Your search keyword '"Van den Brink PJ"' showing total 262 results

1. Interactive effects of multiple stressors vary with consumer interactions, stressor dynamics and magnitude

Author

Turschwell, MP, Connolly, SR, Schäfer, RB, De Laender, F, Campbell, MD, Mantyka-Pringle, C, Jackson, MC, Kattwinkel, M, Sievers, M, Ashauer, R, Côté, IM, Connolly, RM, van den Brink, PJ, and Brown, CJ

Subjects

Environmental Risk Assessment, Aquatic Ecology and Water Quality Management, WIMEK, seagrass, synergy, stressor interactions, Aquatische Ecologie en Waterkwaliteitsbeheer, Environment, consumer-resource, antagonism, Wageningen Environmental Research, Ecosystem, Ecology, Evolution, Behavior and Systematics

Abstract

Predicting the impacts of multiple stressors is important for informing ecosystem management but is impeded by a lack of a general framework for predicting whether stressors interact synergistically, additively or antagonistically. Here, we use process-based models to study how interactions generalise across three levels of biological organisation (physiological, population and consumer-resource) for a two-stressor experiment on a seagrass model system. We found that the same underlying processes could result in synergistic, additive or antagonistic interactions, with interaction type depending on initial conditions, experiment duration, stressor dynamics and consumer presence. Our results help explain why meta-analyses of multiple stressor experimental results have struggled to identify predictors of consistently non-additive interactions in the natural environment. Experiments run over extended temporal scales, with treatments across gradients of stressor magnitude, are needed to identify the processes that underpin how stressors interact and provide useful predictions to management.

Published

2022

2. Assessing the ecological impact of chemical pollution on aquatic ecosystems requires the systematic exploration and evaluation of four lines of evidence

Author

Backhaus, T, Brack, W, van den Brink, PJ, Deutschmann, B, Hollert, H, and Posthuma, L

Published

2020

3. Trends in chemical pollution and ecological status of Lake Ziway, Ethiopia: a review focussing on nutrients, metals and pesticides

Author

Merga, LB, primary, Mengistie, AA, additional, Faber, JH, additional, and Van den Brink, PJ, additional

Published

2020

4. River classification is important for reporting ecological status and for the general ecological management of river systems by partitioning natural variability. A priori river classification by abiotic variables and validation of classifications obtained

Author

Monde, C, Syampungani, S, and Van den Brink, PJ

Subjects

biological control, host-parasite-environment interactions, human factors

Abstract

A number of human disease prevalences are supported by host-parasite-environment interactions. One such disease is schistosomiasis. Schistosoma parasites are transmitted between the snail intermediate hosts and mammalian definitive hosts in an aquatic environment. This host-environment link determines the parasite transmission dynamics and is a route through which control of transmission can be achieved. Transmission control methods based on manipulating the host-environment link were reviewed, the limitations of each method were highlighted and conditions in which they may be used in small-scale control programmes in sub-Saharan Africa were suggested. Chemical control may be ideal in poor rural communities, where health education strategies have little impact and where fishing is not an important livelihood strategy, because human contact with contaminated water is necessary for parasite survival. In aquaculture and other water development project areas, biocontrol may yield positive results due to reduced predation on snail predators and competitors as a result of restricted access. Environmental modification may be ideal in man-made systems, where the planning phase includes appropriate engineering works. Control strategies must be based as much on the ecology of host snails as on social aspects of the affected community, and be implemented on a case-by-case basis.Keywords: biological control, host-parasite-environment interactions, human factors

Published

2016

5. The potential for using red claw crayfish and hybrid African catfish as biological control agents for Schistosoma host snails

Author

Monde, C, primary, Syampungani, S, additional, Rico, A, additional, and van den Brink, PJ, additional

Published

2017

6. New diagnostics for multiply stressed marine and freshwater ecosystems: Integrating models, ecoinformatics and big data

Author

Baird, DJ, Van Den Brink, PJ, Chariton, AA, Dafforn, KA, Johnston, EL, Baird, DJ, Van Den Brink, PJ, Chariton, AA, Dafforn, KA, and Johnston, EL

Published

2016

7. Fate and transport of contaminants

Author

Meent, D. van de, Hollander, A., Peijnenburg, W., Breure, A.M., Sánchez-Bayo, F., Van den Brink, PJ Mann, RM (Eds), and Sánchez-Bayo, F., Van den Brink, PJ Mann, RM (Eds)

Subjects

Environmental chemistry, Toxicity, Environmental science, Contamination, Environmental Sciences

Abstract

Release of toxic chemicals into the environment cannot always be avoided completely. As a result organisms, man included, will be exposed to chemicals via the environment. Given the release of certain chemicals into the environment, their exposure concentrations in air, water and soil would depend on the rates at which they are removed from the environment. This chapter deals with the transport and transformation processes that affect concentrations in the environment, with emphasis on the modeller's perspective. Being interested primarily in the effects that processes have on concentrations of chemicals in environmental media, we focus on a quantitative description of the rates at which losses from the environment take place, and on how these rates differ for different chemicals. We systematically formulate process rate constants for each transport or transformation process. Eventually, the rate constants combine into a mass balance model which allows us to describe and predict how releases into the environment result in exposure concentrations of organisms.

Published

2010

8. Occurrence, abundance and distribution of benthic macroinvertebrates in the Nyando River catchment, Kenya

Author

Abong'o, DA, primary, Wandiga, SO, additional, Jumba, IO, additional, Van den Brink, PJ, additional, Naziriwo, BB, additional, Madadi, VO, additional, Wafula, GA, additional, Nkedi-Kizza, P, additional, and Kylin, H, additional

Published

2015

9. Exploring the potential of host-environment relationships in the control of schistosomiasis in Africa

Author

Monde, C, primary, Syampungani, S, additional, and Van den Brink, PJ, additional

Published

2015

10. Concluding remarks

Author

Sanchez-Bayo, F, van den Brink, PJ, Mann, RM, Sanchez-Bayo, FP, Van den Brink, P, Sanchez-Bayo, F, van den Brink, PJ, Mann, RM, Sanchez-Bayo, FP, and Van den Brink, P

Abstract

The new millennium started with a legacy of unprecedented contamination of the world ecosystems left in the wake of the various activities of humankind. Chemical pollutants have become so diverse (see Chapter 1) and widespread that there is hardly any region of the world that is not currently affected by their impacts. With the exception, perhaps, of the desert wilderness areas (for which information on pollution is still lacking), every other ecosystem on earth, from the polar regions to the tropics, whether on land or in the oceans, has been shown to contain residues or traces of organic and inorganic pollutants of anthropogenic origin.

Published

2011

11. Sources and toxicity of pollutants

Author

Sanchez-Bayo, F, van den Brink, PJ, Mann, RM, Sanchez-Bayo, FP, Sanchez-Bayo, F, van den Brink, PJ, Mann, RM, and Sanchez-Bayo, FP

Abstract

Modern living standards depend largely on the production and usage of thousands of chemicals, many of which are toxic and synthetically produced. These substances are discharged into the air, soil, water bodies and the sea through a variety of ways, becoming pollutants of our environment. The investigation of their fate and impacts they have on ecosystems is called ecotoxicology, a multidisciplinary science which intends to evaluate the nature of the discharge, the transformation and distribution of toxicants in the environment, exposure, lethality and sublethal effects on organisms, population responses, and changes in community structure and ecosystem function. The sources and mode of action of some of the most common groups of toxicants are described in this chapter, leaving their fate and effects in organisms and ecosystems for the subsequent chapters.

Published

2011

12. Fate and transport of contaminants

Author

Sánchez-Bayo, F., Van den Brink, PJ Mann, RM (Eds), Meent, D. van de, Hollander, A., Peijnenburg, W., Breure, A.M., Sánchez-Bayo, F., Van den Brink, PJ Mann, RM (Eds), Meent, D. van de, Hollander, A., Peijnenburg, W., and Breure, A.M.

