs, and mapping the dynamics of the meta-community onto ecosystem function. We illustrate the framework by developing a mathematical model of environmental fluctuations on dynamically assembling food webs. We highlight (currently limited) empirical evidence for emerging insights and theoretical predictions. For example, widely supported predictions about the effects of environmental fluctuations are: high vulnerability of species with high per capita metabolic demands such as large-bodied ones at the top of food webs; simplification of food web network structure and impaired energetic transfer efficiency; and reduced resilience and top-down relative to bottom-up regulation of food web and ecosystem processes. We conclude by identifying key questions and challenges that need to be addressed to develop more accurate and predictive bio-assessments of the effects of fluctuations, and implications of fluctuations for management practices in an increasingly uncertain world.

Published

2016

7. Litter Decomposition as an Indicator of Stream Ecosystem Functioning at Local-to-Continental Scales

Author

Scott D. Tiegs, Guy Woodward, Jean O. Lacoursière, Tadeusz Fleituch, Antoine Lecerf, Miira P. Riipinen, Angheluta Vadineanu, Verónica Ferreira, Brendan G. McKie, Mark O. Gessner, Elena Preda, Jesús Pozo, Michael Dobson, Sally Hladyz, Paul S. Giller, Lena B. M. Vought, Manuel A. S. Graça, Geta Rîşnoveanu, Arturo Elosegi, Vladislav Gulis, and Eric Chauvet

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, Ecology (disciplines), Biodiversity, 15. Life on land, 010603 evolutionary biology, 01 natural sciences, Litter decomposition, 6. Clean water, Nutrient, Environmental science, Riparian forest, Ecosystem

Abstract

RivFunction is a pan-European initiative that started in 2002 and was aimed at establishing a novel functional-based approach to assessing the ecological status of rivers. Litter decomposition was ...

Published

2016

8. Impacts of an aggressive riparian invader on community structure and ecosystem functioning in stream food webs

Author

Kajsa Åbjörnsson, Guy Woodward, Paul S. Giller, and Sally Hladyz

Subjects

geography, geography.geographical_feature_category, Ecology, Abundance (ecology), Aquatic ecosystem, Environmental science, Plant community, Ecosystem, Introduced species, Woodland, Food web, Riparian zone

Abstract

1. Bioassessment in running waters has focused primarily on the impacts of organic pollution on community structure. Other stressors (e.g. invasive species) and impacts on ecosystem processes have been largely ignored in many riverine biomonitoring schemes, despite being required increasingly by environmental legislation. 2. Exotic riparian plants can exert potentially powerful stresses by altering both autochthonous and allochthonous trophic pathways. We examined the impact of Rhododendron ponticum on community structure and three key ecosystem processes (decomposition, primary production, and herbivory) in nine streams bordered by three characteristic vegetation types (deciduous woodland, pasture, or Rhododendron). 3. Community structure and ecosystem process rates differed among vegetation types, with autochthonous pathways being relatively more important in the pasture streams than in the woodland reference streams. Overall ecosystem functioning, however, was compromised in the invaded streams because both allochthonous and autochthonous inputs were impaired. Rhododendron's poor quality litter and densely shaded canopy suppressed decomposition rates and algal production, and the availability of resources to consumer assemblages. 4. Synthesis and applications. Combining measures of invertebrate abundance, rates of litter decomposition and algal production in future bioassessments of stream ecosystem functioning can help to make better informed management decisions and to develop more focused priorities for mediating the negative effects of riparian invasions. We provide a series of specific recommendations for dealing with invasive riparian plants in general, and Rhododendron in particular, in order to minimize their impacts on stream ecosystems. For instance, where the invader produces poor quality litter the canopy should be kept as open as possible over the stream channel to reduce impacts on algal production, thereby retaining alternative food chains that can be exploited by generalist consumers in the absence of viable detrital resources.

