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2. Temperature and predator cues interactively affect ontogenetic metabolic scaling of aquatic amphipods: T and P effect on metabolic scaling

Author

Gjoni V., Basset A., Glazier D. S., Gjoni, V., Basset, A., and Glazier, D. S.

Subjects
metabolic scaling, fish predator, temperature, Amphipoda, body size, phenotypic plasticity
Abstract

A common belief is that body mass scaling of metabolic rate results chiefly from intrinsic body-design constraints. However, several studies have shown that multiple ecological factors affect metabolic scaling. The mechanistic basis of these effects is largely unknown. Here, we explore whether abiotic and biotic environmental factors have interactive effects on metabolic scaling. To address this question, we studied the simultaneous effects of temperature and predator cues on the ontogenetic metabolic scaling of amphipod crustaceans inhabiting two different aquatic ecosystems, a freshwater spring and a saltwater lagoon. We assessed effects of phenotypic plasticity on metabolic scaling by exposing amphipods in the laboratory to water with and without fish cues at multiple temperatures. Temperature interacts significantly with predator cues to affect metabolic scaling. Our results suggest that metabolic scaling is highly malleable in response to short-term acclimation. The interactive effects of temperature and predators show the importance of studying effects of global warming in realistic ecological contexts.

Published
2020

3. Biological and physical drivers of bio-mediated sediment resuspension: A flume study on Cerastoderma edule

Author

Cozzoli, F., Gomes da Conceiçâo, T., van Dalen, J., Fang, X., Gjoni, V., Herman, P.M.J., Hu, Z., Soissons, L.M., Walles, Ysebaert, T., Bouma, T.J., Cozzoli, F., Gomes da Conceiçâo, T., van Dalen, J., Fang, X., Gjoni, V., Herman, P.M.J., Hu, Z., Soissons, L.M., Walles, Ysebaert, T., and Bouma, T.J.

Abstract

Predictive models accounting for the effect of bioturbation on sediment resuspension must be based on ecological theory as well as on empirical parametrizations. The scaling trend of individual metabolic and activity rates with body mass may be a key to the mechanistic understanding of the observed patterns. With this study we tested if general size scaling rules in bio-mediated sediment resuspension may apply to a broad range of physical contexts for the endobenthic bivalve Cerastoderma edule. The effect on sediment resuspension of populations of C. edule differing by individual size was measured across physical gradients of current velocity and sediment composition in terms of fraction of fine particles. C. edule were able to enhance the resuspension of sediment containing silt, while they had scarce effect on the resuspension of coarse sediment. The effect of bioturbation was maximal at intermediate current velocity, when the hydrodynamic forcing is not strong enough to overcome the abiotic sediment resistance but it is able to suspend the bioturbated sediment. Although differences in sediment silt content and intensities of hydrodynamic stress have a relevant influence in determining the bioturbators individual contribution to sediment resuspension, the observed mass scaling trend is consistent across all treatments and close to theoretical expectation for size scaling of individual metabolic rates. This observation supports the hypothesis that the contribution of individual bioturbators to sediment resuspension is directly related to their energy use. Therefore, the proposed approach allows the formulation of expectations of biotic contribution to sediment resuspension based on the general size scaling laws of individual energy use.

Published
2020

5. Patterns of biodiverstiy and community organization across salinity gradient in Corfu Island aquatic ecosystems (Greece)

Author

Gjoni V., Mazzotta L., Pinna M., Marini G., Sangiorgio F., Vignes F., Vasiliou I., Papadopouluo E., Galavou E., Lomis A., Chatzicharistou E., Kavvadia E., Metallinou M., Pagkrati E., Tzafesta E., Ghinis S., Basset A., Gjoni, V., Mazzotta, L., Pinna, M., Marini, G., Sangiorgio, F., Vignes, F., Vasiliou, I., Papadopouluo, E., Galavou, E., Lomis, A., Chatzicharistou, E., Kavvadia, E., Metallinou, M., Pagkrati, E., Tzafesta, E., Ghinis, S., and Basset, A.

Subjects
Macroinvertebrate guilds, Corfu Island, community organization, biodiversity, aquatic ecosystems
Abstract

The study is focused on functional community organization of the macroinvertebrate guilds in the aquatic ecosystem complexes of the Corfu Island, including the freshwater, lagoon and marine components. The study is drawing implications on energy flows and organization of such ecosystem types extending previous investigations performed on existing data by expanding the knowledge base to functionally of different types of aquatic ecosystems through field experiments.

Published
2018

6. A process based model of cohesive sediment resuspension under bioturbators' influence

Author

Cozzoli, F., Gjoni, V., Del Pasqua, M., Hu, Z., Ysebaert, T., Herman, P.M.J., Bouma, T.J., Cozzoli, F., Gjoni, V., Del Pasqua, M., Hu, Z., Ysebaert, T., Herman, P.M.J., and Bouma, T.J.

Abstract

Macrozoobenthos may affect sediment stability and erodibility via their bioturbating activities, thereby impacting both the short- and long-term development of coastal morphology. Process-based models accounting for the effect of bioturbation are needed for the modelling of erosion dynamics.With this work, we explore whether the fundamental allometric principles of metabolic activity scaling with individual and population size may provide a framework to derive general patterns of bioturbation effect on cohesive sediment resuspension. Experimental flumes were used to test this scaling approach across different species of marine, soft-sediment bioturbators. The collected dataset encompasses a range of bioturbator functional diversity, individual densities, body sizes and overall population metabolic rates. Measurements were collected across a range of hydrodynamic stress from 0.02 to 0.25 Pa.Overall, we observed that bioturbators are able to slightly reduce the sediment resuspension at low hydrodynamic stress, whereas they noticeably enhance it at higher levels of stress. Along the whole hydrodynamic stress gradient, the quantitative effect of bioturbators on sediment resuspension can be efficiently described by the overall metabolic rate of the bioturbating benthic communities, with significant variations across the bioturbators' taxonomic and functional diversity. One of the tested species (the gallery-builder Polychaeta Hediste diversicolor) had an effect that was partially deviating from the general trend, being able to markedly reduce sediment resuspension at low hydrodynamic stress compared to other species. By combining bioturbators' influence with hydrodynamic force, we were able to produce a process-based model of biota-mediated sediment resuspension.

