Sebastiaan A. L. M. Kooijman
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Sebastiaan A. L. M. Kooijman's Degrees
- PhD Computer Science University of Amsterdam
- Masters Artificial Intelligence University of Amsterdam
- Bachelors Computer Science University of Amsterdam
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(Suggest an Edit or Addition)Sebastiaan A. L. M. Kooijman's Published Works
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Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Dynamic Energy and Mass Budgets in Biological Systems (2000) (1023)
- From molecules to ecosystems through dynamic energy budget models. (2000) (435)
- A safety factor for LC50 values allowing for differences in sensitivity among species (1987) (308)
- Energy budgets can explain body size relations (1986) (251)
- FUNDAMENTAL CONNECTIONS AMONG ORGANISM C:N:P STOICHIOMETRY, MACROMOLECULAR COMPOSITION, AND GROWTH (2004) (229)
- Dynamic energy budget theory restores coherence in biology (2010) (220)
- On the dynamics of chemically stressed populations: The deduction of population consequences from effects on individuals (1983) (209)
- Quantitative aspects of metabolic organization: a discussion of concepts. (2001) (206)
- Making Sense of Ecotoxicological Test Results: Towards Application of Process-based Models (2006) (203)
- Effects of protozoa on carbon mineralization in activated sludge (1996) (197)
- From empirical patterns to theory: a formal metabolic theory of life (2008) (192)
- The “covariation method” for estimating the parameters of the standard Dynamic Energy Budget model I: Philosophy and approach (2011) (180)
- The Analysis of Aquatic Toxicity Data (1996) (179)
- Modeling fish growth and reproduction in the context of the Dynamic Energy Budget theory to predict environmental impact on anchovy spawning duration (2009) (158)
- From food‐dependent statistics to metabolic parameters, a practical guide to the use of dynamic energy budget theory (2008) (149)
- Dynamic energy budgets in biological systems (1993) (140)
- A biodiversity‐inspired approach to aquatic ecosystem modeling (2007) (137)
- Analysis of toxicity tests on Daphnia survival and reproduction (1996) (137)
- Application of a dynamic energy budget model to Mytilus edulis (L.) (1993) (126)
- Balancing heat, water and nutrients under environmental change: a thermodynamic niche framework (2013) (115)
- The AmP project: Comparing species on the basis of dynamic energy budget parameters (2018) (114)
- Dynamic Energy Budgets in Biological Systems: Theory and Applications in Ecotoxicology (1993) (110)
- The Synthesizing Unit as model for the stoichiometric fusion and branching of metabolic fluxes. (1998) (108)
- Temperature tolerance and energetics: a dynamic energy budget-based comparison of North Atlantic marine species (2010) (106)
- A biology-based approach for mixture toxicity of multiple endpoints over the life cycle (2009) (104)
- Simultaneous modeling of multiple end points in life-cycle toxicity tests. (2004) (102)
- Growth and reproductive simulation of candidate shellfish species at fish cages in the Southern Mediterranean: Dynamic Energy Budget (DEB) modelling for integrated multi-trophic aquaculture (2012) (99)
- The “covariation method” for estimating the parameters of the standard Dynamic Energy Budget model II: Properties and preliminary patterns (2011) (96)
- Modelling growth and reproduction of the Pacific oyster Crassostrea gigas: advances in the oyster-DEB model through application to a coastal pond. (2009) (96)
- Stoichiometric food quality and herbivore dynamics (2001) (95)
- Metabolic acceleration in animal ontogeny: An evolutionary perspective (2014) (93)
- A Full Lifecycle Bioenergetic Model for Bluefin Tuna (2011) (87)
- Shedding Light on Fish Otolith Biomineralization Using a Bioenergetic Approach (2011) (86)
- Intra- and interspecies comparison of energy flow in North Atlantic flatfish species by means of dynamic energy budgets (2001) (81)
- Reconciling theories for metabolic scaling. (2014) (80)
- Application of a Dynamic Energy Budget Model to Lymnaea stagnalis (L.) (1989) (75)
- A generic toxicokinetic model for persistent lipophilic compounds in humans: an application to TCDD. (1996) (73)
- Modelling feeding processes in bivalves: A mechanistic approach (2011) (72)
- Pseudo-faeces production in bivalves (2006) (68)
- A Manipulative Test of Competing Theories for Metabolic Scaling (2011) (67)