Abstract

Item does not contain fulltext

Published

2010

13. Review of recent literature concerning mixture toxicity of pesticides to aquatic organisms

Author

SEC, mev, Verbruggen EMJ, van den Brink PJ, SEC, mev, Verbruggen EMJ, and van den Brink PJ

Abstract

RIVM rapport:De eenvoudigste manier om effecten van mengsels van bestrijdingsmiddelen te beoordelen is om de effecten van de individuele stoffen bij elkaar op te tellen (concentratieadditie). In het algemeen laten experimenten zien dat de stoffen elkaars werking niet versterken (geen synergisme). Als er toch sprake is van versterking, is dat effect doorgaans gering. Het concept concentratieadditie is daarom geschikt om de schadelijke effecten van mengsels van bestrijdingsmiddelen te schatten. Dit blijkt uit een overzicht van recente literatuur over de toxiciteit van mengsels van bestrijdingsmiddelen dat het RIVM met het kennisinstituut Alterra heeft gemaakt. De inventarisatie is een update van een analyse uit 2000 en bevestigt het beeld van toen. Het ministerie van VROM wilde als opdrachtgever in kaart brengen welke ontwikkelingen spelen op het gebied van het beoordelen van mengsels van bestrijdingsmiddelen. De studie beschrijft daarom ook methodologische vernieuwingen die de risicoschatting van mengsels kunnen verfijnen. Zo is het mogelijk de effecten te bepalen van stoffen als ze achter elkaar worden gebruikt in plaats van tegelijkertijd. Dit concept is voor bestrijdingsmiddelen relevant aangezien deze middelen veelal achter elkaar worden gebruikt. Daarnaast zijn de zogeheten soortgevoeligheidsverdelingen nu ook geschikt gemaakt voor mengsels van stoffen. Deze verdelingen beschrijven de variatie waarin een groep van verschillende organismen gevoelig is voor effecten van stoffen. Op basis hiervan wordt bepaald welke concentraties veilig zijn voor het milieu. Voor deze methode zijn echter veel data nodig over de schadelijke effecten van stoffen op organismen, die in veel gevallen niet beschikbaar zijn. Ook blijkt uit zogeheten mesocosmstudies, waarin ecosystemen in laboratoria worden nagebootst, dat er geen synergisme is te verwachten bij het gebruik van meerdere soorten bestrijdingsmiddelen voor dezelfde biologische groepen, zoals planten of insecten. Bij het gebruik van meerde, The simplest way to assess the effects of mixtures of pesticides is to add the effects of the individual substances to each other (concentration addition). In general, experiments show that substances do not enhance each other's action (no synergism). If there is still an enhanced effect, this will usually be small. Therefore, the concept of concentration addition is useful to estimate the adverse effects of mixtures of pesticides. This was concluded on the basis of a review of recent literature concerning the toxicity of mixtures of pesticides that was carried out by RIVM, together with the research institute Alterra. This inventory is an update from an analysis from 2000 and it confirms its conclusions. As a client, the ministry of VROM wanted to map out which new developments in the field of assessing the effects of pesticide mixtures are of importance. Therefore, the study also describes the methodological improvements that can refine the risk assessment of mixtures. It is now possible to determine the effects of substances when they are used consecutively instead of simultaneously. This concept is relevant for pesticides because these substances are often used in succession. Further, the so-called species sensitivity distributions are now also applicable to mixtures of substances. These species sensitivity distributions describe the variation to which a group of different organisms is sensitive to the effects of substances. On the basis of these distributions, it is determined what concentrations are safe for the environment. For this method, however, a lot of data are required about the adverse effects of substances on organisms, which are usually not available. So-called mesocosm studies, in which ecosystems are simulated in laboratories, show that synergetic effects are not to be expected if pesticides are used for the same biological groups, such as plants or insects. If several pesticides are applied for different biological groups, indirect effects that e

Published

2010

14. Metals and metalloids in terrestrial systems: bioaccumulation, biomagnification and subsequent adverse effects

Author

Sanchez-Bayo, F, van den Brink, PJ, Mann, RM, Vijver, M, Peijnenburg, W, Sanchez-Bayo, F, van den Brink, PJ, Mann, RM, Vijver, M, and Peijnenburg, W

Abstract

Metals and metalloids are elemental substances that occur naturally in the Earths crust, and are variously incorporated into biological systems as structural components or proteins. Imbalances in the environmental concentrations of several metals present a challenge to ecosystems because the species that form part of these ecosystems are often not equipped to regulate internal concentrations of these elements, or employ detoxification mechanisms that serve to biomagnify these elements in the food chain. This review examines the trophic movement of metals and metalloids within terrestrial ecosystems and the consequences of biomagnification and toxicity on populations. Several elemental contaminants are given special emphasis, including copper, zinc, arsenic, selenium, molybdenum, cadmium, mercury and lead. All these elements are of high historical importance and continue to be deposited within the biosphere.

Published

2010

15. Integraal zorgsysteem moet een uitgangspunt kennen: verbeterproces moet centraal staan bij integratie zorgsysteem

Author

van den Brink, PJ, de Graaff, VC, Struijf, JF, and Department of Management of Technology and Innovation

Published

1996

16. Elk goed zorgsysteem voorkomt verlies: een praktische en integrale benadering

Author

van den Brink, PJ, de Graaff, VC, Struijf, JF, and Department of Management of Technology and Innovation

Published

1996

17. Pesticides in South African fresh waters

Author

Ansara-Ross, TM, primary, Wepener, V, additional, van den Brink, PJ, additional, and Ross, MJ, additional

Published

2012

18. Confirming the species-sensitivity distribution concept for endosulfan using laboratory, mesocosm, and field data.

Author

Hose, GC, Van den Brink, PJ, Hose, GC, and Van den Brink, PJ

Abstract

In Australia, water-quality trigger values for toxicants are derived using protective concentration values based on species-sensitivity distribution (SSD) curves. SSD curves are generally derived from laboratory data with an emphasis on using local or site-specific data. In this study, Australian and non-Australian laboratory-species based SSD curves were compared and the concept of species protection confirmed by comparison of laboratory-based SSD curves with local mesocosm experiments and field monitoring data. Acute LC50 data for the organochlorine pesticide endosulfan were used for these comparisons; SSD curves were fitted using the Burr type III distribution. SSD curves indicated that the sensitivities of Australian fish and arthropods were not significantly different from those of corresponding non-Australian taxa. Arthropod taxa in the mesocosm were less sensitive than taxa in laboratory tests, which suggests that laboratory-generated single-species data may be used to predict concentrations protective of semifield (mesocosm) systems. SSDs based on laboratory data were also protective of field populations.

Published

2004

19. Meten is weten, gissen is missen

Author

van den Brink, PJ, de Graaff, VC, Struijf, JF, and Department of Management of Technology and Innovation

Published

1995

20. Environmental variables, pesticide pollution and meiofaunal community structure in two contrasting temporarily open/ closed False Bay estuaries

Author

Bollmohr, S, primary, Van den Brink, PJ, additional, Wade, PW, additional, Day, JA, additional, and Schulz, R, additional

Published

2011

21. Modeling of ecosystem function in aquatic microcosms as influenced by chronic levels of a fungicide and a herbicide

Author

ECO, SC-DLO, LWD, Traas TP, van den Brink PJ, Janse JH, Aldenberg T, ECO, SC-DLO, LWD, Traas TP, van den Brink PJ, Janse JH, and Aldenberg T

Abstract

RIVM rapport:In de context van het project 'Functionele Biodiversiteit werd de beinvloeding van ecosysteem functies bestudeerd door het effect van pesticiden op zoetwater gemeenschappen bestudeerd. Voedselweb modellen werden opgesteld die het effect beschrijven van een herbicide, linuron en een fungicide, carbendazim, op macrofyten gedomineerde microcosmos. Een vergelijking van functionele en structurele biodiversiteit toonde aan dat functies die geassocieerd zijn met doelsoorten gevoeliger zijn dan soortsamenstelling in het geval van linuron, en minder gevoelig in het geval van carbendazim. In het algemeen is verlies van functie gekoppeld aan verlies van soorten. Alhoewel enig herstel naar de oorspronkelijke soortsamenstelling kan optreden, is het nodig om de relatie met herstel van functies nader te onderzoeken., In the context of the project 'Functional Biodiversity', impairment of ecosystem function by toxic chemicals was studied by modeling the effects of pesticides on freshwater communities. Food web models were built to describe the effects of the herbicide, linuron, and the fungicide, carbendazim, in indoor macrophyte-dominated microcosms. Comparison between functional and structural biodiversity showed functions associated with target species to be more sensitive than species composition in the linuron case, and less sensitive in the carbendazim case. In general, function loss was found to be associated with species loss. While some recovery of species composition occurs, the relationship to recovery of functions needs further study

Published

1998

22. Concluding remarks

Author

Sanchez-Bayo, FP, Van den Brink, P, Mann, RM, Sanchez-Bayo, F, van den Brink, PJ, and Mann, RM

Abstract

The new millennium started with a legacy of unprecedented contamination of the world ecosystems left in the wake of the various activities of humankind. Chemical pollutants have become so diverse (see Chapter 1) and widespread that there is hardly any region of the world that is not currently affected by their impacts. With the exception, perhaps, of the desert wilderness areas (for which information on pollution is still lacking), every other ecosystem on earth, from the polar regions to the tropics, whether on land or in the oceans, has been shown to contain residues or traces of organic and inorganic pollutants of anthropogenic origin.

