Search

Your search keyword '"Van Kooten, Tobias"' showing total 35 results
Start Over Author "Van Kooten, Tobias" Language english
35 results on '"Van Kooten, Tobias"'

7. Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT)

Author

Pierucci, Andrea, Nguyen Xuan, Alessandra, Di Lorenzo, Bianca, Bradshaw, Clare, Garcia, Clement, Mangano, Cristina, Vina-Herbon, Cristina, Smith, Chris, Cuyvers, Daan, van Denderen, Daniel, Clare, David, Punzo, Elisa, Di Bona, Gabriele, Van Hoey, Gert, Rava, Giada, Tsikopoulou, Irini, Geert Hiddink, Jan, Depestele, Jochen, Desmidt, Joanna, Claes, Jolien, Tiano, Justin, Soetaert, Karline, Morris, Kate, Buhl-Mortensen, Lene, Nicoletti, Luisa, Porz, Lucas, Batts, Luke, Fenton, Mairi, Sköld, Mattias, Penna, Marina, Pulcini, Marina, Rufino, Marta Mega, Sciberras, Marija, Blomqvist, Mats, Papadopoulou, Nadia, McCann, Neve, Beauchard, Olivier, Laffargue, Pascal, Coleman, Paul, Parker, Ruth, Vaz, Sandrine, Valanko, Sebastian, Vandevelde, Sebastiaan, Bolam, Stefan, Van Kooten, Tobias, Zhang, Wenyan, Geert Hiddink, Jan, van Hoe, Gert, Sciberras, Marija, and International Council for the Exploration of the Sea (ICES)

Subjects
Benthos, WGFBIT, Benthic Impact, Human impact, Fishery management, Seabed ecoystem, Fishery Benthic Impact
Abstract

The Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT) develops methods and performs assessments to evaluate benthic impact from fisheries at regional scale, while con- sidering fisheries and seabed impact trade-offs. In this report, new fishery benthic impact assessments (ToR A) are shown out for several sub- regions in (French Mediterranean, Celtic Seas). For other regions, updates of the whole assess- ment or specific steps only were presented. To further standardise the different components of the WGFBIT approach across all (sub-)re- gional assessments, a more detail overview of those components was compiled. These compo- nents were slightly different among those regions, related to variation in data availability, envi- ronmental characteristics and implementation possibilities among the (sub-)regions. In WGFBIT, assessments are sometimes based on trawl or grab data, which are sampling differ- ent components of the seafloor ecosystem and can have consequences on the created sensitivity layer. Therefore, there is looked in more detail how the sensitivity outcome (and layers) can dif- fer due to the use of benthic data gathered with different gears (grab/core, trawl or video). The preliminary comparability analyses are performed on different levels: (1) based on co-located sampling; (2) comparing sensitivity maps of the (sub-) area, based on different gears. There were differences observed in longevity distribution at locations sampled with different gears and dif- ferences in data and models lead also to differences in the sensitivity layers. The WGFBIT seafloor assessment framework is not the only way to assess benthic impacts from physical disturbance. A discussion session was held on how the future workflow on advice that ICES WGFBIT assessment contribute to, will be organized. Marine sediments harbour significant levels of biodiversity that play a key role in ecosystem functions and services such as biogeochemical cycling, carbon storage and the regulation of cli- mate. Through the removal of fauna, changes in physico-chemical nature and resuspension of sediment, bottom trawling may result in significant changes in the ecosystem functioning of shelf seas. An assumption of the current PD model is that high community biomass implies higher ecosystem functioning. However, total community biomass does not necessarily reflect changes in species and functional trait composition which play a key role in regulating ecosystem func- tions. ToR D is working on an improved understanding of the link between species functional effect traits and proxies and processes for specific ecosystem functions to improve our ability to predict the impact of fishing disturbance on benthic ecosystem functioning more accurately. Links between species traits and biogeochemical parameters and the impact of trawling on these links are being explored using multivariate ordination analyses using different fauna and bioge- ochemical datasets collected in the North Sea, Celtic Sea, Kattegat, Baltic Sea and the eastern Mediterranean. Changes due to trawling in the trajectories of species densities over time and the concurrent changes in the bioturbation and bioirrigation potential of communities are being modelled using a combination of data-driven mechanistic model and a biogeochemical model. We report on the different data analysis methods that ToR D members have developed over the last year. ICES Published Refereed

Published
2023

11. The consequences of density‐dependent individual growth for sustainable harvesting and management of fish stocks.

Author

Croll, Jasper C., van Kooten, Tobias, and de Roos, André M.