Published
2019

7. Cross-community scaling of benthic macroinvertebrate guilds: a functional approach to community organisation in inland waters of Southern Italy

Author

Gjoni, V., Marini, G., Mazzotta, L., PINNA, Maurizio, BASSET, Alberto, Gjoni, V., Marini, G., Mazzotta, L., Pinna, Maurizio, and Basset, Alberto

Subjects
Benthic macroinvertebrate guilds, cross-community scaling, inland waters of Southern Italy
Abstract

The search for simple and effective descriptors of biological ecosystem components is a major challenge of monitoring aquatic ecosystem health. There have been discussed the relevance of body-size-related descriptors of benthic invertebrate guilds in monitoring the health of aquatic ecosystems. The rationale is that macroinvertebrate body-size relates individual responses to disturbance pressures through individual energetic, population dynamics and species coexistence responses. The mechanistic relevance of individual body-size on coexistence relationships still requires field and laboratory tests and community level scaling-up. The different proposed models of size abundance distributions offer promising approaches to scale-up and address the overall role of individual body size in community organisation. One of the relationships between body-size and abundance in ecology is the cross-community scaling relationship (CCSR), which use ecological energetics to evaluate the overall body size based responses to actors affecting energy flow in ecosystems; external perturbations and pollution are main anthropogenic-based factors acting on energy flow. Field experiments on freshwater and transitional water benthic macroinvertebrate guilds from perturbed and unperturbed ecosystems of Southern Italy (Apulia and Sardinia areas) were designed to test: i. the crosscommunity scaling relationship relevance of body-size-related constraints on the organization of detritus-based benthic guilds through the relationship between the average size of an individual in an assemblage and the total community density; ii. the sensibility of statistical CCSR descriptors to perturbed conditions, compared to unperturbed ones.

Published
2014

8. Variation of leaf litter decomposition among rivers, lagoons and sea: an experiment from Corfu island (Greece)

Author

Marini, G., Gjoni, V., Mazzotta, L., Sangiorgio, F., Vasiliou, I., Papadopouluo, E., Galavou, E., Lomis, A., Chatzicharistou, E., Kavvadia, E., Metallinou, M., Pagkrati, E., Ghinis, S., VIGNES, Fabio, BASSET, Alberto, PINNA, Maurizio, Società Italiana di Ecologia, Marini, G., Gjoni, V., Mazzotta, L., Sangiorgio, F., Vignes, Fabio, Basset, Alberto, Vasiliou, I., Papadopouluo, E., Galavou, E., Lomis, A., Chatzicharistou, E., Kavvadia, E., Metallinou, M., Pagkrati, E., Ghinis, S., and Pinna, Maurizio

Subjects
Leaf litter decomposition, Phragmites australis, spatial patterns, salinity gradient, rivers, lagoons, sea
Abstract

In aquatic ecosystems, the decomposition of organic detritus represents one of the most important ecosystem functions, which support complex detritus-based food webs that determine the critical balance between carbon mineralization and sequestration. The performance of the decomposition process is usually expressed as rate of decomposition, being a synthetic measure that take into account both abiotic and biotic factors. Decomposition rates have been also applied to evaluate the ecological status in terms of ecological functionality. However, despite a growing number of studies have tested the rate of decomposition between leaves of different riparian tree species in different aquatic ecosystems including rivers, transitional waters and sea, no comparative study among ecosystems typology is available up to date. Here, we compare decomposition rates from rivers, lagoons and sea of Corfu island (Greece). Five sampling sites were fixed in each of the three of the most important rivers and lagoons; other five sampling sites were fixed in the sea around the island. Twelve leaf packs containing 3±0.005 g of oven-dried Phragmites australis leaves were submerged in April 2014 and retrieved in May 2014 (after 30 days). Abiotic parameters were recorded in both sampling times. The retrieved leaf packs were cleaned and the macroinvertebrates retained were removed, counted, identified at lower taxonomic level and weighted. Leaf pack decomposition rates were calculated, and their variability was compared within each aquatic ecosystem, within each ecosystem typology (river, lagoon, sea) and among ecosystem typology. The results are going to be presented on the poster.

Published
2014

9. Cross-community scaling of benthic macroinvertebrate assembalges: a functional approach to community organisation in Mediterranean inland waters

Author

Cozzoli, F., Gjoni, V., Marini, G., Mazzotta, L., PINNA, Maurizio, BASSET, Alberto, Marine Science and Tecnology Centre of Klaipeda University, Cozzoli, F., Gjoni, V., Marini, G., Mazzotta, L., Pinna, Maurizio, and Basset, Alberto

Subjects
Littoral and coastal macrozoobenthic communities, body size structures, cross community scaling relationships (CCSR), influence of environmental physical factors on CCRS
Abstract

Littoral and transitional macrozoobenthic communities are characterized by a broad diversity in size and behavior. Because metabolic and geometric constraints underpin body-size scaling relationships, metabolic theory offers a useful framework to predict the numeric abundances of macrozoobenthic species. Cross Community Scaling Relationships (CCSR) expresses the relationship between the average size of an individual in an assemblage and the total number of individuals. Where resource availability or space is constant, the average amount of resource (or space) used per individual directly determines the number of individuals that can be supported. However, subsidiary factors can modulate the realized expression of metabolic/geometric scaling rules by modifying the resources accessibility/availability across the individual body size spectra. The mechanistic relevance of individual body-size on coexistence relationships still requires field and laboratory tests and community level scaling-up. Here, the influence of different physical constrains on CCSR descriptors is investigated through the analysis of a large transitional water macrozoobenthic dataset. Results show that, while the pro capite individual body size has a major role in determining the realized individual density, subsidiary physical factors can remarkably increase the accuracy of our predictions. We discuss and interpret the implications of our observations for theoretical and applied ecology.