Published

2011

9. Influence of substratum on the variability of benthic biofilm stable isotope signatures: implications for energy flow to a primary consumer

Author

Daryl L. Nielsen, Sally Hladyz, Rochelle Petrie, and Robert Cook

Subjects

biology, Cobble, Consumer, Ecology, fungi, Biofilm, biochemical phenomena, metabolism, and nutrition, Aquatic Science, Physa, biology.organism_classification, Benthic zone, Ecological stoichiometry, Botany, Periphyton, Isotope analysis

Abstract

Benthic biofilms have been identified using stable isotope analysis (SIA) as an important resource supporting many freshwater food webs. However, biofilm δ13C signatures are highly variable in freshwaters, which may hamper our understanding of energy flow through food webs in these systems. There has been little consideration of the influence that substratum may have on biofilm δ13C signature variability and energy flows to primary consumers. We investigated the effect of organic and inorganic substrata on biofilm dynamics by examining: (1) temporal variability of biofilm stable isotope (δ13C, δ15N) signatures on allochthonous leaf-litter (Eucalyptus camaldulensis) and cobble substrata over 12 months in a lowland river in south-eastern Australia; and (2) the effect of substrata on biofilm energy flows to a grazer snail, Physa acuta (Gastropoda: Physidae), using SIA and ecological stoichiometry in a laboratory experiment. The temporal study indicated that cobble biofilm varied significantly in δ13C signature during the 12 months (up to 11‰), whereas the δ13C signature of leaf biofilm was less variable (less than 2‰). In contrast, biofilm δ15N signatures varied temporally on both cobble (2.6‰) and leaf (1‰) substrata. This suggests that leaf biofilm was more reliant on leaf tissue for carbon and therefore less limited by carbon supply than cobble biofilm whereas for nitrogen biofilm on both substrata was reliant on external sources. In the laboratory experiment, snails fed leaf biofilm reflected more of an allochthonous δ13C signature than cobble biofilm fed snails, suggesting assimilation of leaf carbon via the heterotrophic microbial community within the biofilm. Snails grew largest on cobble biofilm, which had lower C:N ratios than leaf biofilm. Our results demonstrate that the type of substratum can influence the temporal variability of biofilm δ13C signatures and energy flow to primary consumers.

Published

2011

10. Temporal variations in organic carbon utilization by consumers in a lowland river

Author

Sally Hladyz, Daryl L. Nielsen, Phillip John. Suter, and Evelyn S. Krull

Subjects

Hydrology, Total organic carbon, Biomass (ecology), geography, River ecosystem, geography.geographical_feature_category, Floodplain, Ecology, Seston, Benthic zone, Environmental Chemistry, Environmental science, Ecosystem, General Environmental Science, Water Science and Technology, Trophic level

Abstract

Understanding temporal trophic interactions in riverine food webs is essential for predicting river ecosystem function and improving management of these ecosystems. Temporal changes in energy flows through riverine food webs are readily assumed but are rarely tested. Temporal variability in food webs from two reaches of a lowland river (Ovens River, south-eastern Australia) with differing levels of floodplain connectivity were examined over 12 months. We investigated how seasonal changes, flow variability and floodplain connectivity influence (i) stable isotope signatures of basal organic carbon sources (terrestrial sources: trees and grasses; aquatic sources: seston, biofilm and filamentous algae) and consumers (macroinvertebrates and fish) and (ii) the relative proportions of organic carbon sources contributing to consumer biomass using mixing models. We hypothesized (i) that during high flows, increased floodplain connectivity would increase the lateral exchange of terrestrial carbon subsidies to main channel consumers and (ii) that during low flow periods, main channel consumers would derive the majority of their carbon from aquatic benthic sources. Results indicated that isotope signatures for basal sources and for most of the consumers varied temporally and spatially. Mixing models indicated that increased floodplain connectivity did not increase terrestrial subsidies to consumers during high flows. Seston was the primary source during high flows whilst terrestrial vegetation increased in importance during low flows. Filamentous algae was also important during low flows for some consumers. These findings indicate that it is essential to include temporal variability in order to understand energy flows in lowland rivers, thus allowing for the dynamic nature of these ecosystems. Copyright © 2010 John Wiley & Sons, Ltd.