Subjects
*FISH populations, *FISHERY management, *HARVESTING, *FISH meal, *LIFE history theory, *ANIMAL products
Abstract

Density dependence is likely to act as a regulatory mechanism in fish stocks that are recovering from overfishing. In general, density dependence in fish stocks is assumed to only occur in reproduction and early life stages and is therefore usually modelled as a stock‐recruitment relationship. Recent research shows that density dependence can also reduce individual growth in body size later in life. In this study, we show how optimal fishing effort changes with the strength of density dependence in individual growth for four stocks of North Sea flatfish species. Using size‐structured population models we show that density dependence arises due to a mechanistic link between the resource availability and life history processes at the individual level. We furthermore show that the stock response to harvesting is either driven by changes in individual reproduction when density dependence in individual growth is weak or by changes in individual growth rate when individual growth is strongly affected by density dependence. These two types or regimes are separated by a sudden shift in dynamics. It is therefore of great importance to account for density dependence in growth when managing fish stocks. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

13. Working Group on Fisheries Benthic Impact and Trade-Offs (WGFBIT; outputs from 2021 meeting)

Author

Pierucci, Andrea, Nguyen Xuan, Alessandra, Kraan, Casper, Bradshaw, Clare, Garcia, Clement, Mangano, Cristina, Smith, Chris, van Denderen, Daniel, Connor, David, Punzo, Elisa, de Borger, Emil, Beukhof, Esther, Di Bona, Gabriele, Van Hoey, Gert, Rava, Giada, Onay, Hatice, Tsikopoulou, Irini, Maina, Irida, Geert Hiddink, Jan, Gruduls, Janis, Depestele, Jochen, Egekvist, Josefine, Manuel González Irusta, José, Burgos, Julian, Tiano, Justin, van der Reyden, Karin, Soetaert, Karline, Sköld, Mattias, Penna, Marina, Pulcini, Marina, Delgado, Marina, Sciberras, Marija, Blomqvist, Mats, Canals Artigas, Miquel, Papadopoulou, Nadia, Laffargue, Pascal, Coleman, Paul, Martinez, Roi, Vaz, Sandrine, Raicevich, Sasa, Valanko, Sebastian, Vandevelde, Sebastiaan, Van Kooten, Tobias, Braeckman, Ulrike, Mobilia, Valera, Zupa, Walter, Van Hoey, Gert, Sciberras, Marija, Geert Hiddink, Jan, and International Coucil for the Exploration of the Sea (ICES)

Subjects
Trade-offs, AIS data, Fisheries Benthic Impact, Fishery, Spatial modelling, Longevity, Fishing pressure, VMS data, Fishing gear technology
Abstract

The Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT) develops methods and performs assessments to evaluate benthic impact from fisheries at regional scale, while con-sidering fisheries and seabed impact trade-offs. In this report, new fishery benthic impact assessments are carried out for several sub-regions in the Mediterranean (Greek waters, South Adriatic Sea, Sicily waters). For other regions, updates of the whole assessment or specific steps only were presented. A standard advice sheet for the regional benthic assessments, intended as input to the next generation of the ICES Ecosystem and Fisheries Overviews, was finalised and compiled for some regions as example (Greek wa-ters, Baltic Sea). A validation of the longevity relationships using new data was executed for the Kattegat area and the Southern North Sea. In relation to the methodology, some recommenda-tions were formulated concerning the update on depletion rates, the use of epifauna- or infauna-based data, guidance on which set of epibenthic species to include and the time scale for setting the average swept-area-ratio (SAR) used in model fitting and assessment. A benchmarking pro-cess comparing available benthic impact assessment approaches for MSFD descriptor 6 “Seafloor integrity” is needed, as the WGFBIT approach (relative benthic state) is not the only way to assess benthic impacts from physical disturbances. A start was made to explore how to incorporate more explicitly ecosystem functioning in to the WGFBIT seafloor assessment methodology. An improved understanding of the relationships between total community biomass and ecosystem functioning may assist in setting acceptable thresholds for ecosystem impacts from trawling. Furthermore, an improved understanding of the link between species functional effect traits and proxies and processes for specific ecosystem functions could help increase our ability to predict the impact of fishing disturbance on benthic ecosystem functioning more accurately. The ecosys-tem function we focus on is the biogeochemical cycling of organic matter. Two approaches were discussed (i) Biological traits approach focusing on the linkage between biological traits and eco-system functions and (ii) biogeochemical modelling approach using the established the OMEXDIA model. FBIT Published Non Refereed