Published
2014

10. The first meeting of the European Register of Cystic Echinococcosis (ERCE)

Author

Rossi, P., Tamarozzi, F., Galati, F., Pozio, E., Akhan, O., Cretu, C. M., Vutova, K., Siles-Lucas, M., Brunetti, E., Casulli, A., Abela-Ridder, B., Al-Jawabreh, A., Angheben, A., Belhassen Garcia, M., Borys, S., Bruschi, F., Calleri, G., Chianura, L. G., Dezsenyi, B., Harandi, M. F., Giordani, M. T., Gjoni, V., Gogichaishvili, L., Goletti, D., Lapini, E., Karim, F., Mastrandrea, S., Menozzi, G., Muhtarov, M., Ramharter, M., Recordare, A., Shkjezi, R., Teggi, A., Torti, C., Vitale, G., Wallon, M., Zammarchi, L., HERACLES extended network, and European Commission

Subjects
0301 basic medicine, Register (sociolinguistics), Societies, Scientific, medicine.medical_specialty, Veterinary medicine, Databases, Factual, Public health awareness, 030231 tropical medicine, Context (language use), Meeting Report, European Register, 03 medical and health sciences, 0302 clinical medicine, case series, clinical management, cystic echinococcosis, european register, public health awareness, surveillance, databases, factual, echinococcosis, europe, humans, public health, societies, scientific, disease notification, registries, Echinococcosis, Medicine, Humans, Registries, Case series, Disease Notification, Surveillance, business.industry, Clinical management, Public health, medicine.disease, 3. Good health, Eastern european, Europe, Cystic echinococcosis, 030104 developmental biology, Infectious Diseases, Family medicine, Parasitic disease, Observational study, Parasitology, Public Health, business
Abstract

6 páginas, 3 figuras, 1 tabla, Cystic echinococcosis (CE) is a zoonotic parasitic disease endemic in southern and eastern European countries. The true prevalence of CE is difficult to estimate due to the high proportion of asymptomatic carriers who never seek medical attention and to the underreporting of diagnosed cases, factors which contribute to its neglected status. In an attempt to improve this situation, the European Register of Cystic Echinococcosis (ERCE), was launched in October 2014 in the context of the HERACLES project. ERCE is a prospective, observational, multicentre register of patients with probable or confirmed CE. The first ERCE meeting was held in November 2015 at the Italian National Institute of Health (Istituto Superiore di Sanita, ISS) in Rome, to bring together CE experts currently involved in the Register activities, to share and discuss experiences, and future developments. Although the Register is still in its infancy, data collected at the time of writing this report, had outnumbered the total of national cases reported by the European endemic countries and published by the European Centre for Disease Prevention and Control in 2015. This confirms the need for an improved reporting system of CE at the European level. The collection of standardized clinical data and samples is expected to support a more rational, stage-specific approach to clinical management, and to help public authorities harmonize reporting of CE. A better understanding of CE burden in Europe will encourage the planning and implementation of public health policies toward its control., This research received funding from the European Community’s Seventh Framework Programme under the grant agreement 602051 (Project HERACLES: Human cystic Echinococcosis ReseArch in CentraL and Eastern Societies; http:// www.heracles-fp7.eu/).

Published
2016

11. The Lagoons of Corfu: multiple impacts, conservation strategies and economic exploitations

Author

Ghinis, S., Gjoni, V., BASSET, Alberto, PINNA, Maurizio, VI EUROLAG & VII LAGUNET, Ghinis, S., Basset, Alberto, Pinna, Maurizio, and Gjoni, V.

Subjects
Lagoons of Corfu, management and conservation, biomonitoring using benthic macroinvertebrates, multiple impacts, alien specis invasions, economic exploitations
Abstract

In the Island of Corfu there are seven lagoons which have different biological and chemical characteristics and also different impacts and human interventions. In this research, a preliminary description of the lagoons is reported using available data from the literature. The lagoons of Corfu have been poorly studied from the point of view of ecological functuins and biodiversity. Specifically the lagoons are: 1.Lagoon Korission, it is the largest lagoon of Corfu. Located in the southwest of the island has an area of 600hectares approximately. Works like a fish farm and is protected area Natura 2000. The main intervention of the lagoon is the increasing of the human activities in the area of the lagoon; 2. Lagoon Chalkiopoulou, the second largest lagoon of Corfu, it has a total size of 180 hectares. There was a fish farm fifteen years ago. It is estimated that the last seventy years the lagoon has lost about 1/3 of its extent. This lagoon has received the most and the major intervention is the reduction in the area in order to create the Airport of Corfu; 3.Lagoon Antinioti, it is located northeast of Corfu and it has a total size of 100 hectares with the marshland Kounoufadi which is part of the lagoon. Works like a fish farm and is included in the protected areas Natura 2000. The main interference of the area has been done on the part of the marshland Kounoufadi where twenty years ago have been put polders by the municipality of Corfu in order to build a Municipal Stadium; 4. Lagoon Alykes Lefkimmis, it is a small lagoon of about 30 hectares in the southeast of Corfu. Along with former Alykes Lefkimmis is included in the protected areas Natura 2000. There is not significant human intervention in the lagoon in addition with the former Saline of Lefkimmi (which forms a single ecosystem) for which the area has decreased due to residential use. Three small lagoons in the area of Erimitis which is in the northeast part of Corfu, there are 3 small lagoon ecosystems (Akoli, Vromolimni and Avlaki) located on the northeast coast of Corfu. Each of these has a size of 2-4hectares. The most remarkable is that the lagoon Akoli in the past served as a fish farm and had an artificial orifice communicating with the sea. Such abandonment of this orifice it is noticed a decrease in the depth of the lagoon.