Published

2010

11. Leaf-litter breakdown in pasture and deciduous woodland streams: a comparison among three European regions

Author

Markus Schindler, Geta Rîşnoveanu, Scott D. Tiegs, Paul S. Giller, Sally Hladyz, Guy Woodward, Elena Preda, Mark O. Gessner, and Marius Nistorescu

Subjects

geography, Deciduous, geography.geographical_feature_category, Ecology, Litter, Environmental science, Ecosystem, STREAMS, Woodland, Aquatic Science, Plant litter, Pasture, Riparian zone

Abstract

Summary 1. Human land-use has altered catchments on a large scale in most parts of the world, with one of the most profound changes relevant for streams and rivers being the widespread clearance of woody riparian vegetation to make way for livestock grazing pasture. Increasingly, environmental legislation, such as the EU Water Framework Directive (EU WFD), calls for bioassessment tools that can detect such anthropogenic impacts on ecosystem functioning. 2. We conducted a large-scale field experiment in 30 European streams to quantify leaf-litter breakdown, a key ecosystem process, in streams whose riparian zones and catchments had been cleared for pasture compared with those in native deciduous woodland. The study encompassed a west–east gradient, from Ireland to Switzerland to Romania, with each of the three countries representing a distinct region. We used coarse-mesh and fine-mesh litter bags (10 and 0.5 mm, respectively) to assess total, microbial and, by difference, macroinvertebrate-mediated breakdown. 3. Overall, total breakdown rates did not differ between land-use categories, but in some regions macroinvertebrate-mediated breakdown was higher in deciduous woodland streams, whereas microbial breakdown was higher in pasture streams. This result suggests that overall ecosystem functioning is maintained by compensatory increases in microbial activity in pasture streams. 4. We suggest that simple coefficients of breakdown rates on their own often might not be powerful enough as a bioassessment tool for detecting differences related to land-use such as riparian vegetation removal. However, shifts in the relative contributions to breakdown by microbial decomposers versus invertebrate detritivores, as revealed by the ratios of their associated breakdown rate coefficients, showed clear responses to land-use.

Published

2010

12. Resource quality and stoichiometric constraints on stream ecosystem functioning

Author

Paul S. Giller, Jeśus Pozo, Sally Hladyz, Mark O. Gessner, and Guy Woodward

Subjects

Nutrient, Ecology, Ecological stoichiometry, Litter, Detritivore, Ecosystem, Aquatic Science, Biology, Substrate (marine biology), Decomposer, Trophic level

Abstract

SUMMARY 1. Resource quality and stoichiometric imbalances in carbon : nutrient ratios between consumers and resources can influence key ecosystem processes. In many streams, this has important implications for food webs that are based largely upon the utilization of terrestrial leaf-litter, which varies widely among litter types in its value as a food source for detritivores and as a substrate for microbial decomposers. 2. We measured breakdown rates and macroinvertebrate colonization of leaf-litter from a range of native and exotic plants of differing resource quality and palatability to consumers [e.g. carbon : nitrogen : phosphorus (C : N : P) ratios, lignin and cellulose content], in a field experiment. We also measured C : N : P ratios of the principal leafshredding invertebrates, which revealed strong stoichiometric imbalances across trophic levels: C : N and C : P ratios typically differed by at least one order of magnitude between consumers and resources, whereas N : P imbalances were less marked. Application of the threshold elemental ratio approach, which integrates animal bioenergetics and body elemental composition in examining nutrient deficiency between consumers and resources, revealed less marked C : P imbalances than those based on the simpler arithmetic differences described above. 3. Litter breakdown rates declined as nutrient imbalances widened and resource quality fell, but they were independent of whether resources were exotic or native. The principal drivers of total, microbial and invertebrate-mediated breakdown rates were lignin : N, lignin : P and fungal biomass, respectively. However, multiple regression using orthogonal predictors yielded even more efficient models of litter breakdown, as consumers responded to more than one aspect of resource quality. For example, fungal biomass and litter C : N both influenced invertebrate-mediated breakdown. 4. Large stoichiometric imbalances and changes in resource quality are likely to have serious consequences for stream ecosystem functioning, especially when riparian zones have been invaded by exotic plant species whose chemical composition differs markedly from that of the native flora. Consequently, the magnitude and direction of change in breakdown rates and, thus, resource depletion, will be driven to a large extent by the

Published

2009

13. Ecosystem functioning in stream assemblages from different regions: contrasting responses to variation in detritivore richness, evenness and density

Author

Marius Nistorescu, Cristina Popescu, Guy Woodward, Paul S. Giller, Brendan G. McKie, Elena Preda, Björn Malmqvist, and Sally Hladyz