Published
2022

18. Accounting for temporal and individual variation in the estimation of Von Bertalanffy growth curves.

Author

Croll, Jasper Cornelis and van Kooten, Tobias

Subjects
*PLAICE, *LIFE history theory, *POPULATION dynamics, *STATISTICAL models, *CURVES, *ACCOUNTING
Abstract

Growth and growth limitation are important indicators of density dependence and environmental limitation of populations. Estimating individual growth trajectories is therefore an important aspect of understanding and predicting the life history and dynamics of a population. Variation in individual growth trajectories arises due to variation in the environmental factors limiting individual growth. This environmental limitation can vary over time, between cohorts and between individuals within a cohort. For a complete and accurate understanding of individual growth in a population, it is important to include all these sources of variation. So far, statistical models only accounted for a subset of these factors or required an extensive growth history of individuals. Here, we present a novel model describing the growth curves of cohorts in a population. This model is derived from a stochastic form of the Von Bertalanffy growth equation describing individual growth. The model is specifically tailored for use on length‐at‐age data in which the growth trajectory of an individual is unknown and every individual is only measured once. The presented method can also be used if growth limitation differs strongly between age or length classes. We demonstrate the use of the model for length‐at‐age data of North Sea plaice (Pleuronectes platessa) from the last 30 years. Fitting this model to length‐at‐age data can provide new insights in the dynamics of the environmental factors limiting individual growth and provides a useful tool for ecological research and management. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

20. Size at hatching determines population dynamics and response to harvesting in cannibalistic fish

Author

van Kooten, Tobias, Andersson, Jens, Bystrom, Par, Persson, Lennart, and de Roos, Andre M.

Subjects
Perch -- Research, Population biology -- Research, Fish populations -- Research, Competitive displacement -- Research, Earth sciences
Abstract

We hypothesize that size at hatching strongly affects population dynamics of cannibalistic fish species and is a crucial determinant of how populations respond to selective removal of large individuals (harvesting). We use a mechanistic mathematical model to study the relation between hatching size and response to harvesting mortality, using Eurasian perch (Perca fluviatilis) as a model organism. We show how hatching size determines dynamics through its effect on the relative strength of cannibalistic mortality and resource competition as mechanisms of population regulation. In populations with intermediate and large hatching size, cannibalistic mortality is an important determinant of population dynamics, and harvesting destabilizes population dynamics. When hatching size is small, population stability is less sensitive to this type of harvesting. Populations hatching at small size are regulated by competition, and harvesting large individuals affects such populations less. Harvesting can also induce the growth of very large individuals, absent in unharvested populations. Our results show that harvesting in cannibalistic lake fish populations can strongly alter population dynamics in ways that can only be anticipated on the basis of mechanistic knowledge about how populations are regulated. Resume: Nous avancons l'hypothese selon laquelle la taille a l'eclosion affecte fortement la dynamique de population des especes cannibales de poissons et qu'elle est un facteur determinant essentiel de la reaction de la population au retrait selectif (par recolte) des individus de grande taille. Nous utilisons un modele mathematique mecaniste pour etudier la relation entre la taille a l'eclosion et la reaction a la mortalite due a la recolte chez la perche eurasienne (Perca fluviatilis) qui nous sert d'organisme modele. Nous montrons comment la taille a l'eclosion determine la dynamique a travers son effet sur la force relative de la mortalite due au cannibalisme et sur la competition pour les ressources qui sont les mecanismes de regulation de la population. Chez les populations qui ont une taille moyenne ou grande a l'eclosion, la mortalite due au cannibalisme est un facteur determinant important de la dynamique de population et la recolte destabilise la dynamique de population. Lorsque la taille a l'eclosion est faible, la stabilite de la population est moins sensible a ce type de recolte. Les populations qui eclosent a une petite taille sont controlees par la competition et la recolte de grands individus affecte moins de telles populations. La recolte peut aussi favoriser la croissance de tres grands individus qui sont absents des populations non exploitees. Nos resultats montrent que la recolte faite dans des populations lacustres de poissons cannibales peut fortement modifier la dynamique de population dans des directions qui ne peuvent etre prevues que d'apres des connaissances mecanistes de la regulation des populations. [Traduit par la Redaction], Introduction Cannibalism is a widespread phenomenon among lake fish species (Andersson et al. 2007) that can strongly affect growth patterns of individuals (Claessen et al. 2000; Persson et al. 2004), [...]

