Your search keyword '"Brancelj, A."' showing total 16 results

1. Size scaling of whole-body metabolic activity in the noble crayfish (Astacus astacus) estimated from measurements on a single leg

Author

Tatjana Simčič, Franja Pajk, Anton Brancelj, and Al Vrezec

Subjects

Astacus, biology, Ecology, musculoskeletal, neural, and ocular physiology, chemistry.chemical_element, Aquatic Science, biology.organism_classification, Crayfish, Oxygen, Animal science, nervous system, Metabolic potential, chemistry, Whole body, Metabolic activity, Transport system

Abstract

Summary 1. Use of electron transport system (ETS) activity in a single leg for estimating whole-body ETS activity was explored in the noble crayfish Astacus astacus. Oxygen consumption and ETS activity of the whole body and of a walking leg were measured in different-sized animals at 10 °C to compare the size scaling of oxygen consumption, whole-body ETS activity and the ratio of whole-body ETS activity to oxygen consumption (ETS/R). 2. Electron transport system activity of a leg and the ratio of ETS activity of a whole crayfish to that of a leg were correlated with wet mass of animals. Therefore, metabolic potential in whole noble crayfish can be estimated on the basis of the measured ETS activity in a single leg and crayfish mass. This approach provides a valuable tool for determining metabolic characteristics of crayfish without killing them. 3. Mass-specific oxygen consumption decreased with increasing wet mass, while ETS activity of whole crayfish showed no significant correlation with wet mass. Both oxygen consumption and ETS activity correlated significantly with protein mass. 4. The increase in ETS/R with increasing wet mass of the noble crayfish indicates that small organisms exploit a greater proportion of their metabolic potential for standard metabolism than larger ones. This is the first report on ETS/R in crayfish.

Published

2011

2. Regionalisation of remote European mountain lake ecosystems according to their biota: environmental versus geographical patterns

Author

Gunnar G. Raddum, Martin Kernan, Marc Ventura, Gaute Velle, Jordi Catalan, G Clarke, Evžen Stuchlík, Anton Brancelj, and Peter Bitušík

Subjects

biology, Ecology, Range (biology), fungi, Species distribution, Lake ecosystem, Community structure, Aquatic Science, biology.organism_classification, Diatom, Geography, Littoral zone, Ordination, Invertebrate

Abstract

P> A survey of c. 350 remote high altitude and high latitude lakes from 11 different mountain regions was undertaken to explore species distribution across Europe at a scale not previously attempted.Lakes were sampled for planktonic crustaceans, rotifers, littoral invertebrates and sub-fossil chironomids, diatoms and cladocerans. Each lake was characterised in terms of water chemistry, morphology, catchment attributes and geographical location.Separate twinspan analyses were undertaken on diatom, chironomid, planktonic crustacean, littoral invertebrate and cladoceran (chydorids only) data to classify sites according to taxonomic composition. For most datasets there was a spatial component to the classification with distinct geographical groups emerging - Norway and Scotland, Finland and Central/Eastern Europe.Constrained ordination methods were employed to examine how species responded to a range of environmental factors, which were aggregated into a series of component groups - proximal environment (the chemical, trophic and physical attributes of the lake), catchment characteristics and geographical location. Several key environmental gradients were identified, which explained significant levels of the variance across several of the biological groups including dissolved organic carbon (chironomids, planktonic crustaceans), temperature (chironomids and littoral invertebrates), chloride/sea-salt (littoral invertebrates, diatoms and rotifers), lake morphology (all groups), calcium/pH (diatoms), nitrate (chydorids, littoral invertebrates, rotifers and planktonic crustaceans) and fish (littoral invertebrates). In some cases these statistical relationships are likely to represent direct ecological constraints and, in others, it is probable that the environmental variable is acting as a surrogate for some other attribute or process.Variance partitioning was undertaken to quantify how much of the variation in each biological group could be uniquely attributed to variables representing the proximal environment, catchment characteristics and geographical location. For most groups the location of the lake tends to explain the greatest variation in species composition across the Lake Districts. The proximal environment was also important but, with the exception of diatoms, secondary to location. Therefore, a strong geographical signal emerged from the analyses. Three distinct limno-regions were identified; Nordic (Scotland and Norway), Sub-Arctic (Northern Finland) and Alpine (Pyrenees, the Alps and Eastern Europe ranges).Our results have implications for the development of regionalisation schemes based on biological responses to environmental gradients; (i) lake 'types' based on environmental factors cannot be extrapolated throughout Europe, even within the relatively narrow gradients found in remote mountain lakes, (ii) biotic response to large-scale variations in environmental conditions, such as those that could be expected with climate change, is likely to vary according to regions because of the biogeographical differences among them.