- Homoclinic and heteroclinic orbits to a cycle in a tri-trophic food chain (1999) (67)
- Waste to hurry: Dynamic energy budgets explain the need of wasting to fully exploit blooming resources. (2013) (66)
- Concentrations of polycyclic hydrocarbons in airborne particles in The Netherlands and their correlation with mutagenicity. (1987) (65)
- Statistical analysis of bioassays, based on hazard modelling (1994) (65)
- Developmental energetics of zebrafish, Danio rerio. (2011) (64)
- C and N gross growth efficiencies of copepod egg production studied using a Dynamic Energy Budget model (2004) (64)
- An alternative for NOEC exists, but the standard model has to be abandoned first (1996) (63)
- Ecological Specialization of Mixotrophic Plankton in a Mixed Water Column (2005) (62)
- The impact of metabolism on stable isotope dynamics: a theoretical framework (2010) (62)
- Modelling nematode life cycles using dynamic energy budgets (2005) (60)
- Dynamic energy budgets in syntrophic symbiotic relationships between heterotrophic hosts and photoautotrophic symbionts. (2009) (60)
- A dynamic whole-plant model of integrated metabolism of nitrogen and carbon. 1. Comparative ecological implications of ammonium-nitrate interactions (2000) (60)
- Food chain dynamics in the chemostat. (1998) (59)
- Sensitivity of animals to chemical compounds links to metabolic rate (2015) (59)
- DYNAMIC ENERGY BUDGET REPRESENTATIONS OF STOICHIOMETRIC CONSTRAINTS ON POPULATION DYNAMICS (2004) (59)
- Modeling the effects of binary mixtures on survival in time (2007) (56)
- Quantitative steps in the evolution of metabolic organisation as specified by the Dynamic Energy Budget theory (2007) (56)
- Analysis of toxicity tests on fish growth (1996) (56)
- Population consequences of a physiological model for individuals (1989) (56)
- The bijection from data to parameter space with the standard DEB model quantifies the supply-demand spectrum. (2014) (55)
- Responses to stress of Caenorhabditis elegans populations with different reproductive strategies (2005) (54)
- A general model for multiple substrate biodegradation. Application to co-metabolism of structurally non-analogous compounds. (2003) (54)
- Omnivory and food web dynamics (2003) (53)
- Fitting multiple models to multiple data sets (2019) (52)
- Life history implications of allocation to growth versus reproduction in dynamic energy budgets (2003) (52)
- Some Remarks on the Statistical Analysis of Grids Especially with Respect to Ecology (1976) (52)
- Scenarios for acceleration in fish development and the role of metamorphosis (2011) (51)
- Modelling microbial adaptation to changing availability of substrates. (2004) (51)
- DEB parameters estimation for Mytilus edulis (2011) (50)
- What the hen can tell about her eggs: egg development on the basis of energy budgets (1986) (50)
- Using a biology‐based model (DEBtox) to analyze bioassays in ecotoxicology: Opportunities and recommendations (2002) (49)
- What the egg can tell about its hen: Embryonic development on the basis of dynamic energy budgets (2009) (48)
- A biology-based approach for quantitative structure-activity relationships (QSARs) in ecotoxicity (2009) (48)
- Chronic exposure to chlorpyrifos reveals two modes of action in the springtail Folsomia candida. (2007) (48)
- On the use of the logistic equation in models of food chains (1998) (48)
- Where do functional traits come from? The role of theory and models (2019) (47)
- Effects of uranium on the metabolism of zebrafish, Danio rerio. (2012) (46)
- A dynamic energy budget for the whole life‐cycle of holometabolous insects (2015) (45)
- How far details are important in ecosystem modelling: the case of multi-limiting nutrients in phytoplankton–zooplankton interactions (2010) (45)
- Body size scaling relationships in flatfish as predicted by dynamic energy budgets (deb theory): implications for recruitment. (2003) (45)
- Parametric analyses of population growth in bio-assays (1983) (44)
- Existence and Stability of Microbial Prey-Predator Systems (1994) (44)
- Modeling receptor kinetics in the analysis of survival data for organophosphorus pesticides. (2005) (44)
- Reconstructing individual food and growth histories from biogenic carbonates. (2012) (43)
- Ecotoxicological Applications of Dynamic Energy Budget Theory (2009) (43)
- Validation of a Dynamic Energy Budget (DEB) model for the blue mussel Mytilus edulis (2012) (42)