Published
2010

22. Strength and consistency of density dependence in marine fish productivity.

Author

Rindorf, Anna, van Deurs, Mikael, Howell, Daniel, Andonegi, Eider, Berger, Aaron, Bogstad, Bjarte, Cadigan, Noel, Elvarsson, Bjarki Þór, Hintzen, Niels, Savina Roland, Marie, Taylor, Marc, Trijoulet, Vanessa, van Kooten, Tobias, Zhang, Fan, and Collie, Jeremy

Subjects
FISH productivity, MARINE productivity, MARINE parks & reserves, MARINE fishes, FISHERY management, DENSITY, MARINE natural products, FISH meal
Abstract

The correct prediction of the shape and strength of density dependence in productivity is key to predicting future stock development and providing the best possible long‐term fisheries management advice. Here, we identify unbiased estimators of the relationship between somatic growth, recruitment and density, and apply these to 80 stocks in the Northeast Atlantic. The analyses revealed density‐dependent recruitment in 68% of the stocks. Excluding pelagic stocks exhibiting significant trends in spawning stock biomass, the probability of significant density dependence was even higher at 78%. The relationships demonstrated that at the commonly used biomass limit of 0.2 times maximum spawning stock size, only 32% of the stocks attained three quarters of their maximum recruitment. This leaves 68% of the stocks with less than three quarters of their maximum recruitment at this biomass limit. Significantly lower recruitment at high stock size than at intermediate stock size was seen in 38% of the stocks. Density dependence in late growth occurred in 54% of the stocks, whereas early growth was generally density‐independent. Pelagic stocks were less likely to exhibit density dependence in recruitment than demersal and benthic stocks. We recommend that both the degree to which productivity is related to density and the degree to which the relationship changes over time should be investigated. Both of these aspects should be considered in evaluations of whether sustainability and yield can be improved by including density dependence in forecasts of the effects of different management actions. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

23. Shrimp fishery and natural disturbance affect longevity of the benthic invertebrate community in the Noordzee-kustzone Natura2000 area

Author

Pérez Rodríguez, Alfonso and van Kooten, Tobias

Subjects
Onderz. Form. D, WIAS, Life Science
Abstract

The Noordzeekustzone is an important fishing ground for fishing vessels targeting brown shrimp (Crangon crangon). Shrimp trawling is by far the dominant fishing activity in this area. However, the effect of shrimp fishery on the benthic invertebrate community has never been clearly established. It is important to establish this effect (or lack of effect) because the Noordzeekustzone is a designated Natura 2000 area, with a policy target to improve the quality of the seafloor habitat (so-called H1110b,permanently submerged sand banks).In this paper, the longevity composition of the benthic community is studied in relation to environmental variables. First the longevity composition is estimated for seafloor habitats and the effect of depth,grainsize, tidal shear stress and trawling intensity on the longevity composition is estimated and used to derive quantitative relationships that can be used to determine the changes in the benthic community and the effect of natural and human pressures. The analysis is carried out using dredge sampling data,which effectively samples only the larger individuals (>0.5cm) in the upper 7cm of the sediment. The methodology developed in the FP7-project BENTHIS (Rijnsdorp et al, 2015) was used to assess the changes in the benthic community in the Noordzeekustzone and the importance of all those candidate factors with special attention to fishing effort. In this study we find clear evidence that intensive shrimp trawling is associated with a reduction in the longevity of the benthic invertebrate community. However, the direction and intensity of that impact is determined by the wind regime in the area, which we take as a proxy for the degree and/or frequency of natural disturbance of the seafloor. The entire Noordzeekustzone area is subject to strong natural disturbance, and it has often been suggested that trawling has no effects in such areas. Our analysis shows otherwise. Even within this highly dynamic area there is a clear gradient along the magnitude of natural disturbance, in the effect of shrimp fishing. At the lower end, we find that shrimp trawling truncates community longevity, while at the higher end shrimp trawling actually enhances longevity. The mechanism for this reversal remains to be studied. To our knowledge, this is the first study wherea clear effect of shrimp trawling on the benthic ecosystem has been found in empirical data.This study shows a statistically significant effect of an admitted economic activity on the seafloor in a Natura2000 area where protection of seafloor habitat is one of the key reasons for the protection. The admission of shrimp trawling in this area has been granted based on an appropriate assessment which concluded that there are no known significant effects of the activity on the seafloor habitat. The statistically significant results of this study indicate that there are effects and hence warrant furtherstudy to determine significance in the sense of the natura2000 framework.