Published

2011

23. Sources and toxicity of pollutants

Author

Sanchez-Bayo, FP, Sanchez-Bayo, F, van den Brink, PJ, and Mann, RM

Abstract

Modern living standards depend largely on the production and usage of thousands of chemicals, many of which are toxic and synthetically produced. These substances are discharged into the air, soil, water bodies and the sea through a variety of ways, becoming pollutants of our environment. The investigation of their fate and impacts they have on ecosystems is called ecotoxicology, a multidisciplinary science which intends to evaluate the nature of the discharge, the transformation and distribution of toxicants in the environment, exposure, lethality and sublethal effects on organisms, population responses, and changes in community structure and ecosystem function. The sources and mode of action of some of the most common groups of toxicants are described in this chapter, leaving their fate and effects in organisms and ecosystems for the subsequent chapters.

Published

2011

24. Metals and metalloids in terrestrial systems: bioaccumulation, biomagnification and subsequent adverse effects

Author

Mann, RM, Vijver, M, Peijnenburg, W, Sanchez-Bayo, F, van den Brink, PJ, and Mann, RM

Subjects

Cultural Studies

Abstract

Metals and metalloids are elemental substances that occur naturally in the Earths crust, and are variously incorporated into biological systems as structural components or proteins. Imbalances in the environmental concentrations of several metals present a challenge to ecosystems because the species that form part of these ecosystems are often not equipped to regulate internal concentrations of these elements, or employ detoxification mechanisms that serve to biomagnify these elements in the food chain. This review examines the trophic movement of metals and metalloids within terrestrial ecosystems and the consequences of biomagnification and toxicity on populations. Several elemental contaminants are given special emphasis, including copper, zinc, arsenic, selenium, molybdenum, cadmium, mercury and lead. All these elements are of high historical importance and continue to be deposited within the biosphere.

Published

2010

25. Assessing ecological responses of exposure to the pyrethroid insecticide lambda-cyhalothrin in sub-tropical freshwater ecosystems.

Author

Yao KS, Van de Perre D, Lei HJ, Bai H, Zhou PL, Ying GG, and Van den Brink PJ

Subjects

Animals, Environmental Monitoring, Pyrethrins toxicity, Nitriles toxicity, Insecticides toxicity, Water Pollutants, Chemical toxicity, Fresh Water, Ecosystem

Abstract

Pyrethroid insecticides are widely detected in aquatic ecosystems due to their extensive use in agriculture and horticulture, which could pose a potential risk to aquatic non-target organisms. While previous ecotoxicological studies have been conducted mainly with standard tests and local species under temperate conditions, scarce information is available on the effects of pyrethroid insecticides on communities and ecosystems under (sub-)tropical conditions. A single application of lambda-cyhalothrin at concentrations of 0, 9, 30, and 100 ng/L was evaluated in outdoor mesocosms under sub-tropical conditions. Lambda-cyhalothrin was found to dissipate rapidly in the water column, with only 11 % and 7 % of the remaining dose measured at 1 and 3 days after application, respectively. Lambda-cyhalothrin concentrations disappeared considerably faster from the water compartment compared to temperate conditions. Consistent decreases in abundance were observed for Lecane lunaris at the medium and higher treatments (NOEC = 9 ng/L) and at the highest treatment (NOEC = 30 ng/L) for Keratella tropica. On the contrary, two taxa belonging to Cladocera (i.e., Ceriodaphnia sp. and Diaphanosoma sp.) showed the most prominent increase in abundance related to the lambda-cyhalothrin treatments. At the community level, a consistent no observed effect concentrations (NOECs) of 9 ng/L could be calculated for the zooplankton community. A marginal significant overall treatment related effect was observed for the macroinvertebrate community. The results of species sensitivity distribution (SSD) analysis based on results of acute toxicity experiments conducted alongside the mesocosm experiment and obtained from the literature indicated that macroinvertebrates from temperate regions may be generally more sensitive than their counterparts in (sub-)tropical regions. Overall, these findings suggest that environmentally relevant concentrations of the pyrethroid insecticide lambda-cyhalothrin may lead to different ecological outcomes in freshwater ecosystems in the (sub-)tropics relative to temperate regions., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

26. Combined stress of an insecticide and heatwaves or elevated temperature induce community and food web effects in a Mediterranean freshwater ecosystem.

Author

Hermann M, Polazzo F, Cherta L, Crettaz-Minaglia M, García-Astillero A, Peeters ETHM, Rico A, and Van den Brink PJ

Subjects

Animals, Zooplankton drug effects, Nitro Compounds, Hot Temperature, Climate Change, Mediterranean Region, Imidazoles, Phytoplankton drug effects, Insecticides, Food Chain, Fresh Water, Ecosystem, Neonicotinoids

Abstract

Ongoing global climate change will shift nature towards Anthropocene's unprecedented conditions by increasing average temperatures and the frequency and severity of extreme events, such as heatwaves. While such climatic changes pose an increased threat for freshwater ecosystems, other stressors like pesticides may interact with warming and lead to unpredictable effects. Studies that examine the underpinned mechanisms of multiple stressor effects are scarce and often lack environmental realism. Here, we conducted a multiple stressors experiment using outdoor freshwater mesocosms with natural assemblages of macroinvertebrates, zooplankton, phytoplankton, macrophytes, and microbes. The effects of the neonicotinoid insecticide imidacloprid (1 µg/L) were investigated in combination with three temperature scenarios representing ambient, elevated temperatures (+4 °C), and heatwaves (+0 to 8 °C), the latter two having similar energy input. We found similar imidacloprid dissipation patterns for all temperature treatments with lowest average dissipation half-lives under both warming scenarios (DT 50 : 3 days) and highest under ambient temperatures (DT 50 : 4 days) throughout the experiment. Amongst all communities, only the zooplankton community was significantly affected by the combined treatments. This community demonstrated low chemical sensitivity with lagged and significant negative imidacloprid effects only for cyclopoids. Heatwaves caused early and long-lasting significant effects on the zooplankton community as compared to elevated temperatures, with Polyarthra, Daphnia longispina, Lecanidae, and cyclopoids being the most negatively affected taxa, whereas Ceriodaphnia and nauplii showed positive responses to temperature. Community recovery from imidacloprid stress was slower under heatwaves, suggesting temperature-enhanced toxicity. Finally, microbial and macrofauna litter degradation were significantly enhanced by temperature, whereas the latter was also negatively affected by imidacloprid. A structural equation model depicted cascading food web effects of both stressors with stronger relationships and significant negative stressor effects at higher than at lower trophic levels. Our study highlights the threat of a series of heatwaves compared to elevated temperatures for imidacloprid-stressed freshwaters., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2024

27. A dynamic energy budget (DEB) model to assess the sublethal effects of imidacloprid toward Gammarus pulex at different temperatures.

Author

Huang A, Van den Brink PJ, Van den Brink NW, and Baas J

Subjects

Animals, Toxicokinetics, Imidazoles toxicity, Neonicotinoids toxicity, Nitro Compounds toxicity, Amphipoda drug effects, Water Pollutants, Chemical toxicity, Insecticides toxicity, Temperature

Abstract

Environmental ambient temperature significantly impacts the metabolic activities of aquatic ectotherm organisms and influences the fate of various chemicals. Although numerous studies have shown that the acute lethal toxicity of most chemicals increases with increasing temperature, the impact of temperature on chronic effects - encompassing both lethal and sublethal endpoints - has received limited attention. Furthermore, the mechanisms linking temperature and toxicity, potentially unveiled by toxicokinetic-toxicodynamic models (TKTD), remains inadequately explored. This study investigated the effects of environmentally relevant concentrations of the insecticide imidacloprid (IMI) on the growth and survival of the freshwater amphipod Gammarus pulex at two different temperatures. Our experimental design was tailored to fit a TKTD model, specifically the Dynamic Energy Budget (DEB) model. We conducted experiments spanning three and six months, utilizing small G. pulex juveniles. We observed effects endpoints at least five times, employing both destructive and non-destructive methods, crucial for accurate model fittings. Our findings reveal that IMI at environmental concentrations (up to 0.3 μg/L) affects the growth and survival of G. pulex, albeit with limited effects, showing a 10% inhibition compared to the control group. These limited effects, observed in both lethal and sublethal aspects, suggest a different mode of action at low, environmentally-relevant concentrations in long-term exposure (3 months), in contrast to previous studies which applied higher concentrations and found that sublethal effects occurred at significantly lower levels than lethal effects in an acute test setting (4 days). Moreover, after parameterizing the DEB model for various temperatures, we identified a lower threshold for both lethal and sublethal effects at higher temperatures, indicating increased intrinsic sensitivity. Overall, this study contributes to future risk assessments considering temperature as a crucial factor and exemplifies the integration of the DEB model into experimental design for comprehensive toxicity evaluations., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Ltd.)