Subjects

Population Density, Ecology, Detritivore, Biodiversity, Species diversity, Fresh Water, Interspecific competition, Biology, Alnus, Plant Leaves, Animals, Species evenness, Animal Science and Zoology, Ecosystem, Rank abundance curve, Species richness, Arthropods, Ecology, Evolution, Behavior and Systematics

Abstract

1. The diversity of species traits in a biological assemblage varies not only with species richness, but also with species evenness and organism density, which together influence the concentration of traits within functional guilds. Potential trait diversity at local scales is also constrained by the regional species pool. Implications of such variation for spatio-temporal variability in biodiversity-ecosystem functioning relationships are likely to be complex, but are poorly understood. 2. In microcosm experiments conducted at laboratories in Sweden, Ireland and Romania, we investigated effects of species richness, evenness and density of stream-living detritivores on two related processes: detritivore leaf-processing efficiency (LPE) and growth. Assemblage composition varied among laboratories: one taxonomic order (Plecoptera) was studied in Sweden, whereas two orders, encompassing wider trait variation, were studied in Romania (Trichoptera and Plecoptera) and Ireland (Trichoptera and Isopoda). 3. Relationships between density and both LPE and growth ranged from negative to positive across the study species, highlighting the potential for density-dependent variation in process rates to alter ecosystem functioning, but indicating that such effects depend on species identity. 4. LPE varied with species diversity in the two more heterogeneous assemblages, but whereas LPE in the Romanian study was generally enhanced as richness increased, LPE in the Irish study increased only in less-even polycultures dominated by particular species. Transgressive overyielding was detected in the Irish experiment, indicating complementary resource use and/or facilitation (complementarity). These mechanisms could not be distinguished from the selection effect in the Romanian study. 5. Growth was elevated in Romanian species mixtures, reflecting positive complementarity, but lower than expected growth in some Swedish mixtures was associated with negative complementarity, indicating interspecific interference competition. 6. Our results emphasize the potential importance of detritivore diversity for stream ecosystem functioning, but both the effects of diversity on the studied processes, and the mechanisms underlying those effects, were specific to each assemblage and process. Such variability highlights challenges in generalizing impacts of diversity change for functional integrity in streams and other ecosystems in which the occurrence of important species traits fluctuates over relatively small spatio-temporal scales.

Published

2008

14. Continental-Scale Effects of Nutrient Pollution on Stream Ecosystem Functioning

Author

Angheluta Vadineanu, Markus Schindler, Scott D. Tiegs, Tadeusz Fleituch, Jesús Pozo, Mark O. Gessner, Michael Dobson, Björn Malmqvist, Manuel A. S. Graça, Lena B. M. Vought, Antoine Lecerf, Verónica Ferreira, Helen Cariss, Sally Hladyz, Paul S. Giller, Brendan G. McKie, Marius Nistorescu, Vladislav Gulis, Eric Chauvet, Guy Woodward, Geta Rîşnoveanu, Arturo Elosegi, Jean O. Lacoursière, University College Cork (UCC), Queen Mary University of London (QMUL), Swiss Federal Insitute of Aquatic Science and Technology [Dübendorf] (EAWAG), Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology [Zürich] (ETH Zürich), Leibniz-Institut für Gewässerökologie und Binnenfischerei (IGB), Leibniz Association, Technische Universität Berlin (TU), Universidade de Coimbra [Coimbra], Laboratoire Ecologie Fonctionnelle et Environnement (ECOLAB), Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut Ecologie et Environnement (INEE), Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Observatoire Midi-Pyrénées (OMP), Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Centre National de la Recherche Scientifique (CNRS), Umeå University, Oakland University, Manchester Metropolitan University (MMU), Universidad del Pais Vasco / Euskal Herriko Unibertsitatea [Espagne] (UPV/EHU), Polska Akademia Nauk = Polish Academy of Sciences (PAN), Kristianstad University College - HKR (SWEDEN), University of Bucharest (UniBuc), Centre National de la Recherche Scientifique - CNRS (FRANCE), Universidade de Coimbra (PORTUGAL), Leibniz-Institut für Gewässerökologie und Binnenfischerei - IGB (GERMANY), Institut National Polytechnique de Toulouse - INPT (FRANCE), Polish Academy of Sciences (POLAND), Technische Universität Berlin - TU Berlin (GERMANY), University College Cork (IRELAND), Umea University (SWEDEN), Université Toulouse III - Paul Sabatier - UT3 (FRANCE), Universidad del País Vasco - Euskal Herriko Unibertsitatea - EHU (SPAIN), University of Bucharest (ROMANIA), Swiss Federal Institute of Aquatic Science and Technology - EAWAG (SWITZERLAND), Manchester Metropolitan University - MMU (UNITED KINGDOM), Oakland University (USA), Queen Mary University of London - QMUL (UNITED KINGDOM), Eidgenössische Technische Hochschule Zürich - ETHZ (SWITZERLAND), Laboratoire Ecologie fonctionnelle et Environnement - EcoLab (Toulouse, France), Institut National Polytechnique de Toulouse - Toulouse INP (FRANCE), Technical University of Berlin / Technische Universität Berlin (TU), Laboratoire Ecologie Fonctionnelle et Environnement (LEFE), Institut Ecologie et Environnement (INEE), Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Observatoire Midi-Pyrénées (OMP), Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Centre National de la Recherche Scientifique (CNRS)-Institut National Polytechnique (Toulouse) (Toulouse INP), and Université de Toulouse (UT)