Published
2019

25. Experimental validation of geosmin uptake in rainbow trout, <italic>Oncorhynchus mykiss</italic> (Waldbaum) suggests biotransformation.

Author

Schram, Edward, Schrama, Johan W., van Kooten, Tobias, Kwadijk, Christiaan J. A. F., Kampen, Harm, van de Heul, Jan W., Verreth, Johan A. J., and Murk, Albertinka J.

Subjects
BIOCONCENTRATION, WATERBORNE infection, AQUATIC microbiology, GEOSMIN, RAINBOW trout
Abstract

Abstract: The bioconcentration of waterborne geosmin in rainbow trout, Oncorhynchus mykiss (Waldbaum) was assessed. Fifty rainbow trout with a mean (SD) weight of 226.6 (29.0) g and lipid content of 6.2 (0.6) % (w/w) were exposed to geosmin in static water for 0, 2, 4, 6, 8, 12, 24, 36, 48 and 120 hr, with one tank containing five fish for each exposure period. Geosmin concentrations were measured in fish tissue and water samples collected over time. With time the geosmin concentration in the fish increased and decreased in the water. However, the total absolute amount of geosmin in the system declined over time which could be explained by induction of biotransformation. This is in accordance with the decreasing lipid normalized geosmin levels in the liver compared with the liver‐free carcass. Geosmin distribution within rainbow trout clearly is not exclusively governed by the lipid content of tissues. In vivo geosmin bioconcentration in rainbow trout is slower and the body burden reached is lower than the generally accepted theoretical model predicts. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

26. Assumptions behind size-based ecosystem models are realistic.

Author

Andersen, Ken H., Blanchard, Julia L., Fulton, Elizabeth A., Gislason, Henrik, Jacobsen, Nis Sand, and van Kooten, Tobias

Subjects
ECOLOGICAL models, DENSITY dependence (Ecology), FISHING, MATHEMATICAL models, STATISTICAL reliability, MARINE ecological models
Abstract

A recent publication about balanced harvesting (Froese et al., ICES Journal of Marine Science; 73: 1640-1650) contains several erroneous statements about size-spectrum models. We refute the statements by showing that the assumptions pertaining to size-spectrum models discussed by Froese et al. are realistic and consistent. We further show that the assumption about density-dependence being described by a stock recruitment relationship is responsible for determining whether a peak in the cohort biomass of a population occurs late or early in life. Finally, we argue that there is indeed a constructive role for a wide suite of ecosystem models to evaluate fishing strategies in an ecosystem context. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

27. Temperature induced changes in size dependent distributions of two boreal and three Lusitanian flatfish species: A comparative study.

Author

van Hal, Ralf, van Kooten, Tobias, and Rijnsdorp, Adriaan D.