Published

2024

28. Temperature induced changes in species distribution increases sensitivity of aquatic invertebrate communities to chemicals.

Author

Van den Brink PJ

Subjects

Animals, Ecosystem, Water Pollutants, Chemical, Animal Distribution, Invertebrates physiology, Invertebrates drug effects, Aquatic Organisms physiology, Temperature, Climate Change

Abstract

In this commentary, I will discuss how climate warming might influence the impacts of chemicals on (aquatic) ecosystems. It provides a commentary on Sinclair et al. (2024)., (© 2024 The Authors. Global Change Biology published by John Wiley & Sons Ltd.)

Published

2024

29. Evaluating the effects of climate change and chemical, physical, and biological stressors on nearshore coral reefs: A case study in the Great Barrier Reef, Australia.

Author

Mentzel S, Nathan R, Noyes P, Brix KV, Moe SJ, Rohr JR, Verheyen J, Van den Brink PJ, and Stauber J

Subjects

Humans, Animals, Ecosystem, Climate Change, Bayes Theorem, Hydrogen-Ion Concentration, Seawater, Australia, Coral Reefs, Anthozoa

Abstract

An understanding of the combined effects of climate change (CC) and other anthropogenic stressors, such as chemical exposures, is essential for improving ecological risk assessments of vulnerable ecosystems. In the Great Barrier Reef, coral reefs are under increasingly severe duress from increasing ocean temperatures, acidification, and cyclone intensities associated with CC. In addition to these stressors, inshore reef systems, such as the Mackay-Whitsunday coastal zone, are being impacted by other anthropogenic stressors, including chemical, nutrient, and sediment exposures related to more intense rainfall events that increase the catchment runoff of contaminated waters. To illustrate an approach for incorporating CC into ecological risk assessment frameworks, we developed an adverse outcome pathway network to conceptually delineate the effects of climate variables and photosystem II herbicide (diuron) exposures on scleractinian corals. This informed the development of a Bayesian network (BN) to quantitatively compare the effects of historical (1975-2005) and future projected climate on inshore hard coral bleaching, mortality, and cover. This BN demonstrated how risk may be predicted for multiple physical and biological stressors, including temperature, ocean acidification, cyclones, sediments, macroalgae competition, and crown of thorns starfish predation, as well as chemical stressors such as nitrogen and herbicides. Climate scenarios included an ensemble of 16 downscaled models encompassing current and future conditions based on multiple emission scenarios for two 30-year periods. It was found that both climate-related and catchment-related stressors pose a risk to these inshore reef systems, with projected increases in coral bleaching and coral mortality under all future climate scenarios. This modeling exercise can support the identification of risk drivers for the prioritization of management interventions to build future resilient reefs. Integr Environ Assess Manag 2024;20:401-418. © 2023 Norwegian Institute for Water Research and The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC). This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA., (© 2023 Norwegian Institute for Water Research and The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC). This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published

2024

30. Integrating climate model projections into environmental risk assessment: A probabilistic modeling approach.

Author

Moe SJ, Brix KV, Landis WG, Stauber JL, Carriger JF, Hader JD, Kunimitsu T, Mentzel S, Nathan R, Noyes PD, Oldenkamp R, Rohr JR, van den Brink PJ, Verheyen J, and Benestad RE

Subjects

Bayes Theorem, Climate Change, Ecotoxicology, Risk Assessment, Climate Models, Ecosystem

Abstract

The Society of Environmental Toxicology and Chemistry (SETAC) convened a Pellston workshop in 2022 to examine how information on climate change could be better incorporated into the ecological risk assessment (ERA) process for chemicals as well as other environmental stressors. A major impetus for this workshop is that climate change can affect components of ecological risks in multiple direct and indirect ways, including the use patterns and environmental exposure pathways of chemical stressors such as pesticides, the toxicity of chemicals in receiving environments, and the vulnerability of species of concern related to habitat quality and use. This article explores a modeling approach for integrating climate model projections into the assessment of near- and long-term ecological risks, developed in collaboration with climate scientists. State-of-the-art global climate modeling and downscaling techniques may enable climate projections at scales appropriate for the study area. It is, however, also important to realize the limitations of individual global climate models and make use of climate model ensembles represented by statistical properties. Here, we present a probabilistic modeling approach aiming to combine projected climatic variables as well as the associated uncertainties from climate model ensembles in conjunction with ERA pathways. We draw upon three examples of ERA that utilized Bayesian networks for this purpose and that also represent methodological advancements for better prediction of future risks to ecosystems. We envision that the modeling approach developed from this international collaboration will contribute to better assessment and management of risks from chemical stressors in a changing climate. Integr Environ Assess Manag 2024;20:367-383. © 2023 The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC)., (© 2023 The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC).)

Published

2024

31. Assessing ecological responses to exposure to the antibiotic sulfamethoxazole in freshwater mesocosms.

Author

Schuijt LM, van Drimmelen CKE, Buijse LL, van Smeden J, Wu D, Boerwinkel MC, Belgers DJM, Matser AM, Roessink I, Beentjes KK, Trimbos KB, Smidt H, and Van den Brink PJ

Subjects

Animals, Anti-Bacterial Agents toxicity, Sulfamethoxazole toxicity, Sulfamethoxazole analysis, Zooplankton, Fresh Water analysis, Ecosystem, Water Pollutants, Chemical toxicity, Water Pollutants, Chemical analysis

Abstract

Antibiotics are a contaminant class of worldwide concern as they are frequently detected in aquatic ecosystems. To better understand the impacts of antibiotics on aquatic ecosystems, we conducted an outdoor mesocosm experiment in which aquatic communities were exposed to different concentrations of the antibiotic sulfamethoxazole (0, 0.15, 1.5, 15 and 150 μg/L). These concentrations include mean (0.15 μg/L) and maximum detected concentrations (15 and 150 μg/L) in aquatic ecosystems worldwide. Sulfamethoxazole was applied once a week for eight consecutive weeks to 1530 L outdoor mesocosms in the Netherlands, followed by an eight-week recovery period. We evaluated phytoplankton-, bacterial- and invertebrate responses during and after sulfamethoxazole exposure and assessed impacts on organic matter decomposition. Contrary to our expectations, consistent treatment-related effects on algal and bacterial communities could not be demonstrated. In addition, sulfamethoxazole did not significantly affect zooplankton and macroinvertebrate communities. However, some effects on specific taxa were observed, with an increase in Mesostoma flatworm abundance (NOEC of <0.15 μg/L). In addition, eDNA analyses indicated negative impacts on the insects Odonata at a sulfamethoxazole concentration of 15 μg/L. Overall, environmentally relevant sulfamethoxazole concentration did not result in direct or indirect impairment of entire aquatic communities and ecological processes in our mesocosms. However, several specific macroinvertebrate taxa demonstrated significant (in)direct effects from sulfamethoxazole. Comparison of the results with the literature showed inconsistent results between studies using comparable, environmentally relevant, concentrations. Therefore, our study highlights the importance of testing the ecological impacts of pharmaceuticals (such as sulfamethoxazole) across multiple trophic levels spanning multiple aquatic communities, to fully understand its potential ecological threats., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

32. Effects of antidepressant exposure on aquatic communities assessed by a combination of morphological identification, functional measurements, environmental DNA metabarcoding and bioassays.

Author

Schuijt LM, van Smeden J, van Drimmelen CKE, Buijse LL, Wu D, Boerwinkel MC, Belgers DJM, Matser AM, Roessink I, Heikamp-de Jong I, Beentjes KK, Trimbos KB, Smidt H, and Van den Brink PJ

Subjects

Animals, Fluoxetine toxicity, DNA Barcoding, Taxonomic, Fresh Water chemistry, Zooplankton, Phytoplankton, Antidepressive Agents pharmacology, Biological Assay, Ecosystem, Water Pollutants, Chemical analysis

Abstract

The antidepressant fluoxetine is frequently detected in aquatic ecosystems, yet the effects on aquatic communities and ecosystems are still largely unknown. Therefore the aim of this study is to assess the effects of the long-term application of fluoxetine on key components of aquatic ecosystems including macroinvertebrate-, zooplankton-, phytoplankton- and microbial communities and organic matter decomposition by using traditional and non-traditional assessment methods. For this, we exposed 18 outdoor mesocosms (water volume of 1530 L and 10 cm of sediment) to five different concentrations of fluoxetine (0.2, 2, 20 and 200 μg/L) for eight weeks, followed by an eight-week recovery period. We quantified population and community effects by morphological identification, environmental DNA metabarcoding, in vitro and in vivo bioassays and measured organic matter decomposition as a measure of ecosystem functioning. We found effects of fluoxetine on bacterial, algal, zooplankton and macroinvertebrate communities and decomposition rates, mainly for the highest (200 μg/L) treatment. Treatment-related decreases in abundances were found for damselfly larvae (NOEC of 0.2 μg/L) and Sphaeriidae bivalves (NOEC of 20 μg/L), whereas Asellus aquaticus increased in abundance (NOEC <0.2 μg/L). Fluoxetine decreased photosynthetic activity and primary production of the suspended algae community. eDNA assessment provided additional insights by revealing that the algae belonging to the class Cryptophyceae and certain cyanobacteria taxa were the most negatively responding taxa to fluoxetine. Our results, together with results of others, suggest that fluoxetine can alter community structure and ecosystem functioning and that some impacts of fluoxetine on certain taxa can already be observed at environmentally realistic concentrations., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

33. Using a Bayesian Network Model to Predict Risk of Pesticides on Aquatic Community Endpoints in a Rice Field-A Southern European Case Study.