Published
2013

16. A new approach to assessing the space use behavior of macroinvertebrates by automated video tracking

Author

Milad Shokri, Vanessa Marrocco, Vojsava Gjoni, Fabio Vignes, Alberto Basset, Francesco Cozzoli, Mario Ciotti, Shokri, M., Cozzoli, F., Ciotti, M., Gjoni, V., Marrocco, V., Vignes, F., and Basset, A.

Subjects
0106 biological sciences, Noldus, Resource (biology), Boosting (machine learning), giving-up time, space use, macroinvertebrates, macroinvertebrate, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, lcsh:QH540-549.5, Ecosystem, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm), 030304 developmental biology, Nature and Landscape Conservation, Original Research, 0303 health sciences, Ecology, giving‐up time, Field (geography), Video tracking, Ethovision, Environmental science, lcsh:Ecology, Biological system, Microcosm, Scale (map), body size, Noldu
Abstract

Individual space and resource use are central issues in ecology and conservation. Recent technological advances such as automated tracking techniques are boosting ecological research in this field. However, the development of a robust method to track space and resource use is still challenging for at least one important ecosystem component: motile aquatic macroinvertebrates. The challenges are mostly related to the small body size and rapid movement of many macroinvertebrate species and to light scattering and wave signal interference in aquatic habitats.We developed a video tracking method designed to reliably assess space use behavior among individual aquatic macroinvertebrates under laboratory (microcosm) conditions. The approach involves the use of experimental apparatus integrating a near infrared backlight source, a Plexiglas multi‐patch maze, multiple infrared cameras, and automated video analysis. It allows detection of the position of fast‐moving (~ 3 cm/s) and translucent individuals of small size (~ 5 mm in length, ~1 mg in dry weight) on simulated resource patches distributed over an experimental microcosm (0.08 m2).To illustrate the adequacy of the proposed method, we present a case study regarding the size dependency of space use behavior in the model organism Gammarus insensibilis, focusing on individual patch selection, giving‐up times, and cumulative space used.In the case study, primary data were collected on individual body size and individual locomotory behavior, for example, mean speed, acceleration, and step length. Individual entrance and departure times were recorded for each simulated resource patch in the experimental maze. Individual giving‐up times were found to be characterized by negative size dependency, with patch departure occurring sooner in larger individuals than smaller ones, and individual cumulative space used (treated as the overall surface area of resource patches that individuals visited) was found to scale positively with body size.This approach to studying space use behavior can deepen our understanding of species coexistence, yielding insights into mechanistic models on larger spatial scales, for example, home range, with implications for ecological and evolutionary processes, as well as for the management and conservation of populations and ecosystems. Despite being specifically developed for aquatic macroinvertebrates, this method can also be applied to other small aquatic organisms such as juvenile fish and amphibians., We developed a video tracking method designed to reliably assess space use behavior among individual aquatic macroinvertebrates.To illustrate the utility of the proposed method, we present a case study regarding the size dependency of space and resource use behavior in Gammarus insensibilis, focusing on individual's patch selection, giving‐up time, and cumulative space used .We observed the negative size dependency of individual giving‐up time, showing that patch departure occurred sooner in larger individuals than smaller ones and that individual cumulative space used scaled positively with body size.

Published
2021

17. Relationship between individual metabolic rate and patch departure behaviour: evidence from aquatic gastropods

Author

Vanessa Marrocco, Alberto Basset, Fabio Vignes, Giovanna Ligetta, Mario Ciotti, Milad Shokri, Vojsava Gjoni, Francesco Cozzoli, Cozzoli, F., Shokri, M., Ligetta, G., Ciotti, M., Gjoni, V., Marrocco, V., Vignes, F., and Basset, A.

Subjects
foraging, gastropod, gastropods, Foraging, Metabolic rate, Zoology, Biology, metabolism, body mass, body ma, Ecology, Evolution, Behavior and Systematics, patch departure behaviour
Abstract

Individual energy requirements are tightly related to individual resource use and by extension of space-use patterns and other traits at higher levels of the ecological hierarchy. However, there is still little experimental evidence linking individual energetics and space-use behaviour. Individual energy requirements scale mainly with body size and temperature, but these do not explain all individual variation. Therefore, studies focused on inter individual variation in resource and space use behaviour can be used to frame foraging dynamics in an energy perspective. We empirically tested the hypothesis of a relationship between individual energetics and patch departure behaviour using as model organisms four small species (body mass ranging from 0.4 to 14 mg AFDW) of aquatic gastropods strongly differing in adult size: Galba truncatula, Bithynia tentaculata, Theodoxus fluviatilis and Ecrobia ventrosa (in descending order of size). Motility tests were performed in controlled microcosm conditions. The tests were designed to classify the specimens as either low motility (not inclined to abandon the patch) or high motility (likely to abandon the patch). The tests entailed measuring the propensity of the individuals to abandon a limited resource patch (2 g DW of conditioned Phragmites australis leaves) within a given amount of time (24 h) when foraging with conspecifics under conditions where competition for food is expected to increase over time due to resource depletion. The individual standard metabolic rate of the tested specimens was measured via open flow respirometry and compared across motility classes at intra- and interspecific level. At both levels, we observed that individuals with higher standard metabolic rates were more inclined to abandon the patch. This finding establishes a link between foraging theory and competitive coexistence mechanisms.