- Multiple attractors and boundary crises in a tri-trophic food chain. (2001) (42)
- Consequences of symbiosis for food web dynamics (2004) (41)
- No-effect concentrations in algal growth inhibition tests (1996) (41)
- Analysis of bioassays with time-varying concentrations. (2001) (41)
- Complex dynamic behaviour of autonomous microbial food chains (1997) (40)
- The comparative topology of energy allocation in budget models (2011) (40)
- A model to analyze effects of complex mixtures on survival. (2009) (40)
- Analyzing variations in life-history traits of Pacific salmon in the context of Dynamic Energy Budget (DEB) theory (2011) (38)
- A quantitative estimation of the energetic cost of brown ring disease in the Manila clam using Dynamic Energy Budget theory. (2009) (38)
- Reconstruction of food conditions for Northeast Atlantic bivalve species based on Dynamic Energy Budgets (2009) (38)
- Feeding, Digestion and Oxygen Consumption in Daphnia Magna a Study in Energy Budgets (1988) (38)
- Physiological performance of plaice Pleuronectes platessa (L.): A comparison of static and dynamic energy budgets (2009) (38)
- Experimental Evidence for Spatial Self-Organization and Its Emergent Effects in Mussel Bed Ecosystems (2008) (37)
- A mathematical model that accounts for the effects of caloric restriction on body weight and longevity (2004) (37)
- When do mixotrophs specialize? Adaptive dynamics theory applied to a dynamic energy budget model. (2005) (37)
- Optimal allocation between nutrient uptake and growth in a microbial trichome (1998) (36)
- Juvenile food limitation in standardized tests: a warning to ecotoxicologists (2012) (36)
- Quantitative steps in symbiogenesis and the evolution of homeostasis (2003) (36)
- Numerical bifurcation analysis of a tri-trophic food web with omnivory. (2002) (35)
- Animal energy budgets affect the kinetics of xenobiotics (1990) (35)
- Resistance of a food chain to invasion by a top predator. (1999) (34)
- Comparative energetics of the 5 fish classes on the basis of dynamic energy budgets. (2014) (34)
- Consequences of population models for the dynamics of food chains. (1998) (34)
- Latitudinal trends in habitat quality of shallow-water flatfish nurseries (2012) (34)
- Stabilization due to predator interference: comparison of different analysis approaches. (2008) (34)
- The trade-off between maturation and growth during accelerated development in frogs. (2012) (34)
- Quantifying impacts of plastic debris on marine wildlife identifies ecological breakpoints. (2020) (33)
- Understanding the dynamics of δ13C and δ15N in soft tissues of the bivalve Crassostrea gigas facing environmental fluctuations in the context of Dynamic Energy Budgets (DEB) (2011) (33)
- Resource allocation to reproduction in animals (2014) (33)
- Thermodynamics of organisms in the context of dynamic energy budget theory. (2006) (33)
- Biological carbon pump revisited: Feedback mechanisms between climate and the Redfield ratio (2006) (33)
- Dynamic energy budgets affect kinetics of xenobiotics in the marine mussel Mytilus edulis (1994) (33)
- Comparative kinetics of embryo development. (1993) (33)
- Body-size scaling relationships in bivalve species: A comparison of field data with predictions by the Dynamic Energy Budget (DEB) theory (2006) (33)
- Invading species can stabilize simple trophic systems (2000) (33)
- Stylized facts in microalgal growth: interpretation in a dynamic energy budget context (2010) (31)
- Sublethal toxic effects in a simple aquatic food chain (2008) (31)
- Metabolic acceleration in Mediterranean Perciformes (2014) (31)
- Comparison of species (2000) (30)
- Feeding and energetics of the great scallop, Pecten maximus, through a DEB model (2014) (30)
- Stoichiometry and food-chain dynamics. (2004) (30)
- Environmental effects on growth, reproduction, and life-history traits of loggerhead turtles (2017) (30)
- Light-induced mass turnover in a mono-species community of mixotrophs. (2002) (29)
- Consumption and release of dissolved organic carbon by marine bacteria in a pulsed-substrate environment : from experiments to modelling (2009) (27)
- Contribution of different generations of the brown shrimp Crangon crangon (L.) in the Dutch Wadden Sea to commercial fisheries: A dynamic energy budget approach (2009) (27)
- The Transient Behaviour of Food Chains in Chemostats (1994) (26)