Author

Mentzel S, Martínez-Megías C, Grung M, Rico A, Tollefsen KE, Van den Brink PJ, and Moe SJ

Subjects

Animals, Ecosystem, Bayes Theorem, Invertebrates, Risk Assessment methods, Pesticides toxicity, Pesticides analysis, Insecticides toxicity, Oryza, Herbicides, Water Pollutants, Chemical toxicity, Water Pollutants, Chemical analysis

Abstract

Bayesian network (BN) models are increasingly used as tools to support probabilistic environmental risk assessments (ERAs), because they can better account for uncertainty compared with the simpler approaches commonly used in traditional ERA. We used BNs as metamodels to link various sources of information in a probabilistic framework, to predict the risk of pesticides to aquatic communities under given scenarios. The research focused on rice fields surrounding the Albufera Natural Park (Valencia, Spain), and considered three selected pesticides: acetamiprid (an insecticide), 2-methyl-4-chlorophenoxyacetic acid (MCPA; a herbicide), and azoxystrobin (a fungicide). The developed BN linked the inputs and outputs of two pesticide models: a process-based exposure model (Rice Water Quality [RICEWQ]), and a probabilistic effects model (Predicts the Ecological Risk of Pesticides [PERPEST]) using case-based reasoning with data from microcosm and mesocosm experiments. The model characterized risk at three levels in a hierarchy: biological endpoints (e.g., molluscs, zooplankton, insects, etc.), endpoint groups (plants, invertebrates, vertebrates, and community processes), and community. The pesticide risk to a biological endpoint was characterized as the probability of an effect for a given pesticide concentration interval. The risk to an endpoint group was calculated as the joint probability of effect on any of the endpoints in the group. Likewise, community-level risk was calculated as the joint probability of any of the endpoint groups being affected. This approach enabled comparison of risk to endpoint groups across different pesticide types. For example, in a scenario for the year 2050, the predicted risk of the insecticide to the community (40% probability of effect) was dominated by the risk to invertebrates (36% risk). In contrast, herbicide-related risk to the community (63%) resulted from risk to both plants (35%) and invertebrates (38%); the latter might represent (in the present study) indirect effects of toxicity through the food chain. This novel approach combines the quantification of spatial variability of exposure with probabilistic risk prediction for different components of aquatic ecosystems. Environ Toxicol Chem 2024;43:182-196. © 2023 The Authors. Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC., (© 2023 The Authors. Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC.)

Published

2024

34. Toxicokinetic-Toxicodynamic Model to Assess Thermal Stress.

Author

Mangold-Döring A, Baas J, van den Brink PJ, Focks A, and van Nes EH

Subjects

Animals, Toxicokinetics, Ecotoxicology, Amphipoda metabolism

Abstract

Temperature is a crucial environmental factor affecting the distribution and performance of ectothermic organisms. This study introduces a new temperature damage model to interpret their thermal stress. Inspired by the ecotoxicological damage model in the General Unified Threshold model for Survival (GUTS) framework, the temperature damage model assumes that damage depends on the balance between temperature-dependent accumulation and constant repair. Mortality due to temperature stress is driven by the damage level exceeding a threshold. Model calibration showed a good agreement with the measured survival of Gammarus pulex exposed to different constant temperatures. Further, model simulations, including constant temperatures, daily temperature fluctuations, and heatwaves, demonstrated the model's ability to predict temperature effects for various environmental scenarios. With this, the present study contributes to the mechanistic understanding of temperature as a single stressor while facilitating the incorporation of temperature as an additional stressor alongside chemicals in mechanistic multistressor effect models.

Published

2023

35. Elucidating the Structure and Composition of Individual Bimetallic Nanoparticles in Supported Catalysts by Atom Probe Tomography.

Author

Zand F, Hangx SJT, Spiers CJ, van den Brink PJ, Burns J, Boebinger MG, Poplawsky JD, Monai M, and Weckhuysen BM

Abstract

Understanding and controlling the structure and composition of nanoparticles in supported metal catalysts are crucial to improve chemical processes. For this, atom probe tomography (APT) is a unique tool, as it allows for spatially resolved three-dimensional chemical imaging of materials with sub-nanometer resolution. However, thus far APT has not been applied for mesoporous oxide-supported metal catalyst materials, due to the size and number of pores resulting in sample fracture during experiments. To overcome these issues, we developed a high-pressure resin impregnation strategy and showcased the applicability to high-porous supported Pd-Ni-based catalyst materials, which are active in CO 2 hydrogenation. Within the reconstructed volume of 3 × 10 5 nm 3 , we identified over 400 Pd-Ni clusters, with compositions ranging from 0 to 16 atom % Pd and a size distribution of 2.6 ± 1.6 nm. These results illustrate that APT is capable of quantitatively assessing the size, composition, and metal distribution for a large number of nanoparticles at the sub-nm scale in industrial catalysts. Furthermore, we showcase that metal segregation occurred predominately between nanoparticles, shedding light on the mechanism of metal segregation. We envision that the presented methodology expands the capabilities of APT to investigate porous functional nanomaterials, including but not limited to solid catalysts.

Published

2023

36. Heatwaves, elevated temperatures, and a pesticide cause interactive effects on multi-trophic levels of a freshwater ecosystem.

Author

Hermann M, Peeters ETHM, and Van den Brink PJ

Subjects

Animals, Ecosystem, Temperature, Fresh Water chemistry, Zooplankton physiology, Water, Pesticides toxicity, Cladocera, Copepoda

Abstract

Climate impacts of elevated temperatures and more severe and frequent weather extremes like heatwaves are globally becoming discernible on nature. While a mechanistic understanding is pivotal for ecosystem management, stressors like pesticides may interact with warming, leading to unpredictable effects on freshwater ecosystems. These multiple stressor studies are scarce and experimental designs often lack environmental realism. To investigate the multiple stressor effects, we conducted a microcosm experiment for 48 days comprising benthic macroinvertebrates, zooplankton, phytoplankton, macrophytes, and microbes. The fungicide carbendazim (100 μg/L) was investigated combined with temperature scenarios representing elevated temperatures (+4 °C) or heatwaves (+0 to +8 °C), both applied with similar energy input on a daily fluctuating ambient temperature (18 °C ± 1.5 °C), which served as control. Measurements showed the highest carbendazim dissipation in water under heatwaves followed by elevated and ambient temperatures. Average carbendazim concentrations were about 50% in water and 16% in sediment of the nominal concentration. In both heated cosms, zooplankton community dynamics revealed an unexpected shift from Rotifera to Cladocera and Copepoda nauplii, indicating variations in their thermal sensitivity, tolerance and resilience. Notably, warming and heatwaves shaped community responses similarly, suggesting heat intensity rather than distribution patterns determined the community structure. Heatwaves led to significant early and longer-lasting adverse effects that were exacerbated over time with Cladocera and Copepoda being most sensitive likely due to significant carbendazim interactions. Finally, a structural equation model demonstrated significant relationships between zooplankton and macrophytes and significantly negative carbendazim effects on zooplankton, whereas positive on macroinvertebrate abundances. The relationship between macroinvertebrate feeding and abundance was masked by significantly temperature-affected microbial leaf litter decomposition. Despite the thermal tolerance of zooplankton communities, our study highlights an increased pesticide threat under temperature extremes. More intense heatwaves are thus likely to cause significant alterations in community assemblages which will adversely affect ecosystem's processes and functions., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

37. Relationships of temperature and biodiversity with stability of natural aquatic food webs.

Author

Zhao Q, Van den Brink PJ, Xu C, Wang S, Clark AT, Karakoç C, Sugihara G, Widdicombe CE, Atkinson A, Matsuzaki SS, Shinohara R, He S, Wang YXG, and De Laender F

Subjects

Temperature, Biodiversity, Nutritional Status, Food Chain, Ecosystem

Abstract

Temperature and biodiversity changes occur in concert, but their joint effects on ecological stability of natural food webs are unknown. Here, we assess these relationships in 19 planktonic food webs. We estimate stability as structural stability (using the volume contraction rate) and temporal stability (using the temporal variation of species abundances). Warmer temperatures were associated with lower structural and temporal stability, while biodiversity had no consistent effects on either stability property. While species richness was associated with lower structural stability and higher temporal stability, Simpson diversity was associated with higher temporal stability. The responses of structural stability were linked to disproportionate contributions from two trophic groups (predators and consumers), while the responses of temporal stability were linked both to synchrony of all species within the food web and distinctive contributions from three trophic groups (predators, consumers, and producers). Our results suggest that, in natural ecosystems, warmer temperatures can erode ecosystem stability, while biodiversity changes may not have consistent effects., (© 2023. The Author(s).)