Published
2020

18. Patterns of functional diversity of macroinvertebrates across three aquatic ecosystem types, NE Mediterranean

Author

Luca Mazzotta, Vojsava Gjoni, Ilaria Rosati, Maurizio Pinna, Gabriele Marini, Alberto Basset, Serena Arima, Fabio Vignes, Mario Ciotti, Stamatis Ghinis, Gjoni, V., Ghinis, S., Pinna, M., Mazzotta, L., Marini, G., Ciotti, M., Rosati, I., Vignes, F., Arima, S., and Basset, A.

Subjects
0301 basic medicine, Βody size density relationship, Environmental Engineering, Freshwater and transitional water ecosystem, Aquatic Science, Oceanography, 03 medical and health sciences, functional groups, 0302 clinical medicine, Body size density relationship, Dominance (ecology), Community structure and energy flow, Marine ecosystem, Ecosystem, freshwater and transitional water ecosystems, Relative species abundance, Ecology, Evolution, Behavior and Systematics, Trophic level, Ecology, Aquatic ecosystem, 030104 developmental biology, Benthic zone, 030220 oncology & carcinogenesis, Guild, Functional groups, community structure and energy flow, Environmental science
Abstract

This study is focused on investigating the variation patterns of macroinvertebrate guilds functional structure, in relation to the taxonomic one, across aquatic ecosystem types along the salinity gradient from freshwater to marine and the resulting implications on guild organization and energy flows. Synoptic samplings have been carried out using the leaf-pack technique at 30 sites of the aquatic ecosystems of the Corfu Island (Greece), including freshwater, lagoon, and marine sites. Here, we analyzed the macroinvertebrate guilds of river, lagoon, and marine ecosystems, as: i. taxonomic composition and population abundance ii. trophic guilds composition and relative abundance; and iii. body size spectra and size patterns. The following variation patterns across the three ecosystem types were observed: a. trophic guild composition and body size spectra were more conservative than taxonomic composition within and among ecosystem types, where, trophic guild and size spectra composition were more similar between river and lagoon ecosystem types than with marine ones; b. a dominance on resource exploitation of large species over smaller ones was inferred at all sites; and, c. higher body size-specific density of individuals was consistently observed in lagoon than in freshwater and marine ecosystems. Results extend previous findings suggesting a common hierarchical organization of benthic macroinvertebrate guilds in aquatic ecosystems and showing that lagoon ecosystems have higher energy density transferred to benthic macroinvertebrates than both freshwater and marine ecosystem types.

Published
2019

19. Chironomus (Chironomus) aprilinus Meigen, 1818 (Diptera Chironomidae), first record from Italy : cytotaxonomy and ecology

Author

Milad Shokri, Bruno Rossaro, Angela Boggero, Vojsava Gjoni, Matteo Montagna, Silvia Zaupa, Matteo Ruocco, Ivano Ansaloni, Boggero, A., Ruocco, M., Shokri, M., Gjoni, V., Ansaloni, I., Zaupa, S., Montagna, M., and Rossaro, B.

Subjects
Chironominae, taxonomy, Chironominae, ecology, taxonomy, Chironomus aprilinus, biology, Ecology, fungi, Chironomus, ecology, General Agricultural and Biological Sciences, biology.organism_classification, Chironomidae, Cytotaxonomy
Abstract

Larvae, pupae and adult males of two populations of Chironomus (Chironomus) aprilinus Meigen, 1818 from two saline habitats in North and South Italy (Poiano spring and Giammatteo channel respectively) are described. The species can be easily identified at the larval stage because of the unequal length of ventral tubuli. The examination of pupal exuviae, adult male and salivary gland chromosomes confirmed the species identification. The two habitats differ in location and in salinity, the former (Poiano) is an inland spring in Northern Apennines (Emilia) with high salinity (12000 mg L-1), the latter (Giammatteo) is a channel near Lecce (Puglia) with a relatively low salinity content (1720 mg L-1) feeding a coastal lagoon (Acquatina). On the basis of the present information no substantial differences except in some morphometric measures were apparent between the two populations, despite the different salinity of the two habitats.

Published
2017

20. Maximum likelihood outperforms binning methods for detecting differences in abundance size spectra across environmental gradients.

Author

Pomeranz J, Junker JR, Gjoni V, and Wesner JS

Subjects
Animals, Computer Simulation, Likelihood Functions, Ecosystem
Abstract

Individual body size distributions (ISD) within communities are remarkably consistent across habitats and spatiotemporal scales and can be represented by size spectra, which are described by a power law. The focus of size spectra analysis is to estimate the exponent ( λ ) of the power law. A common application of size spectra studies is to detect anthropogenic pressures. Many methods have been proposed for estimating λ most of which involve binning the data, counting the abundance within bins, and then fitting an ordinary least squares regression in log-log space. However, recent work has shown that binning procedures return biased estimates of λ compared to procedures that directly estimate λ using maximum likelihood estimation (MLE). While it is clear that MLE produces less biased estimates of site-specific λ's, it is less clear how this bias affects the ability to test for changes in λ across space and time, a common question in the ecological literature. Here, we used simulation to compare the ability of two normalised binning methods (equal logarithmic and log 2 bins) and MLE to (1) recapture known values of λ , and (2) recapture parameters in a linear regression measuring the change in λ across a hypothetical environmental gradient. We also compared the methods using two previously published body size datasets across a natural temperature gradient and an anthropogenic pollution gradient. Maximum likelihood methods always performed better than common binning methods, which demonstrated consistent bias depending on the simulated values of λ . This bias carried over to the regressions, which were more accurate when λ was estimated using MLE compared to the binning procedures. Additionally, the variance in estimates using MLE methods is markedly reduced when compared to binning methods. The error induced by binning methods can be of similar magnitudes as the variation previously published in experimental and observational studies, bringing into question the effect sizes of previously published results. However, while the methods produced different regression slope estimates, they were in qualitative agreement on the sign of those slopes (i.e. all negative or all positive). Our results provide further support for the direct estimation of λ and its relative variation across environmental gradients using MLE over the more common methods of binning., (© 2024 The Authors. Journal of Animal Ecology © 2024 British Ecological Society.)