- Some statistical properties of estimates of no-effect concentrations (1996) (25)
- Discrete event versus continuous approach to reproduction in structured population dynamics. (1999) (25)
- Modelling long-term ecotoxicological effects on an algal population under dynamic nutrient stress. (2009) (24)
- No-effect concentration as a basis for ecological risk assessment. (1996) (24)
- Mutagenicity of ambient aerosol collected in an urban and industrial area of The Netherlands. (1985) (24)
- The interpretation of satellite chlorophyll observations: The case of the Mozambique Channel (2009) (23)
- Body size as emergent property of metabolism (2019) (23)
- Aggregation methods in food chains with nutrient recycling (2002) (23)
- Two parameters account for the flocculated growth of microbes in biodegradation assays. (2000) (23)
- Microbial growth dynamics on the basis of individual budgets. (1991) (23)
- Inferring physiological energetics of loggerhead turtle (Caretta caretta) from existing data using a general metabolic theory (2016) (22)
- Subcellular metabolic organization in the context of dynamic energy budget and biochemical systems theories (2010) (22)
- Scaling relationships based on partition coefficients and body sizes have similarities and interactions (2007) (22)
- The relationship between elimination rates and partition coefficients. (2004) (21)
- Model-based experimental design for assessing effects of mixtures of chemicals. (2010) (21)
- Effects of Toxicants on Aquatic Populations (1989) (20)
- How light and nutrients affect life in a closed bottle. (2000) (20)
- A kinetic inhibition mechanism for maintenance. (2007) (19)
- Altricial-precocial spectra in animal kingdom (2019) (18)
- The Symbiontic Nature of Metabolic Evolution (2005) (18)
- Stochastic feeding of fish larvae and their metabolic handling of starvation (2011) (18)
- Why it pays for bacteria to delete disused DNA and to maintain megaplasmids (2004) (18)
- A mathematical model for yeast respiro‐fermentative physiology (2000) (17)
- Prediction of daphnid survival after in situ exposure to complex mixtures. (2009) (17)
- Species Abundance with Optimum Relations to Environmental Factors (1977) (17)
- Modeling Carbon Cell Quota in Light-limited Phytoplankton (1997) (17)
- Metabolic acceleration in the pond snail Lymnaea stagnalis (2014) (17)
- Continuum population dynamics with an application to Daphnia magra (1984) (17)
- Comparative physiological energetics of Mediterranean and North Atlantic loggerhead turtles (2019) (17)
- The AquaDEB project (phase I): Analysing the physiological flexibility of aquatic species and connecting physiological diversity to ecological and evolutionary processes by using Dynamic Energy Budgets (2009) (16)
- Carbon and nitrogen fluxes in decomposing leaf litter with microbial-detritivore interactions: model simulations compared to microcosm ecotoxicity tests (1997) (16)
- The embedded tumour: host physiology is important for the evaluation of tumour growth (2003) (16)
- Mass Balance Equation Versus Logistic Equation in Food Chains (1997) (15)
- 35 years of DEB research (2014) (15)
- A dynamic energy budget model for small yellow croaker Larimichthys polyactis: Parameterisation and application in its main geographic distribution waters (2020) (15)
- Biomass conversion at population level (2018) (15)
- The role of bivalves in the Balgzand: First steps on an integrated modelling approach (2017) (15)
- Social interactions can affect feeding behaviour of fish in tanks. (2009) (14)
- Effects of feeding conditions on toxicity for the purpose of extrapolation (1991) (14)
- The estimation of elimination rates of persistent compounds: a re-analysis of 2,3,7,8-tetrachlorodibenzo-p-dioxin levels in Vietnam veterans. (1998) (14)
- A new class of non-linear stochastic population models with mass conservation. (2007) (14)
- Bifurcation analysis of ecological and evolutionary processes in ecosystems (2007) (13)
- Estimation of no effect concentrations from exposure experiments when values scatter among individuals (2009) (13)
- Energy Budgets (2019) (13)
- The role of intracellular components in food chain dynamics. (2000) (12)
- Bivalves: From individual to population modelling (2014) (12)
- How growth affects the fate of cellular metabolites (2005) (12)
- A new perspective on the growth pattern of the wandering albatross (Diomedea exulans) through deb theory. (2014) (12)
- A new phase in DEB research (2019) (11)