Subjects
*FLATFISHES, *COMPARATIVE studies, *TEMPERATURE, *PLEURONECTES
Abstract

Changes in spatial distribution in several fish species have been related to recent increase in global temperature. In the North Sea, both a poleward shift and a shift to deeper water have been observed. Here, we study the underlying mechanism of these shifts in a comparative study of the changes in distribution of two boreal flatfish species (plaice Pleuronectes platessa and dab Limanda limanda ) and three Lusitanian flatfish species (sole Solea solea , solenette Buglossidium luteum , and scaldfish Arnoglossus laterna ) as recorded in annual bottom trawl surveys carried out in the North Sea in late summer since 1985. The distribution is analysed in relation to the bottom temperature at the time of the survey as well as to the seasonal maximum bottom temperature earlier in the year. It is shown that the boreal species plaice and dab moved to deeper water and maintained the seasonal maximum temperature that they experienced in earlier periods, while the Lusitanian species sole, solenette, and scaldfish experienced an increase in the seasonal maximum temperature that they experienced while maintaining their depth distribution. This overall response varied between length classes, reflecting a preference for higher temperature of the smaller length classes. The results lend support to the hypothesis that the fish displayed a direct response to the maximum temperature that occurred during the growth season before the time of sampling. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

28. Interspecific Resource Competition Effects on Fisheries Revenue.

Author

van de Wolfshaar, Karen E., Schellekens, Tim, Poos, Jan-Jaap, and van Kooten, Tobias

Subjects
FISHERIES, BUSINESS revenue, HABITATS, COMPETITION (Biology), FISHING
Abstract

In many fisheries multiple species are simultaneously caught while stock assessments and fishing quota are defined at species level. Yet species caught together often share habitat and resources, resulting in interspecific resource competition. The consequences of resource competition on population dynamics and revenue of simultaneously harvested species has received little attention due to the historical single stock approach in fisheries management. Here we present the results of a modelling study on the interaction between resource competition of sole (Solea solea) and slaice (Pleuronectus platessa) and simultaneous harvesting of these species, using a stage-structured population model. Three resources were included of which one is shared with a varied competition intensity. We find that plaice is the better competitor of the two species and adult plaice are more abundant than adult sole. When competition is high sole population biomass increases with increasing fishing effort prior to plaice extinction. As a result of this increase in the sole population, the revenue of the stocks combined as function of effort becomes bimodal with increasing resource competition. When considering a single stock quota for sole, its recovery with increasing effort may result in even more fishing effort that would drive the plaice population to extinction. When sole and plaice compete for resources the highest revenue is obtained at effort levels at which plaice is extinct. Ignoring resource competition promotes overfishing due to increasing stock of one species prior to extinction of the other species. Consequently, efforts to mitigate the decline in one species will not be effective if increased stock in the other species leads to increased quota. If a species is to be protected against extinction, management should not only be directed at this one species, but all species that compete with it for resource as well. [ABSTRACT FROM AUTHOR]

Published
2012
Full Text
View/download PDF

29. Coexistence of two stage-structured intraguild predators

Author

Schellekens, Tim and van Kooten, Tobias

Subjects
*COEXISTENCE of species, *PREDATORY animals, *OMNIVORES, *ANIMAL feeds, *FOOD chains, *BIOTIC communities
Abstract

Abstract: An organism can be defined as omnivorous if it feeds on more than one trophic level. Omnivory is present in many ecosystems and multiple omnivorous species can coexist in the same ecosystem. How coexisting omnivores are able to avoid competitive exclusion is very much an open question. In this paper we analyze a model of a community consisting of two omnivorous predators and a basal resource. The population of both predators is explicitly structured into juveniles and adults, of which juveniles only feed on basal resource and adults feed on a varied proportion of basal resource and juveniles of the other population. We thereby separate the omnivorous roles (competitor for basal resource and predator of competitors) over life history. We show in this study that persistence of multiple omnivorous predators is possible when predators differ in adult diets. In this case, coexistence occurs because community dynamics force one of the model species to act as a predator and the other to act as a consumer. We conclude that separation of omnivorous roles over life history not only offers an explanation on why systems with omnivory can persist, but also how multiple omnivores can coexist at the same trophic levels of those systems. [Copyright &y& Elsevier]

Published
2012
Full Text
View/download PDF

30. Invasion success depends on invader body size in a size-structured mixed predation–competition community.

Author

Schröder, Arne, Nilsson, Karin A., Persson, Lennart, van Kooten, Tobias, and Reichstein, Birte