Published

2023

38. Effects of the antidepressant fluoxetine on the swimming behaviour of the amphipod Gammarus pulex: Comparison of short-term and long-term toxicity in the laboratory and the semi-field.

Author

Schuijt LM, Olusoiji O, Dubey A, Rodríguez-Sánchez P, Osman R, Van den Brink PJ, and van den Berg SJP

Subjects

Animals, Fluoxetine toxicity, Swimming, Behavior, Animal, Antidepressive Agents toxicity, Amphipoda physiology, Water Pollutants, Chemical toxicity

Abstract

Fluoxetine is one of the worlds most prescribed antidepressant, and frequently detected in surface waters. Once present in the aquatic environment, fluoxetine has been shown to disrupt the swimming behaviour of fish and invertebrates. However, swimming behaviour is also known to be highly variable according to experimental conditions, potentially concealing relevant effects. Therefore, the aims of this study were two-fold: i) investigate the swimming and feeding behaviour of Gammarus pulex after exposure to the antidepressant fluoxetine (0.2, 2, 20, and 200 μg/L), and ii) assess to what degree the experimental test duration (short-term and long-term) and test location (laboratory and semi-field conditions) affect gammarid's swimming behaviour. We used automated video tracking and analysis to asses a range of swimming behaviours of G. pulex, including swimming speed, startle responses after light transition, acceleration, curvature and thigmotaxis. We found larger effects on the swimming behaviour of G. pulex due to experimental conditions than due to tested antidepressant concentrations. Gammarids swam faster, more straight and showed a stronger startle response during light transition when kept under semi-field conditions compared to the laboratory. Effects found for different test durations were opposite in the laboratory and semi-field. In the laboratory gammarids swam slower and spent more time at the inner zone of the arena after 2 days compared to 21 days while for the semi-field the reverse was observed. Fluoxetine had only minor impacts on the swimming behaviour of G. pulex, but experimental conditions influenced behavioural outcomes in response to fluoxetine exposure. Overall, our results highlight the importance of standardizing and optimizing experimental protocols that assess behaviour to achieve reproducible results in ecotoxicology., Competing Interests: Declaration of competing interest There is no conflict of interest to declare., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

39. The use of a simple model for the regulatory environmental risk assessment of pesticides in Ethiopia.

Author

Teklu BM, Yakan SD, and Van den Brink PJ

Subjects

Humans, Animals, Bees, Ecosystem, Ethiopia, Risk Assessment, Environmental Monitoring methods, Pesticides toxicity, Pesticides analysis, Drinking Water, Water Pollutants, Chemical toxicity, Water Pollutants, Chemical analysis

Abstract

Pesticide registration in developing countries like Ethiopia is often not supported by substantiated risk assessment procedures. In this study, we evaluated the PRIMET (Pesticide Risks in the Tropics for Man, Environment and Trade) Registration&#95;Ethiopia&#95;1.1 model which is a tool developed to assess the risks to non-target protection goals. All the 103 registered active ingredients (a.i.) in Ethiopia, except those used for flower and storage pest control purposes, were evaluated on their environmental risks. Data on physico-chemical characteristics, toxicity and pesticide use patterns were mined from either the information given in the dossier or public databases. Together with scenarios specifically developed for Ethiopia, these data were used to perform a risk assessment for the aquatic and terrestrial environment as well as for vertebrates including humans via contaminated drinking water exposure. Results indicated that 11 and 16% of the a.i.s are indicated to pose high acute risk and 7.3 and 11% high chronic risks for fish and aquatic invertebrates, respectively. Similarly, 5.5 and 8.7% high acute risks and 6.8 and 3.9% high chronic risks were observed for the soil ecosystem and birds, respectively. 23% of the evaluated active ingredients were indicated to be highly risky to bees when beehives are present inside the sprayed crop while 7.8% of them are highly risky when beehives are present outside the field of the sprayed crop. The fungicide metalaxyl, the herbicides acetochlor, alachlor, mecoprop and tembotrion, and the insecticides carbaryl, chlorpyrifos, diazinon and methidathion were predicted to pose high acute or chronic risks to humans or other vertebrates if surface water is used as a source of drinking water. Future studies should give emphasis on how the risk assessment results of this study can be implemented to aid the registration process., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

40. The effect of temperature on toxicokinetics and the chronic toxicity of insecticides towards Gammarus pulex.

Author

Huang A, Mangold-Döring A, Guan H, Boerwinkel MC, Belgers D, Focks A, and Van den Brink PJ

Subjects

Animals, Toxicokinetics, Temperature, Neonicotinoids toxicity, Nitro Compounds toxicity, Insecticides pharmacology, Amphipoda physiology, Water Pollutants, Chemical metabolism

Abstract

A comprehensive understanding of chemical toxicity and temperature interaction is essential to improve ecological risk assessment under climate change. However, there is only limited knowledge about the effect of temperature on the toxicity of chemicals. To fill this knowledge gap and to improve our mechanistic understanding of the influence of temperature, the current study explored toxicokinetics and the chronic toxicity effects of two insecticides, imidacloprid (IMI) and flupyradifurone (FPF), on Gammarus pulex at different temperatures (7-24 °C). In the toxicokinetics tests, organisms were exposed to IMI or FPF for 2 days and then transferred to clean water for 3 days of elimination at 7, 18, or 24 °C. In the chronic tests, organisms were exposed to the individual insecticides for 28 days at 7, 11, or 15 °C. Our research found that temperature impacted the toxicokinetics and the chronic toxicity of both IMI and FPF, while the extent of such impact differed for each insecticide. For IMI, the uptake rate and biotransformation rate increased with temperature, and mortality and food consumption inhibition was enhanced by temperature. While for FPF, the elimination rate increased with temperature at a higher rate than the increasing uptake rate, resulting in a smaller pronounced effect of temperature on mortality compared to IMI. In addition, the adverse effects of the insecticides on sublethal endpoints (food consumption and dry weight) were exacerbated by elevated temperatures. Our results highlight the importance of including temperature in the ecological risk assessment of insecticides in light of global climate change., Competing Interests: Declaration of competing interest The authors declare no competing interests., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

41. Explicit Consideration of Temperature Improves Predictions of Toxicokinetic-Toxicodynamic Models for Flupyradifurone and Imidacloprid in Gammarus pulex .

Author

Mangold-Döring A, Huang A, van Nes EH, Focks A, and van den Brink PJ

Subjects

Animals, Toxicokinetics, Temperature, Models, Biological, Amphipoda

Abstract

In the face of global climate change, where temperature fluctuations and the frequency of extreme weather events are increasing, it is needed to evaluate the impact of temperature on the ecological risk assessment of chemicals. Current state-of-the-art mechanistic effect models, such as toxicokinetic-toxicodynamic (TK-TD) models, often do not explicitly consider temperature as a modulating factor. This study implemented the effect of temperature in a widely used modeling framework, the General Unified Threshold model for Survival (GUTS). We tested the model using data from toxicokinetic and toxicity experiments with Gammarus pulex exposed to the insecticides imidacloprid and flupyradifurone. The experiments revealed increased TK rates with increasing temperature and increased toxicity under chronic exposures. Using the widely used Arrhenius equation, we could include the temperature influence into the modeling. By further testing of different model approaches, differences in the temperature scaling of TK and TD model parameters could be identified, urging further investigations of the underlying mechanisms. Finally, our results show that predictions of TK-TD models improve if we include the toxicity modulating effect of temperature explicitly.

Published

2022

42. Comparing the acute and chronic toxicity of flupyradifurone and imidacloprid to non-target aquatic arthropod species.