- The energetic basis of population growth in animal kingdom (2020) (11)
- Life in the slow lane? A dynamic energy budget model for the western swamp turtle, Pseudemydura umbrina (2019) (11)
- Modeling the eco-physiology of the purple mauve stinger, Pelagia noctiluca using Dynamic Energy Budget theory (2014) (11)
- Mechanisms behind the metabolic flexibility of an invasive comb jelly (2014) (11)
- Research on the Physiological Basis of Population Dynamics in Relation to Ecotoxicology (1987) (11)
- Critical turbulance revisited: the impact of submesoscale vertical mixing on plankton patchiness. (2008) (11)
- Inference on energetics of deep-sea fish that cannot be aged: The case of the hagfish (2014) (10)
- Salmonella test: relation between mutagenicity and number of revertant colonies. (1990) (10)
- The standard dynamic energy budget model has no plausible alternatives (2020) (10)
- Effects of chronic exposure to environmentally relevant concentrations of waterborne depleted uranium on the digestive tract of zebrafish, Danio rerio. (2015) (10)
- The use of augmented loss functions for estimating dynamic energy budget parameters (2020) (9)
- Developmental energetics of zebra fi sh , Danio rerio (2011) (9)
- On the coevolution of life and its environment. (2004) (9)
- Dynamic energy budget parameterisation of Brachidontes pharaonis, a Lessepsian bivalve in the Mediterranean Sea (2014) (9)
- Comment on the ecophysiology of the Greenland shark, Somniosus microcephalus (2017) (9)
- Can DEB models infer metabolic differences between intertidal and subtidal morphotypes of the Antarctic limpet Nacella concinna (Strebel, 1908)? (2020) (8)
- Summary of concepts of Dynamic Energy Budget theory for metabolic organisation (2009) (8)
- Why big-bodied animal species cannot evolve a waste-to-hurry strategy (2019) (8)
- Microbial growth dynamics on the basis of individual budgets (2004) (8)
- The thermodynamics of organisms in the context of DEB theory. (2006) (7)
- Models in stress research (2017) (7)
- Population dynamics of rotifers in chemostats (1997) (7)
- The identification of a simple function of a Markov chain in a behavioural context: barbs do it (almost) randomly (1984) (7)
- Feeding Threshold for Predators Stabilizes Predator-Prey Systems (2009) (7)
- The AquaDEB project: Physiological flexibility of aquatic animals analysed with a generic dynamic energy budget model (phase II) (2011) (6)
- 16 Stochasticity in deterministic models (1994) (6)
- The influence of design characteristics on statistical inference in nonlinear estimation: a simulation study based on survival data and hazard modeling. (2000) (6)
- BODY TEMPERATURE AFFECTS THE SHAPE OF AVIAN GROWTH CURVES (1993) (5)
- The comparative energetics of petrels and penguins (2020) (5)
- Individual Based Population Modelling (1994) (5)
- Iteroparous reproduction strategies and population dynamics (2001) (4)
- Body size scaling relationships in bivalves: a comparison of field data with predictions by dynamic energy budgets (deb theory). (2006) (4)
- On the co-evolution of life and its environment (2004) (4)
- Inference about dispersal patterns (1979) (4)
- A model approach to biological climate forcing: the example of Emiliania huxleyi, Dutch National Research Programme on Global Air Pollution and Climate Change, Second phase; report no.: 410 200 082 (2001) (4)
- Yolky eggs prepare for metabolic acceleration (2013) (4)
- Multidimensional scaling for animal traits in the context of dynamic energy budget theory. (2021) (4)
- Dimethyl sulfide emissions from a sedimental microbial ecosystem subject to diel variations of oxic and anoxic conditions: a simple mathematical model (1998) (3)
- The comparative energetics of the cephalopods: they neither grow nor reproduce fast (2022) (3)
- Basic methods in Theoretical Biology (1985) (3)
- The comparative energetics of the ray-finned fish in an evolutionary context (2022) (3)
- The dynamic Energy Budget Model. (1998) (3)
- A dynamic energy budget model of Fenneropenaeus chinensis with applications for aquaculture and stock enhancement (2020) (3)
- Biology-based methods. (2004) (3)
- Dynamic effects of compounds on animal energetics and their population consequences. (2000) (2)
- The comparative energetics of the turtles and crocodiles (2021) (2)
- Dynamic measures for exotoxicity. (1998) (2)
- Dynamic Energy and Mass Budgets in Biological Systems: Energy acquisition and use (2000) (2)