Subjects
ANIMAL morphology, PREDATION, ECOLOGY, FISHES, VERTEBRATES
Abstract

1. The size of an individual is an important determinant of its trophic position and the type of interactions it engages in with other heterospecific and conspecific individuals. Consequently an individual’s ecological role in a community changes with its body size over ontogeny, leading to that trophic interactions between individuals are a size-dependent and ontogenetically variable mixture of competition and predation. 2. Because differently sized individuals thus experience different biotic environments, invasion success may be determined by the body size of the invaders. Invasion outcome may also depend on the productivity of the system as productivity influences the biotic environment. 3. In a laboratory experiment with two poeciliid fishes the body size of the invading individuals and the daily amount of food supplied were manipulated. 4. Large invaders established persistent populations and drove the resident population to extinction in 10 out of 12 cases, while small invaders failed in 10 out of 12 trials. Stable coexistence was virtually absent. Invasion outcome was independent of productivity. 5. Further analyses suggest that small invaders experienced a competitive recruitment bottleneck imposed on them by the resident population. In contrast, large invaders preyed on the juveniles of the resident population. This predation allowed the large invaders to establish successfully by decreasing the resident population densities and thus breaking the bottleneck. 6. The results strongly suggest that the size distribution of invaders affects their ability to invade, an implication so far neglected in life-history omnivory systems. The findings are further in agreement with predictions of life-history omnivory theory, that size-structured interactions demote coexistence along a productivity gradient. [ABSTRACT FROM AUTHOR]

Published
2009
Full Text
View/download PDF

31. Substitution of top predators: effects of pike invasion in a subarctic lake.

Author

BYSTRÖM, PÄR, KARLSSON, JAN, NILSSON, PER, VAN KOOTEN, TOBIAS, ASK, JENNY, and OLOFSSON, FRANS

Subjects
TOP predators, ARCTIC char, STICKLEBACKS, FISH communities, BIOTIC communities, PREDATORY aquatic animals, ZOOPLANKTON, CLIMATE change, FRESHWATER biology
Abstract

1. Invasions of top predators may have strong cascading effects in ecosystems affecting both prey species abundance and lower trophic levels. A recently discussed factor that may enhance species invasion is climate change and in this context, we studied the effects of an invasion of northern pike into a subarctic lake ecosystem formerly inhabited by the native top predator Arctic char and its prey fish, ninespined stickleback. 2. Our study demonstrated a strong change in fish community composition from a system with Arctic char as top predator and high densities of sticklebacks to a system with northern pike as top predator and very low densities of sticklebacks. A combination of both predation and competition from pike is the likely cause of the extinction of char. 3. The change in top predator species also cascaded down to primary consumers as both zooplankton and predator-sensitive macroinvertebrates increased in abundance. 4. Although the pike invasion coincided with increasing summer temperatures in the study area we have no conclusive evidence that the temperature increase is the causal mechanism behind the pike invasion. But still, our study provides possible effects of future pike invasions in mountain lakes related to climate change. We suggest that future pike invasions will have strong effects in lake ecosystems, both by replacing native top consumers and through cascading effects on lower trophic levels. [ABSTRACT FROM AUTHOR]

Published
2007
Full Text
View/download PDF

32. Population dynamical consequences of gregariousness in a size-structured consumer–resource interaction

Author

van Kooten, Tobias, Persson, Lennart, and de Roos, André M.

Subjects
*ANIMAL species, *POPULATION dynamics, *HABITATS, *POPULATION
Abstract

Abstract: Many animal species live in groups. Group living may increase exploitation competition within the group, and variation among groups in intra-group competition intensity could induce life-history variability among groups. Models of physiologically structured populations generally predict single generation cycles, driven by exploitation competition within and between generations. We expect that life-history variability and habitat heterogeneity induced by group living may affect such competition-driven population dynamics. In this study, we vary the gregariousness (the tendency to aggregate in groups) of a size-structured consumer population in a spatially explicit environment. The consumer has limited mobility, and moves according to a probabilistic movement process. We study the effects on the population dynamics, as mediated through the resource and the life-history of the consumer. We find that high gregariousness leads to large spatial resource variation, and highly variable individual life-history, resulting in highly stochastic population dynamics. At reduced gregariousness, life-history of consumers synchronizes, habitat heterogeneity is reduced, and single generation cycles appear. We expect this pattern to occur for any group living organism with limited mobility. Our results indicate that constraints set by population dynamical feedback may be an important aspect in understanding group living in nature. [Copyright &y& Elsevier]