Published

2009

3. Ecological thresholds in European alpine lakes

Author

Frederic Bartumeus, M. Grazia Barbieri, Sergi Pla, Jordi Catalan, Ivan Botev, Peter Bitušík, Evžen Stuchlík, Marina Manca, Elena Štefková, Aldo Marchetto, Dan Cogălniceanu, Anton Brancelj, Marc Ventura, Maria Rieradevall, Sanna Sorvari, and Nadja Ognjanova-Rumenova

Subjects

0106 biological sciences, Ecology, 010604 marine biology & hydrobiology, Biodiversity, 15. Life on land, Aquatic Science, Biology, Plankton, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Zooplankton, Altitude, Taxon, Diatom, Assemblage (archaeology), Taxonomic rank

Abstract

SUMMARY 1. Species assemblages of diatoms, rotifers, chydorids, planktonic crustaceans and chironomids were studied in 235 alpine lakes in the Alps, Pyrenees, Tatras (Western Carpathians), Retezat (Southern Carpathians) and Rila Mountains (Balkans). 2. For all taxonomic groups we found a hierarchical structure in the community assemblage using distinct scales of lake clustering (number of k-means groups) based on species composition similarity (Hellinger distance). We determined the optimal partition in assemblage types (i.e. number of lake clusters) for each taxonomic group by maximising the sum of the taxon indicative value (IndVal) and performed discriminant analyses, using environmental variables not conditioned by geographical patterns. Relevant environmental variables differed among and within taxonomic groups. Therefore the assemblages respond to a complex environmental mosaic, with the exception of diatom assemblages, which followed an acid–base gradient. 3. The significant environmental variables could be grouped into four general factors: lake size, tropho-dynamic status, acid–base balance and ice-cover duration (i.e., altitudinal gradient). Lake size was significant for the highest number of assemblage types; however, the most significant factor differed among taxonomic groups: acid–base balance for diatoms, lake size for rotifers, ice-cover duration for chydorids and planktonic crustaceans and tropho-dynamic status for chironomids. No single environmental typology accounted for the assemblage structure of all taxonomic groups. 4. However, defining ecological thresholds as values within environmental gradients at which the rate of change in assemblages is accelerated relative to points distant from that

Published

2009

4. Groundwater biodiversity in Europe

Author

Louis Deharveng, A. Bedos, Frank Fiers, M. Zagmajster, Patrick Martin, Anton Brancelj, Diana M. P. Galassi, Ana Camacho, G. Magniez, Fabio Stoch, Narcisse Giani, Pierre Marmonier, and Janine Gibert

Subjects

Stygobionts, Ecology, Rarity, Biodiversity, Species diversity, Introduced species, Aquatic Science, Biology, Taxon, Genus, Spatial ecology, Hotspots, Species richness, Endemism

Abstract

18 páginas, 7 figuras, 4 tables et al, 1. The spatial patterns of groundwater biodiversity in Europe remain poorly known, yet their knowledge is essential to understand local variation in groundwater assemblages and to develop sound conservation policies. We explore here the broad-scale distribution of groundwater biodiversity across Europe, focussing on obligate subterranean species. 2. We compiled published distributional data of obligate subterranean aquatic taxa for six European countries (Belgium, France, Italy, Portugal, Slovenia and Spain), and conducted a detailed biological survey of six regions (one in Belgium, two in France, one in Italy, one in Slovenia and one in Spain). Based on this data set, we mapped spatial patterns of biodiversity in Europe on a cell grid with 0.2 · 0.2 resolution. 3. As of mid-2006, the total number of described stygobiotic species in the six countries was 930 and the total number of genera with at least one described stygobiotic species was 191. The total number of sampling sites where at least one stygobiont had been collected was 4709, distributed in 1228 of the 4668 grid cells covering the study area. 4. Groundwater stygobiotic biodiversity was dominated by Crustacea with 757 species in 122 genera. Insects were represented by only two species of a single genus of dytiscid beetles restricted to south-eastern France. 5. The geographic distribution of stygobionts was extremely heterogeneous. Stygobionts were recorded in 26% of the 4668 grid cells and only 33 cells had more than 20 stygobiotic species. These 33 ‘hot-cells’ of groundwater species richness clustered in seven hotspots. 6. Endemicity was very high, with 43% of the total number of stygobiotic species restricted to a single cell, i.e., This work was financially supported by the European project PASCALIS (Protocols for the Assessment and Conservation of Aquatic Life in the Subsurface) (no. EVK2-CT-2001-00121) under the EU 5th Framework Programme: global change, climate and biodiversity.