Author

Huang A, Mangold-Döring A, Focks A, Zhang C, and Van den Brink PJ

Subjects

4-Butyrolactone analogs & derivatives, Animals, Bees, Neonicotinoids toxicity, Nitro Compounds toxicity, Pyridines, Arthropods, Insecticides toxicity, Water Pollutants, Chemical toxicity

Abstract

Flupyradifurone (FPF) is a new type of butenolide insecticide. It was launched on the market in 2015 and is considered an alternative to the widely used neonicotinoids, like imidacloprid (IMI), some of which are banned from outdoor use in the European Union. FPF is claimed to be safe for bees, but its safety for aquatic organisms is unknown. Its high water solubility, persistence in the environment, and potential large-scale use make it urgent to evaluate possible impacts on aquatic systems. The current study assessed the acute and chronic toxicity of FPF for aquatic arthropod species and compared these results with those of imidacloprid. Besides, toxicokinetics and toxicokinetic-toxicodynamic models were used to understand the mechanisms of the toxicity of FPF. The present study results showed that organisms take up FPF slower than IMI and eliminate it faster. In addition, the hazardous concentration 5th percentiles (HC 05 ) value of FPF derived from a species sensitivity distribution (SSD) based on acute toxicity was found to be 0.052 µmol/L (corresponding to 15 µg/L), which was 37 times higher than IMI (0.0014 µmol/L, corresponding to 0.36 µg/L). The chronic 28 days EC 10 of FPF for Cloeon dipterum and Gammarus pulex were 7.5 µg/L and 2.9 µg/L, respectively. For G. pulex, after 28 days of exposure, the no observed effect concentration (NOEC) of FPF for food consumption was 0.3 µg/L. A toxicokinetic-toxicodynamic (TKTD) model parameterised on the acute toxicity data well predicted the observed chronic effects of FPF on G. pulex, indicating that toxicity mechanisms of FPF did not change with prolonged exposure time, which is not the case for IMI., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

43. Size- and sex-related sensitivity differences of aquatic crustaceans to imidacloprid.

Author

Huang A, Roessink I, van den Brink NW, and van den Brink PJ

Subjects

Alkenes, Animals, Female, Male, Neonicotinoids toxicity, Nitro Compounds toxicity, Environmental Pollutants, Water Pollutants, Chemical toxicity

Abstract

Field collected aquatic invertebrates are often used as test organisms in the refinement of the standard Tier 1 risk assessment of various pollutants. This approach can provide insights into the effects of pollutants on the natural environment. However, researchers often pragmatically select test organisms of a specific sex and/or size, which may not represent the sensitivity of the whole population. To investigate such intraspecies sensitivity differences, we performed standard acute toxicity and toxicokinetic tests with different size classes and sex of Gammarus pulex and Asellus aquaticus. Furthermore, toxicokinetics and toxicodynamics models were used to understand the mechanism of the intraspecies sensitivity differences. We used neonates, juveniles and male and female adults in separate dedicated experiments, in which we exposed the animals to imidacloprid and its bioactive metabolite, imidacloprid-olefin. For both species, we found that neonates were the most sensitive group. For G. pulex, the sensitivity decreased linearly with size, which can be explained by the size-related uptake rate constant in the toxicokinetic process and size-related threshold value in the toxicodynamic process. For A. aquaticus, female adults were least sensitive to imidacloprid, which could be explained by a low internal biotransformation of imidacloprid to imidacloprid-olefin. Besides, imidacloprid-olefin was more toxic than imidacloprid to A. aquaticus, with differences being 8.4 times for females and 2.7 times for males. In conclusion, we established size-related sensitivity differences for G. pulex and sex-related sensitivity for A. aquaticus, and intraspecies differences can be explained by both toxicokinetic and toxicodynamic processes. Our findings suggest that to protect populations in the field, we should consider the size and sex of focal organisms and that a pragmatic selection of test organisms of equal size and/or sex can underestimate the sensitivities of populations in the field., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

44. Acute toxicity, bioaccumulation and elimination of prometryn in tilapia (Oreochromis niloticus).

Author

Yang Y, Li S, Wang Z, Ren Y, Mu Y, Zhang X, Van den Brink PJ, Sun H, Song Y, and Cheng B

Subjects

Animals, Bioaccumulation, Prometryne, Water, Cichlids, Tilapia, Water Pollutants, Chemical toxicity

Abstract

Tilapia juvenile (Oreochromis niloticus) (mean weight 50.00 ± 10.00 g) were aqueous exposed to different concentrations of the herbicide prometryn to investigate its acute toxicity, bioaccumulation and uptake and elimination rates. First, a 96-h acute toxicity test was carried out. The resulting 96 h LC 50 was 5.49 mg/L, and the 96 h LC 10 was 5.02 mg/L. Then, fish were exposed to 0.55 mg/L (1/10 96 h LC 50 ) and 0.055 mg/L (1/100 96 h LC 50 ) of prometryn solution for 28 days, followed by 14 days of elimination in clean groundwater. The result shows that in both water and tissues, prometryn concentrations fluctuated during the exposure period, indicating that steady state was not reached. The bioaccumulation of prometryn was the highest in liver, followed by gill, muscle and blood. The accumulated concentration levels in various tissues were always higher in the high concentration compared to the low concentration. The highest accumulated concentration of prometryn in various tissues in the 0.055 mg/L treatment were for muscle: 0.136 ± 0.0616 mg/kg (1 d), liver: 3.74 ± 2.95 mg/kg (7 d), gill: 0.971 ± 1.45 mg/kg (1 d) and blood: 0.0716 ± 0.0669 mg/kg (22 d). In the 0.55 mg/L treatment, the highest levels were for muscle: 1.27 ± 0.284 mg/kg (1 d), liver: 16.9 ± 12.7 mg/kg (7 d), gill: 8.11 ± 3.02 mg/kg (1 d) and blood: 0.751 ± 0.0775 mg/kg (22 d). The highest bioconcentration factor (BCF) of 93.1 was observed in the liver when exposed to the low concentration. Besides, for other tissues, the highest BCF were for muscle: 5.76, gill: 32.3 and blood: 2.91, all observed in the 0.55 mg/L treatment. Most of the accumulated prometryn was removed from all tissues within 24 h after the organisms were transferred to clean water. However, management of using prometryn in China aquaculture should be improved to prevent possible ecotoxicological effects and ensure food safety., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

45. A transportable temperature and heatwave control device (TENTACLE) for laboratory and field simulations of different climate change scenarios in aquatic micro- and mesocosms.

Author

Hermann M, Jansen R, van de Glind J, Peeters ETHM, and Van den Brink PJ

Abstract

Future global climate change with higher mean temperatures and increased intensity and frequency of heatwaves as extreme weather events will affect aquatic ecosystems with, yet, unpredictable severity and consequences. Although models suggest increased risk of species extinction up to the year 2050 for series of different climate change scenarios, environmental complexity may result in unconsidered effects of future temperature alterations on ecosystems. Apart from these environmental changes, additional anthropogenic stressors, e.g. chemical release, may cause unprecedented interaction effects on ecosystems. Ongoing efforts to better understand such temperature-chemical interaction effects comprise almost exclusively experimental designs using constant temperature regimes instead of environmentally realistic daily temperature variations. In this paper we describe an Arduino-based temperature and heatwave control device (TENTACLE) that is transportable, inexpensive, multifunctional, and easily reproducible. TENTACLE offers water temperature monitoring and manipulation of up to 3 different climate change-related scenarios: i) natural (ambient) sinusoidal fluctuations (laboratory applications), ii) elevated fluctuations, and iii) heatwaves as extreme events. The use of replaceable heating elements and low-cost materials suitable for field studies creates a high flexibility for researchers who may conduct in- or out-door, small- or large-scale, fresh- or salt-water experiments at different geographical locations., Competing Interests: The authors declare to have no known competing financial interests or personal relationships that could have appeared to influence the work communicated in this paper., (© 2022 The Author(s).)

Published

2022

46. Combined effects of heatwaves and micropollutants on freshwater ecosystems: Towards an integrated assessment of extreme events in multiple stressors research.

Author

Polazzo F, Roth SK, Hermann M, Mangold-Döring A, Rico A, Sobek A, Van den Brink PJ, and Jackson MC

Subjects

Humans, Ecosystem, Fresh Water

Abstract

Freshwater ecosystems are strongly influenced by weather extremes such as heatwaves (HWs), which are predicted to increase in frequency and magnitude in the future. In addition to these climate extremes, the freshwater realm is impacted by the exposure to various classes of chemicals emitted by anthropogenic activities. Currently, there is limited knowledge on how the combined exposure to HWs and chemicals affects the structure and functioning of freshwater ecosystems. Here, we review the available literature describing the single and combined effects of HWs and chemicals on different levels of biological organization, to obtain a holistic view of their potential interactive effects. We only found a few studies (13 out of the 61 studies included in this review) that investigated the biological effects of HWs in combination with chemical pollution. The reported interactive effects of HWs and chemicals varied largely not only within the different trophic levels but also depending on the studied endpoints for populations or individuals. Hence, owing also to the little number of studies available, no consistent interactive effects could be highlighted at any level of biological organization. Moreover, we found an imbalance towards single species and population experiments, with only five studies using a multitrophic approach. This results in a knowledge gap for relevant community and ecosystem level endpoints, which prevents the exploration of important indirect effects that can compromise food web stability. Moreover, this knowledge gap impairs the validity of chemical risk assessments and our ability to protect ecosystems. Finally, we highlight the urgency of integrating extreme events into multiple stressors studies and provide specific recommendations to guide further experimental research in this regard., (© 2021 The Authors. Global Change Biology published by John Wiley & Sons Ltd.)