Published
2024
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21. Interactive effects of intrinsic and extrinsic factors on metabolic rate.

Author

Glazier DS and Gjoni V

Subjects
Biological Evolution, Body Size, Exercise, Energy Metabolism physiology, Adaptation, Physiological, Ecosystem
Abstract

Metabolism energizes all biological processes, and its tempo may importantly influence the ecological success and evolutionary fitness of organisms. Therefore, understanding the broad variation in metabolic rate that exists across the living world is a fundamental challenge in biology. To further the development of a more reliable and holistic picture of the causes of this variation, we review several examples of how various intrinsic (biological) and extrinsic (environmental) factors (including body size, cell size, activity level, temperature, predation and other diverse genetic, cellular, morphological, physiological, behavioural and ecological influences) can interactively affect metabolic rate in synergistic or antagonistic ways. Most of the interactive effects that have been documented involve body size, temperature or both, but future research may reveal additional 'hub factors'. Our review highlights the complex, intimate inter-relationships between physiology and ecology, knowledge of which can shed light on various problems in both disciplines, including variation in physiological adaptations, life histories, ecological niches and various organism-environment interactions in ecosystems. We also discuss theoretical and practical implications of interactive effects on metabolic rate and provide suggestions for future research, including holistic system analyses at various hierarchical levels of organization that focus on interactive proximate (functional) and ultimate (evolutionary) causal networks. This article is part of the theme issue 'The evolutionary significance of variation in metabolic rates'.

Published
2024
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22. Environmental drivers of size-based population structure, sexual maturity and fecundity: A study of the invasive blue crab Callinectes sapidus (Rathbun, 1896) in the Mediterranean Sea.

Author

Marchessaux G, Gjoni V, and Sarà G

Subjects
Animals, Female, Male, Mediterranean Sea, Fertility, Reproduction, Seasons, Introduced Species, Brachyura physiology
Abstract

The blue crab Callinectes sapidus (Rathbun, 1896) is one of the most invasive species in the Mediterranean Sea. Understand how the populations are maintained and how the environment is driving the populations in the areas invaded is the key to an effective future management. This current study is presenting a monthly long-term monitoring of the blue crabs' population structure, body size, sexual maturity, reproduction periods and fecundity, and their relationships with environmental factors in a saltmarshes system in Italy. During winter, high densities (15 ± 8 ind m-2) of early juveniles (< 2 cm) were observed, and their numbers decreased due the population growth until summer. The size-spectra showed that across different temperature (18-26°C) and salinity (24-40 psu) gradients, the growth period for males is faster than for females. Based on abdominal analysis, sexual maturity was defined at ∼12 cm for males and females but the population was in favor of males that were more than 66% of the time mature throughout the year. Copulations periods were identified between spring and autumn when more than 50% of females were matures, and ovigerous females' migrations were observed in late summer. Our study expand our understanding of how the environment interacts to effect physiological and biological processes of alien species and improve our ability to make predictions of how environmental change the distribution of the alien species in the future. Based on our results, we also discuss which population control strategy would be most effective based on the data available in the literature., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Marchessaux et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
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23. What do we know about the epidemiology and the management of human echinococcosis in Albania?

Author

Luga P, Gjata A, Akshija I, Mino L, Gjoni V, Pilaca A, Zobi M, Martinez GE, and Richter J

Subjects
Humans, Animals, Dogs, Albania epidemiology, Zoonoses epidemiology, Echinococcosis epidemiology, Echinococcosis veterinary, Echinococcus, Echinococcus granulosus
Abstract

Echinococcosis is a life-threatening neglected zoonotic disease. Cystic echinococcosis (CE) due to Echinococcus (E.) granulosus usually involves livestock and dogs; alveolar echinococcosis (AE) due to E. multilocularis involves rodents and canines such as foxes and dogs. Human hosts are infected accidentally via hand to mouth and/or foodborne/waterborne pathways. Albania is deemed to be endemic for cystic echinococcosis (CE), but there is a scarcity of data to confirm this. A systematic literature search was performed in PubMed, Google Scholar, and in other medical sources. Because of the scarcity of existing information, data confirming CE cases were reviewed from the medical hospital records of Albania's largest Hospital, the Mother Teresa University Hospital (UHCMT) Tirana, and from a large private laboratory in Tirana (Pegasus laboratory). A total of eight eligible publications on 540 CE patients were found. Three hundred forty seven additional cases hospitalized in UHCMT from 2011 to 2020 were confirmed, as well as 36 laboratory cases and 10 Albanian cases notified in Germany. Taking all cases into account and considering 162 overlapping cases, 771 cases were documented from 2011 to 2020. The only case reported as AE was most likely a multi-organic CE. Surgery was the most frequent therapy approach used (84.7%). Autochthonous human CE seems to be widespread, and transmission is ongoing in Albania. CE patients in Albania undergo surgery more frequently compared with CE cases in other European countries. In order to establish a realistic estimate of prevalence and incidence of CE in Albania, mandatory notification should be reinforced. Stage-specific therapy can be used in CE to reduce therapy cost and diminish mortality by avoiding surgical overtreatment., (© 2023. The Author(s).)