Published

2009

5. Effects of pH on electron transport system (ETS) activity and oxygen consumption in Gammarus fossarum, Asellus aquaticus and Niphargus sphagnicolus

Author

Anton Brancelj and Tatjana Simčič

Subjects

biology, Ecology, chemistry.chemical_element, Niphargus sphagnicolus, Metabolism, Aquatic Science, biology.organism_classification, Electron transport chain, Oxygen, chemistry, Gammarus, Environmental chemistry, Respiration, Asellus aquaticus, Hydrobiology

Abstract

Summary 1. Electron transport system (ETS) activity and oxygen consumption were measured in three crustacean species (Gammarus fossarum, Asellus aquaticus and Niphargus sphagnicolus) that differ in their pH tolerance. Measurements were made under four different pH regimes: strongly acid (pH 4.5–5.0), weakly acid (5.5–6.0), ‘neutral’ (7.0–7.8) and alkaline (8.5–9.0). 2. The significantly lower ETS activity/respiration (ETS/R) ratios observed in strongly acid water than in neutral and alkaline water indicate an effect of acidity on metabolism of the organisms. The main reason for the lower ratios is not increased oxygen consumption (except for G. fossarum in strongly acid water) but decreased ETS activity. Metabolic potential was lower in strongly and weakly acid water than in neutral water. Therefore, efficient exploitation of metabolic potential (i.e. of relatively large production of ATP with the existing enzyme machinery) probably enables N. sphagnicolus and A. aquaticus to survive in an acid environment. 3. Increased oxygen consumption of G. fossarum in strongly acid water indicates an acid stress that leads to the collapse of metabolism and, consequent death of the animals. 4. Although N. sphagnicolus is found exclusively in permanently acid water, no negative effect of alkaline water on metabolism was observed. This species can, therefore, be best considered as an acid-resistant species, not an acidobiont.

Published

2006

6. Comparative study of electron transport system activity and oxygen consumption of amphipods from caves and surface habitats

Author

Anton Brancelj, Tatjana Simčič, and Simon Lukančič

Subjects

Amphipoda, biology, Ecology, chemistry.chemical_element, Aquatic Science, biology.organism_classification, Crustacean, Oxygen, chemistry, Gammarus, Respiration, Epigeal, Niphargus, Hydrobiology

Abstract

Summary 1. Respiratory electron transport system (ETS) activity and oxygen consumption were measured at 10 °C for the hypogean amphipods Niphargus stygius (from two epikarst locations) and N. krameri (from a sinking river in a cave) and the epigean amphipod Gammarus fossarum (inhabiting a spring and a river). 2. ETS activity and oxygen consumption were compared between caves and the two surface locations, and between hypogean and epigean amphipods. ETS activities were found not to differ between animals from different locations, or between epigean and hypogean amphipods. As expected, the oxygen consumption of N. krameri and N. stygius was lower than that of G. fossarum. 3. The high ratio between ETS activity and oxygen consumption (ETS/R ratio) showed that N. krameri and N. stygius possess high metabolic potential that can be exploited for energy recovery and rapid restoration of body reserves immediately following the appearance of favourable conditions (food and/or oxygen). In contrast, G. fossarum exhibited a low ETS/R ratio, indicating exploitation of a great proportion of the metabolic potential for standard metabolism. 4. Feeding in N. stygius increased oxygen consumption but not ETS activity, and thus fed N. stygius had a much lower ETS/R ratio than starved ones. 5. A relatively high metabolic potential (i.e. high ETS/R ratio) may be an adaptation to hypogean life in amphipods, in that it improves survival under poor food and/or oxygen conditions.

Published

2005

7. Estimation of the proportion of metabolically active mass in the amphipod Gammarus fossarum

Author

Anton Brancelj and Tatjana Simčič

Subjects

Protoplasm, Animal science, Amphipoda, Dry weight, biology, Gammarus, Ecology, Cuticle, Chemical oxygen demand, Allometry, Aquatic Science, biology.organism_classification, Crustacean

Abstract

SUMMARY 1. The proportion of metabolically active mass in the freshwater amphipod Gammarus fossarum was determined using different parameters [chemical oxygen demand (COD), total nitrogen (Ntot), total phosphorus (Ptot) and mass of chitinous cuticle]. 2. The results of linear regressions between body mass and body length, and measured parameters (COD, Ntot, Ptot) show high correlation coefficients for both fresh and the dry animals. The proportion of chitinous mass increased with body size. 3. Chemical analysis of Ptot in individuals appears to be the most appropriate parameter for quantitating the metabolically active tissues in animals. 4. The dependence of the intensity of electron transport system (ETS) activity per protoplasm, calculated from the Ptot and dry mass of animals, shows that large animals have the same ETS activity per unit of protoplasm as smaller ones. 5. We conclude that the chitinous mass is not the only factor which contributes to negative allometry of metabolic activity in G. fossarum.