Published

2022

47. The effects of the chemotherapy drug cyclophosphamide on the structure and functioning of freshwater communities under sub-tropical conditions: A mesocosm study.

Author

Van de Perre D, Li D, Yao KS, Lei HJ, Van den Brink PJ, and Ying GG

Subjects

Animals, Cyclophosphamide toxicity, Ecosystem, Fresh Water, Phytoplankton, Zooplankton, Pharmaceutical Preparations, Water Pollutants, Chemical analysis, Water Pollutants, Chemical toxicity

Abstract

Cyclophosphamide (CP) is a chemotherapy drug which is widely used in the treatment of neoplastic diseases and have often been detected in urban and hospital wastewater, and surface waters. However, at present the effects of CP on aquatic organisms and ecosystems are poorly understood. The main objective of the present study was to assess the effect of CP on the structure and functioning of a sub-tropical freshwater ecosystem (macroinvertebrates, zooplankton and phytoplankton) at environmental relevant concentrations. CP (0, 0.5, 5 and 50 μg/L) was applied weekly to 13,600 L mesocosms over a period of four weeks followed by a one month post exposure period. CP was found to dissipate much faster than previous reported in literature and the half-dissipation times were treatment dependent, being 2.2, 21.3 and 23.6 days in the lowest, middle and highest treatments respectively. Only treatment related effects were observed on the community structure at individual samplings with zooplankton (NOEC community  = 0.5 μg/L) responding at lower concentrations than phytoplankton (NOEC community  = 5 μg/L) and macroinvertebrates (NOEC community  ≥ 50 μg/L). The dissolved organic carbon concentration was consistently higher in the 2 highest treatments, indicating a potential effect on food web interactions and/or the microbial loop. At the population level, consistent adverse effects were observed for the plankton taxa Pleuroxus laevis, Dissotrocha sp. and Oscillatoria sp. at all CP concentrations (NOEC <0.5 μg/L). Additionally, at the highest CP treatments 7% of all the taxa showed a clear short-term adverse effect. Based on comparison with literature data it can be concluded that these taxa have the highest CP sensitivity ever recorded and these findings indicate a potential CP risk to aquatic ecosystems at environmental relevant concentrations., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

48. The use of ecological models to assess the effects of a plant protection product on ecosystem services provided by an orchard.

Author

Van den Brink PJ, Alix A, Thorbek P, Baveco H, Agatz A, Faber JH, Brown AR, Marshall S, and Maltby L

Subjects

Animals, Bees, Environmental Monitoring, Models, Theoretical, Pollination, Risk Assessment, Conservation of Natural Resources, Ecosystem

Abstract

The objective of this case study was to explore the feasibility of using ecological models for applying an ecosystem services-based approach to environmental risk assessment using currently available data and methodologies. For this we used a 5 step approach: 1) selection of environmental scenario, 2) ecosystem service selection, 3) development of logic chains, 4) selection and application of ecological models and 5) detailed ecosystem service assessment. The study system is a European apple orchard managed according to integrated pest management principles. An organophosphate insecticide was used as the case study chemical. Four ecosystem services are included in this case study: soil quality regulation, pest control, pollination and recreation. Logic chains were developed for each ecosystem service and describe the link between toxicant effects on service providing units and ecosystem services delivery. For the soil quality regulation ecosystem service, springtails and earthworms were the service providing units, for the pest control ecosystem service it was ladybirds, for the pollination ecosystem service it was honeybees and for the recreation ecosystem service it was the meadow brown butterfly. All the ecological models addressed the spatio-temporal magnitude of the direct effects of the insecticide on the service providing units and ecological production functions were used to extrapolate these outcomes to the delivery of ecosystem services. For all ecosystem services a decision on the acceptability of the modelled and extrapolated effects on the service providing units could be made using the protection goals as set by the European Food Safety Authority (EFSA). Developing quantitative ecological production functions for extrapolation of ecosystem services delivery from population endpoints remains one of the major challenges. We feel that the use of ecological models can greatly add to this development, although the further development of existing ecological models, and of new models, is needed for this., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2021

49. Linking Macroinvertebrates and Physicochemical Parameters for Water Quality Assessment in the Lower Basin of the Volta River in Ghana.

Author

Onwona Kwakye M, Peng FJ, Hogarh JN, and Van den Brink PJ

Subjects

Animals, Environmental Monitoring, Ghana, Invertebrates, Rivers, Water Quality

Abstract

The health of the lower basin of the Volta River in Ghana was evaluated in January-February and May-June 2016 using physicochemical parameters and benthic macroinvertebrates sampled at 10 locations. Selected environmental variables were compared to accepted environmental water quality standard values where applicable. Principal component analysis (PCA) and redundancy analysis (RDA) were used to analyse the association between the benthic macroinvertebrates distribution and physicochemical variables. Pesticide concentrations were generally below the limit of detection 0.01 and 0.005 µg/L for organophosphate/synthetic pyrethroid and organochlorines respectively. Nutrient levels were also generally low; however, significant differences existed between the values of physicochemical parameters at the different sampling sites and seasons (Monte Carlo permutation test; p = 0.002), as well as between the abundance of macroinvertebrates at the different sites and seasons (p = 0.002). The environmental variables dissolved oxygen (DO), phosphate, pH, substratum (p < 0.05), turbidity, conductivity, total dissolved solids, total solids and nitrate (0.05 < p < 0.10) significantly explained the variation in macroinvertebrate composition between sampling stations in the Volta River. Polypedilum fuscipenne, was positively correlated with turbidity and DO concentrations; Physa sp., Centroptilum sp., Centroptiloides sp., Phaon iridipennis and juvenile fish were positively correlated with nitrate concentration and pH and negatively correlated with turbidity and DO. Polluted sites were dominated by the snail Lymnaea glabra. This demonstrates that physicochemical parameters and macroinvertebrates could be applied to describe the water quality and improve the biomonitoring for water resources management and the environmental protection in the Lower Volta River., (© 2021. The Author(s).)

Published

2021

50. (Eco)toxicological tests for assessing impacts of chemical stress to aquatic ecosystems: Facts, challenges, and future.

Author

Schuijt LM, Peng FJ, van den Berg SJP, Dingemans MML, and Van den Brink PJ

Subjects

Animals, Ecotoxicology, Environmental Monitoring, Fishes, Humans, Invertebrates, Risk Assessment, Ecosystem, Water Pollutants, Chemical analysis, Water Pollutants, Chemical toxicity

Abstract

Monitoring of chemicals in the aquatic environment by chemical analysis alone cannot completely assess and predict the effects of chemicals on aquatic species and ecosystems. This is primarily because of the increasing number of (unknown) chemical stressors and mixture effects present in the environment. In addition, the ability of ecological indices to identify underlying stressors causing negative ecological effects is limited. Therefore, additional complementary methods are needed that can address the biological effects in a direct manner and provide a link to chemical exposure, i.e. (eco)toxicological tests. (Eco)toxicological tests are defined as test systems that expose biological components (cells, individuals, populations, communities) to (environmental mixtures of) chemicals to register biological effects. These tests measure responses at the sub-organismal (biomarkers and in vitro bioassays), whole-organismal, population, or community level. We performed a literature search to obtain a state-of-the-art overview of ecotoxicological tests available for assessing impacts of chemicals to aquatic biota and to reveal datagaps. In total, we included 509 biomarkers, 207 in vitro bioassays, 422 tests measuring biological effects at the whole-organismal level, and 78 tests at the population- community- and ecosystem-level. Tests at the whole-organismal level and biomarkers were most abundant for invertebrates and fish, whilst in vitro bioassays are mostly based on mammalian cell lines. Tests at the community- and ecosystem-level were almost missing for organisms other than microorganisms and algae. In addition, we provide an overview of the various extrapolation challenges faced in using data from these tests and suggest some forward looking perspectives. Although extrapolating the measured responses to relevant protection goals remains challenging, the combination of ecotoxicological experiments and models is key for a more comprehensive assessment of the effects of chemical stressors to aquatic ecosystems., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2021