Published
2023
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24. Unveiling the incidences and trends of the neglected zoonosis cystic echinococcosis in Europe: a systematic review from the MEmE project.

Author

Casulli A, Abela-Ridder B, Petrone D, Fabiani M, Bobić B, Carmena D, Šoba B, Zerem E, Gargaté MJ, Kuzmanovska G, Calomfirescu C, Rainova I, Sotiraki S, Lungu V, Dezsényi B, Herrador Z, Karamon J, Maksimov P, Oksanen A, Millon L, Sviben M, Shkjezi R, Gjoni V, Akshija I, Saarma U, Torgerson P, Šnábel V, Antolová D, Muhovic D, Besim H, Chereau F, Belhassen García M, Chappuis F, Gloor S, Stoeckle M, Müllhaupt B, Manno V, Santoro A, and Santolamazza F

Subjects
Animals, Humans, Incidence, Europe epidemiology, Rural Population, Zoonoses epidemiology, Echinococcosis parasitology
Abstract

The neglected zoonosis cystic echinococcosis affects mainly pastoral and rural communities in both low-income and upper-middle-income countries. In Europe, it should be regarded as an orphan and rare disease. Although human cystic echinococcosis is a notifiable parasitic infectious disease in most European countries, in practice it is largely under-reported by national health systems. To fill this gap, we extracted data on the number, incidence, and trend of human cases in Europe through a systematic review approach, using both the scientific and grey literature and accounting for the period of publication from 1997 to 2021. The highest number of possible human cases at the national level was calculated from various data sources to generate a descriptive model of human cystic echinococcosis in Europe. We identified 64 745 human cystic echinococcosis cases from 40 European countries. The mean annual incidence from 1997 to 2020 throughout Europe was 0·64 cases per 100 000 people and in EU member states was 0·50 cases per 100 000 people. Based on incidence rates and trends detected in this study, the current epicentre of cystic echinococcosis in Europe is in the southeastern European countries, whereas historical endemic European Mediterranean countries have recorded a decrease in the number of cases over the time., Competing Interests: Declaration of interests We declare no competing interests., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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25. A new approach to assessing the space use behavior of macroinvertebrates by automated video tracking.

Author

Shokri M, Cozzoli F, Ciotti M, Gjoni V, Marrocco V, Vignes F, and Basset A

Abstract

Individual space and resource use are central issues in ecology and conservation. Recent technological advances such as automated tracking techniques are boosting ecological research in this field. However, the development of a robust method to track space and resource use is still challenging for at least one important ecosystem component: motile aquatic macroinvertebrates. The challenges are mostly related to the small body size and rapid movement of many macroinvertebrate species and to light scattering and wave signal interference in aquatic habitats.We developed a video tracking method designed to reliably assess space use behavior among individual aquatic macroinvertebrates under laboratory (microcosm) conditions. The approach involves the use of experimental apparatus integrating a near infrared backlight source, a Plexiglas multi-patch maze, multiple infrared cameras, and automated video analysis. It allows detection of the position of fast-moving (~ 3 cm/s) and translucent individuals of small size (~ 5 mm in length, ~1 mg in dry weight) on simulated resource patches distributed over an experimental microcosm (0.08 m 2 ).To illustrate the adequacy of the proposed method, we present a case study regarding the size dependency of space use behavior in the model organism Gammarus insensibilis , focusing on individual patch selection, giving-up times, and cumulative space used.In the case study, primary data were collected on individual body size and individual locomotory behavior, for example, mean speed, acceleration, and step length. Individual entrance and departure times were recorded for each simulated resource patch in the experimental maze. Individual giving-up times were found to be characterized by negative size dependency, with patch departure occurring sooner in larger individuals than smaller ones, and individual cumulative space used (treated as the overall surface area of resource patches that individuals visited) was found to scale positively with body size.This approach to studying space use behavior can deepen our understanding of species coexistence, yielding insights into mechanistic models on larger spatial scales, for example, home range, with implications for ecological and evolutionary processes, as well as for the management and conservation of populations and ecosystems. Despite being specifically developed for aquatic macroinvertebrates, this method can also be applied to other small aquatic organisms such as juvenile fish and amphibians., Competing Interests: The authors declare that they have no conflict of interest., (© 2020 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published
2021
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26. Temperature effects on metabolic scaling of a keystone freshwater crustacean depend on fish-predation regime.

Author

Glazier DS, Gring JP, Holsopple JR, and Gjoni V

Subjects
Animals, Body Size, Fresh Water, Temperature, Fishes, Predatory Behavior
Abstract

According to the metabolic theory of ecology, metabolic rate, an important indicator of the pace of life, varies with body mass and temperature as a result of internal physical constraints. However, various ecological factors may also affect metabolic rate and its scaling with body mass. Although reports of such effects on metabolic scaling usually focus on single factors, the possibility of significant interactive effects between multiple factors requires further study. In this study, we show that the effect of temperature on the ontogenetic scaling of resting metabolic rate of the freshwater amphipod Gammarus minus depends critically on habitat differences in predation regime. Increasing temperature tends to cause decreases in the metabolic scaling exponent (slope) in population samples from springs with fish predators, but increases in population samples from springs without fish. Accordingly, the temperature sensitivity of metabolic rate is not only size-specific, but also its relationship to body size shifts dramatically in response to fish predators. We hypothesize that the dampened effect of temperature on the metabolic rate of large adults in springs with fish, and of small juveniles in springs without fish are adaptive evolutionary responses to differences in the relative mortality risk of adults and juveniles in springs with versus without fish predators. Our results demonstrate a complex interaction among metabolic rate, body mass, temperature and predation regime. The intraspecific scaling of metabolic rate with body mass and temperature is not merely the result of physical constraints related to internal body design and biochemical kinetics, but rather is ecologically sensitive and evolutionarily malleable., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2020. Published by The Company of Biologists Ltd.)