Subjects

0106 biological sciences, Biogeochemical cycle, Biodiversité et Ecologie, Biogeochemical processes, Biodiversity, Aquatic ecosystem, Ilex, 010501 environmental sciences, 010603 evolutionary biology, 01 natural sciences, Quercus, Nutrient, Rivers, Water Pollution, Chemical, Animals, Ecosystem, Biomass, 0105 earth and related environmental sciences, Ecosystem health, Multidisciplinary, Ecology, Hydrogeomorphology, Aquatic biodiversity, Eutrophication, 15. Life on land, Invertebrates, 6. Clean water, Europe, Plant Leaves, 13. Climate action, Nutrient pollution, Environmental science, [SDE.BE]Environmental Sciences/Biodiversity and Ecology

Abstract

Reading the Leaves Excess inputs of nutrients—a type of pollution known as eutrophication—threatens biodiversity and water quality in rivers and streams. Woodward et al. (p. 1438 ; see the Perspective by Palmer and Febria ) studied how one key ecosystem process—leaf-litter decomposition—responds to eutrophication across a large nutrient pollution gradient in 100 European streams. Leaf breakdown was stimulated by low to moderate nutrient concentrations but was inhibited at high rates of nutrient loading.

Published

2012

15. Food webs: Reconciling the structure and function of biodiversity

Author

Roger L. Kitching, Heidi M. Rantala, Robert O. Hall, Ulrich Brose, Daniel B. Stouffer, Jennifer A. Dunne, Ross M. Thompson, Jason M. Tylianakis, Sally Hladyz, Neo D. Martinez, and Tamara N. Romanuk

Subjects

0106 biological sciences, Functional ecology, Food Chain, business.industry, 010604 marine biology & hydrobiology, Ecology (disciplines), Environmental resource management, Biodiversity, Plants, 15. Life on land, Models, Biological, 010603 evolutionary biology, 01 natural sciences, 13. Climate action, Aquatic biodiversity research, Sustainability, Ecosystem management, Animals, Ecosystem ecology, business, Ecology, Evolution, Behavior and Systematics, Global biodiversity

Abstract

The global biodiversity crisis concerns not only unprecedented loss of species within communities, but also related consequences for ecosystem function. Community ecology focuses on patterns of species richness and community composition, whereas ecosystem ecology focuses on fluxes of energy and materials. Food webs provide a quantitative framework to combine these approaches and unify the study of biodiversity and ecosystem function. We summarise the progression of food-web ecology and the challenges in using the food-web approach. We identify five areas of research where these advances can continue, and be applied to global challenges. Finally, we describe what data are needed in the next generation of food-web studies to reconcile the structure and function of biodiversity. © 2012 Elsevier Ltd.