Published
2007
Full Text
View/download PDF

33. Bistability and an Allee effect as emergent consequences of stage-specific predation

Author

van Kooten, Tobias, de Roos, André M., and Persson, Lennart

Subjects
*POPULATION density, *DENSITY, *PROPERTIES of matter, *EQUILIBRIUM
Abstract

Abstract: The Allee effect, a reduction of individual fitness at low population density that can lead to sudden and unannounced extinctions, has been shown to come about through a number of mechanisms, usually associated with group behavior or mate search. Recent papers show that it may arise through size-selective predation, without explicit assumptions relating individual fitness to population density. It arises from the shift that a predator induces in the population stage distribution of its prey. We study the parameter conditions that lead to such an emergent Allee effect. The emergent Allee effect occurs under fairly broad conditions. We show that stage-specific predation can also induce bistability between alternative states where both prey and predator are present. A perturbation analysis on the equilibria shows that all equilibria are highly robust to changes in predator density. Our work shows that when size-specific interactions are taken into account, bistabilities and catastrophic collapses are possible even in purely exploitative food webs, which has substantial implications for questions related to food web theory and conservation issues. [Copyright &y& Elsevier]

Published
2005
Full Text
View/download PDF

34. Simplifying a physiologically structured population model to a stage-structured biomass model

Author

De Roos, André M., Schellekens, Tim, Van Kooten, Tobias, Van De Wolfshaar, Karen, Claessen, David, and Persson, Lennart

Subjects
*POPULATION, *BIOMASS, *DIFFERENTIAL equations, *MORTALITY
Abstract

Abstract: We formulate and analyze an archetypal consumer–resource model in terms of ordinary differential equations that consistently translates individual life history processes, in particular food-dependent growth in body size and stage-specific differences between juveniles and adults in resource use and mortality, to the population level. This stage-structured model is derived as an approximation to a physiologically structured population model, which accounts for a complete size-distribution of the consumer population and which is based on assumptions about the energy budget and size-dependent life history of individual consumers. The approximation ensures that under equilibrium conditions predictions of both models are completely identical. In addition we find that under non-equilibrium conditions the stage-structured model gives rise to dynamics that closely approximate the dynamics exhibited by the size-structured model, as long as adult consumers are superior foragers than juveniles with a higher mass-specific ingestion rate. When the mass-specific intake rate of juvenile consumers is higher, the size-structured model exhibits single-generation cycles, in which a single cohort of consumers dominates population dynamics throughout its life time and the population composition varies over time between a dominance by juveniles and adults, respectively. The stage-structured model does not capture these dynamics because it incorporates a distributed time delay between the birth and maturation of an individual organism in contrast to the size-structured model, in which maturation is a discrete event in individual life history. We investigate model dynamics with both semi-chemostat and logistic resource growth. [Copyright &y& Elsevier]

Published
2008
Full Text
View/download PDF

35. Starving to grow: The ecology and evolution of growth curve plasticity

Author

Croll, J.C., de Roos, André, van Kooten, Tobias, and Theoretical and Computational Ecology (IBED, FNWI)

Abstract

All organisms grow in size throughout their life. Some species display a largely constant growth curve, while the growth curve of other species is largely plastic and therefore strongly depends on environmental factors such as the resource availability. This thesis explores how the level of growth curve plasticity affects the ecological and evolutionary dynamics of a population. On the individual level, growth curve plasticity is tightly intertwined with the energy allocation schemes of an individual and the energetic trade-offs between growth, reproduction and maintenance. This is modeled using a simple dynamic energy budget model. Fluctuations in the environment accumulate in the size of individuals if growth is largely plastic. As a consequence, the level of growth curve plasticity strongly influences the size-structure of a population. This size-structure can therefore contain valuable information about the environmental limitations experienced by a population. The first part of this thesis explores how this information can be deduced from size measurements of individuals from natural populations such as North Sea fish stocks. The second part of this thesis uses size-structured models to show that the dynamics of a population is driven by limitations in either growth or reproduction. These two regimes show differences in the population structure, the occurrence and type of population dynamic cycles, the effects of harvesting and optimal fishing strategies. Overall, this thesis shows that the level of growth curve plasticity should be considered when exploring the dynamics of structured populations on any level of biological organization.

Published
2023

Catalog

Books, media, physical & digital resources
See catalog results