Published

2003

8. Size scaling of whole-body metabolic activity in the noble crayfish (Astacus astacus) estimated from measurements on a single leg

Author

SIMČIČ, TATJANA, primary, PAJK, FRANJA, additional, VREZEC, AL, additional, and BRANCELJ, ANTON, additional

Published

2011

9. Ecological thresholds in European alpine lakes

Author

CATALAN, JORDI, primary, BARBIERI, M. GRAZIA, additional, BARTUMEUS, FREDERIC, additional, BITUŠÍK, PETER, additional, BOTEV, IVAN, additional, BRANCELJ, ANTON, additional, COGĂLNICEANU, DAN, additional, MANCA, MARINA, additional, MARCHETTO, ALDO, additional, OGNJANOVA‐RUMENOVA, NADJA, additional, PLA, SERGI, additional, RIERADEVALL, MARIA, additional, SORVARI, SANNA, additional, ŠTEFKOVÁ, ELENA, additional, STUCHLÍK, EVŽEN, additional, and VENTURA, MARC, additional

Published

2009

10. Regionalisation of remote European mountain lake ecosystems according to their biota: environmental versus geographical patterns

Author

KERNAN, MARTIN, primary, VENTURA, MARC, additional, BITUŠÍK, PETER, additional, BRANCELJ, ANTON, additional, CLARKE, GINA, additional, VELLE, GAUTE, additional, RADDUM, GUNNAR G., additional, STUCHLÍK, EVŽEN, additional, and CATALAN, JORDI, additional

Published

2009

11. Biodiversity indicators in European ground waters: towards a predictive model of stygobiotic species richness

Author

STOCH, FABIO, primary, ARTHEAU, MALVINA, additional, BRANCELJ, ANTON, additional, GALASSI, DIANA M. P., additional, and MALARD, FLORIAN, additional

Published

2009

12. Groundwater biodiversity in Europe

Author

DEHARVENG, L., primary, STOCH, F., additional, GIBERT, J., additional, BEDOS, A., additional, GALASSI, D., additional, ZAGMAJSTER, M., additional, BRANCELJ, A., additional, CAMACHO, A., additional, FIERS, F., additional, MARTIN, P., additional, GIANI, N., additional, MAGNIEZ, G., additional, and MARMONIER, P., additional

Published

2009

13. Effects of pH on electron transport system (ETS) activity and oxygen consumption in Gammarus fossarum, Asellus aquaticus and Niphargus sphagnicolus

Author

SIMČIČ, TATJANA, primary and BRANCELJ, ANTON, additional

Published

2006

14. Comparative study of electron transport system activity and oxygen consumption of amphipods from caves and surface habitats

Author

SIMČIČ, TATJANA, primary, LUKANČIČ, SIMON, additional, and BRANCELJ, ANTON, additional

Published

2005

15. Estimation of the proportion of metabolically active mass in the amphipod Gammarus fossarum

Author

Simčič, Tatjana, primary and Brancelj, Anton, additional

Published

2003

16. Size scaling of whole-body metabolic activity in the noble crayfish ( Astacus astacus) estimated from measurements on a single leg.

Author

SIMČIČ, TATJANA, PAJK, FRANJA, VREZEC, AL, and BRANCELJ, ANTON

Subjects

ASTACUS astacus, BODY size, CRAYFISH, ELECTRON transport, OXYGEN consumption, RESPIRATORY measurements, PHYSIOLOGY

Abstract

Summary 1. Use of electron transport system (ETS) activity in a single leg for estimating whole-body ETS activity was explored in the noble crayfish Astacus astacus. Oxygen consumption and ETS activity of the whole body and of a walking leg were measured in different-sized animals at 10 °C to compare the size scaling of oxygen consumption, whole-body ETS activity and the ratio of whole-body ETS activity to oxygen consumption (ETS/R). 2. Electron transport system activity of a leg and the ratio of ETS activity of a whole crayfish to that of a leg were correlated with wet mass of animals. Therefore, metabolic potential in whole noble crayfish can be estimated on the basis of the measured ETS activity in a single leg and crayfish mass. This approach provides a valuable tool for determining metabolic characteristics of crayfish without killing them. 3. Mass-specific oxygen consumption decreased with increasing wet mass, while ETS activity of whole crayfish showed no significant correlation with wet mass. Both oxygen consumption and ETS activity correlated significantly with protein mass. 4. The increase in ETS/R with increasing wet mass of the noble crayfish indicates that small organisms exploit a greater proportion of their metabolic potential for standard metabolism than larger ones. This is the first report on ETS/R in crayfish. [ABSTRACT FROM AUTHOR]

Published

2012