Published

2012

16. Stream Ecosystem Functioning in an Agricultural Landscape

Author

Mark O. Gessner, Guy Woodward, Sylvain Lamothe, Arturo Elosegi, Verónica Ferreira, Michael Dobson, Stephen A. Hutton, Marius Nistorescu, Vladislav Gulis, Geta Rîşnoveanu, Miira P. Riipinen, Lena B. M. Vought, Jean O. Lacoursière, Scott D. Tiegs, Eric Chauvet, Paul S. Giller, Tadeusz Fleituch, Brendan G. McKie, Markus Schindler, Sally Hladyz, Björn Malmqvist, Antoine Lecerf, Kajsa Åbjörnsson, and Elena Preda

Subjects

geography, geography.geographical_feature_category, Ecology, Agroforestry, Aquatic ecosystem, Grazing, Environmental science, Ecosystem, Woodland, STREAMS, Freshwater ecosystem, Food web, Riparian zone

Abstract

The loss of native riparian vegetation and its replacement with non-native species or grazing land for agriculture is a worldwide phenomenon, but one that is prevalent in Europe, reflecting the heavily-modified nature of the continent's landscape. The consequences of these riparian alterations for freshwater ecosystems remain largely unknown, largely because bioassessment has traditionally focused on the impacts of organic pollution on community structure. We addressed the need for a broader perspective, which encompasses changes at the catchment scale, by comparing ecosystem processes in woodland reference sites with those with altered riparian zones. We assessed a range of riparian modifications, including clearance for pasture and replacement of woodland with a range of low diversity plantations, in 100 streams to obtain a continental-scale perspective of the major types of alterations across Europe. Subsequently, we focused on pasture streams, as an especially prevalent widespread riparian alteration, by characterising their structural (e.g. invertebrate and fish communities) and functional (e.g. litter decomposition, algal production, herbivory) attributes in a country (Ireland) dominated by this type of landscape modification, via field and laboratory experiments. We found that microbes became increasingly important as agents of decomposition relative to macrofauna (invertebrates) in impacted sites in general and in pasture streams in particular. Resource quality of grass litter (e.g., carbon : nutrient ratios, lignin and cellulose content) was a key driver of decomposition rates in pasture streams. These systems also relied more heavily on autochthonous algal production than was the case in woodland streams, which were more detrital based. These findings suggest that these pasture streams might be fundamentally different from their native, ancestral woodland state, with a shift towards greater reliance on autochthonous-based processes. This could have a destabilizing effect on the dynamics of the food web relative to the slower, detrital-based pathways that dominate in woodland streams.

Published

2011

17. Fast processing of diel oxygen curves: Estimating stream metabolism with BASE (BAyesian Single-station Estimation)

Author

Ralph Charles Mac Nally, Michael R. Grace, Darren P. Giling, Ross M. Thompson, Sally Hladyz, and Valerie Caron

Subjects

Estimation, 13. Climate action, Statistics, Bayesian probability, Batch processing, Primary production, Ocean Engineering, Biology, Base (topology), Stream metabolism, Bayesian inference, Diel vertical migration

Abstract

The measurement of stream metabolism (gross primary production and respiration) has become more feasible with the availability of more reliable dissolved oxygen (DO) probes. Such metabolic measurements offer important opportunities in fundamental and applied research, especially in relating stream metabolic responses to human and other pressures. The accurate determination of the reaeration coefficient is one challenge for making reliable ecological inferences from DO measurements made over many diel periods (i.e., months or years). We outline three methods for calculating atmospheric reaeration but concentrate on the use of statistical estimation to simultaneously estimate reaeration and metabolic rates using Bayesian model fitting. While there are existing programs (ModelMaker and Bayesian Metabolic Model [BaMM]), these are either slow or unable to be used easily for fitting multiple days of metabolic data (one to many months). Our implementation, BAyesian Single-station Estimation (BASE), uses freely available software (R and OpenBUGS), includes a batch mode that can fit data for many days, and provides visual and statistical measures of “goodness-of-fit.” We compare the results of the BASE, ModelMaker, and BaMM programs.

Published

2015

18. Monitoring of ecosystem responses to the delivery of environmental water in the Edward-Wakool river system 2011-12 - Report 2

Author

Robyn Watts, Richard Kopf, Sally Hladyz, Michael Grace, Nicole McCasker, Skye Wassens, Julia Howitt, Burns, A., and John Conallin

19. Watering floodplain wetlands in the Murray-Darling Basin for native fish, Waterlines report, National Water Commission, Canberra

Author

Leah Beesley, Amina Price, Alison King, Ben Gawne, Daryl Nielsen, John Koehn, Shaun Meredith, Lorenzo Vilizzi, Nathan Ning, and Sally Hladyz