Published
2020
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27. A Perspective on Body Size and Abundance Relationships across Ecological Communities.

Author

Gjoni V and Glazier DS

Abstract

Recently, several studies have reported relationships between the abundance of organisms in an ecological community and their mean body size (called cross-community scaling relationships: CCSRs) that can be described by simple power functions. A primary focus of these studies has been on the scaling exponent (slope) and whether it approximates -3/4, as predicted by Damuth's rule and the metabolic theory in ecology. However, some CCSR studies have reported scaling exponents significantly different from the theoretical value of -3/4. Why this variation occurs is still largely unknown. The purpose of our commentary is to show the value of examining both the slopes and elevations of CCSRs and how various ecological factors may affect them. As a heuristic exercise, we reanalyzed three published data sets based on phytoplankton, rodent, and macroinvertebrate assemblages that we subdivided according to three distinctly different ecological factors (i.e., climate zone, season, and trophic level). Our analyses reveal significant variation in either or both the CCSR slopes and elevations for marine phytoplankton communities across climate zones, a desert rodent community across seasons, and saltwater lagoon macroinvertebrate communities across trophic levels. We conclude that achieving a comprehensive understanding of abundance-size relationships at the community level will require consideration of both slopes and elevations of these relationships and their possible variation in different ecological contexts.

Published
2020
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28. Size dependency of patch departure behavior: evidence from granivorous rodents.

Author

Cozzoli F, Gjoni V, and Basset A

Subjects
Animals, Body Size, Ecology, Feeding Behavior, Sciuridae, Ecosystem, Predatory Behavior
Abstract

Individual size is a major determinant of mobile organisms' ecology and behavior. This study aims to explore whether allometric scaling principles can provide an underlying framework for general patterns of resource patch use. To this end, we used giving-up densities (GUDs), that is, the amount of resources remaining in a patch after a forager has quit feeding, as a comparative measure of the amount of resources exploited by a forager of any given size. We specifically tested the hypothesis that size-dependent responses to both internal (energy requirement) and external (risk management) forces may have an effect on GUDs. We addressed this topic by conducting an extensive meta-analysis of published data on granivorous rodents, including 292 GUD measurements reported in 25 papers. The data set includes data on 22 granivorous rodent species belonging to three taxonomic suborders (Castorimorpha, Myomorpha, and Sciuromorpha) and spans three habitat types (desert, grassland, and forest). The observations refer to both patches subject to predation risk and safe patches. Pooling all data, we observed positive allometric scaling of GUDs with average forager size (scaling exponent = 0.45), which explained 15% of overall variance in individual GUDs. Perceived predation risk during foraging led to an increase in GUDs independently of forager size and taxonomy and of habitat type, which explained an additional 12% of overall GUD variance. The size scaling exponent of GUDs is positive across habitat types and taxonomic suborders of rodents. Some variation was observed, however. The scaling coefficients in grassland and forest habitat types were significantly higher than in the desert habitat type. In addition, Sciuromorpha and Myomorpha exhibited a more pronounced size scaling of GUDs than Castorimorpha. This suggests that different adaptive behaviors may be used in different contexts and/or from different foragers. With body size being a fundamental ecological descriptor, research into size scaling of GUDs may help to place patch-use observations in a broader allometric framework., (© 2019 by the Ecological Society of America.)

Published
2019
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29. A process based model of cohesive sediment resuspension under bioturbators' influence.

Author

Cozzoli F, Gjoni V, Del Pasqua M, Hu Z, Ysebaert T, Herman PMJ, and Bouma TJ

Subjects
Animals, Hydrodynamics, Models, Theoretical, Water Pollutants analysis, Environmental Monitoring, Geologic Sediments analysis, Polychaeta physiology
Abstract

Macrozoobenthos may affect sediment stability and erodibility via their bioturbating activities, thereby impacting both the short- and long-term development of coastal morphology. Process-based models accounting for the effect of bioturbation are needed for the modelling of erosion dynamics. With this work, we explore whether the fundamental allometric principles of metabolic activity scaling with individual and population size may provide a framework to derive general patterns of bioturbation effect on cohesive sediment resuspension. Experimental flumes were used to test this scaling approach across different species of marine, soft-sediment bioturbators. The collected dataset encompasses a range of bioturbator functional diversity, individual densities, body sizes and overall population metabolic rates. Measurements were collected across a range of hydrodynamic stress from 0.02 to 0.25 Pa. Overall, we observed that bioturbators are able to slightly reduce the sediment resuspension at low hydrodynamic stress, whereas they noticeably enhance it at higher levels of stress. Along the whole hydrodynamic stress gradient, the quantitative effect of bioturbators on sediment resuspension can be efficiently described by the overall metabolic rate of the bioturbating benthic communities, with significant variations across the bioturbators' taxonomic and functional diversity. One of the tested species (the gallery-builder Polychaeta Hediste diversicolor) had an effect that was partially deviating from the general trend, being able to markedly reduce sediment resuspension at low hydrodynamic stress compared to other species. By combining bioturbators' influence with hydrodynamic force, we were able to produce a process-based model of biota-mediated sediment resuspension., (Copyright © 2019. Published by Elsevier B.V.)

Published
2019
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