- Dynamic versus static measures for ecotoxicity. (1998) (2)
- Dynamic Energy and Mass Budgets in Biological Systems: Energetics and models (2000) (2)
- Models for growth (1998) (2)
- Notation of Dynamic Energy Budget theory for metabolic organisation (2009) (2)
- Individuals and laboratory populations (1986) (2)
- The comparative energetics of the carnivorans and pangolins. (2022) (2)
- A comment on the growth model of Sibly and Brown (2020) (2020) (2)
- Homeostasis and the fuelling of metabolism: Comment on "Physics of metabolic organization" by Marko Jusup et al. (2017) (2)
- Life Engine - Creating Artificial Life for Scientific and Entertainment Purposes (2009) (1)
- Dynamic Energy and Mass Budgets in Biological Systems: Uptake and effects of non-essential compounds (2000) (1)
- Erratum to “Developmental energetics of zebrafish, Danio rerio” [Comp. Biochem. Physiol. Part A 159 (2011) 275-283] (2011) (1)
- Dynamics of stable isotopes ratios (D13C and D15N) in different organs of Crassostrea gigas at two contrasted ecosystems: insights from growth and food sources (2017) (1)
- Comparing loss functions and interval estimates for survival data (2020) (1)
- Dynamic energy budgets of syntrophic symbiotic relationships between heterotrophic hosts and photoautotrophic symbionts (2009) (1)
- Erratum to: Yolky eggs prepare for metabolic acceleration (2013) (1)
- Novel insight from Mnemiopsis ecophysiological data using a coherent framework (2013) (1)
- IMPROVED SEPARATION OF PLASTICS BY FLOTATION USING A COMBINED TREATMENT (1999) (1)
- Final report project DEBtum "realistic characterizations of the tumor-induction potential of chemicals" (2003) (0)
- Models for energy and nutrient budgets in organisms (1980) (0)
- Erratum to: Yolky eggs prepare for metabolic acceleration (2013) (0)
- Developmental Energetics of Zebrafish , Danio rerio March 22 , 2011 (2017) (0)
- Dynamic Energy and Mass Budgets in Biological Systems: Bibliography (2000) (0)
- A cohort projection method to follow deb-structured populations with periodic, synchronized and iteroparous reproduction (2020) (0)
- The contribution of interactions between time- and location-dependent factors to the mutagenicity of outdoor aerosols (1984) (0)
- From Static Energy Budgets (SEB) to Dynamic Energy Budgets (DEB), linking physiology and ecology, illustrated for plaice Pleuronectes platessa (L.) (2009) (0)
- Numerical bifurcation analysis of community models including the study of global bifurcations (2004) (0)
- Dynamic Energy and Mass Budgets in Biological Systems: Case studies (2000) (0)
- Dynamic Energy and Mass Budgets in Biological Systems: Living together (2000) (0)
- The effects of plastic ingestion on an endangered sea turtle (2017) (0)
- Toxic effects on survival and reproduction, a process oriented approach (1995) (0)
- Dynamic Energy and Mass Budgets in Biological Systems: Uptake and use of essential compounds (2000) (0)
- Data for: Fitting Multiple Models to Multiple Data Sets (2018) (0)
- Dynamic Energy and Mass Budgets in Biological Systems: Multivariate DEB models (2000) (0)
- Three Regions of Primitive Art (2012) (0)
- The trade‐off between maturation and growth during accelerated vertebrate development (2012) (0)
- 7 The Symbiontic Nature of Metabolic Evolution (2005) (0)
- Organic carbon pump in meso-scale ocean flows (2004) (0)
- A bioenergetic approach to model and reconstruct individual life traits from fish otoliths (2012) (0)
- Metal Pollution and the Fuctioning of Ecosystems (2001) (0)
- Yolky eggs prepare for metabolic acceleration (2012) (0)
- Final report on the project debdeg 'realistic characterizations of the biodegradation of coupounds'. Prepared for STW (2001) (0)
- Modelling isotopes dynamics in soft tissues of Crassostrea gigas in the context of DEB theory to study the trophic ecology of oysters at large spatial scale (2009) (0)
- Dynamic Energy and Mass Budgets in Biological Systems: Basic concepts (2000) (0)
- Comparative kinetics of embryo development (1993) (0)
- Comment on the ecophysiology of the Greenland shark, Somniosus microcephalus (2017) (0)
- Dynamic Energy and Mass Budgets in Biological Systems: Evaluation (2000) (0)
- The role of food web structures in the dynamic behaviour of ecosystems (2000) (0)
- Ames test modelling (1984) (0)
- Trilogy on a case study in Theoretical Biology (2015) (0)
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