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1. Edaphobase 2.0: Advanced international data warehouse for collating and using soil biodiversity datasets

Author

Russell, D.J., Naudts, E., Soudzilovskaia, N.A., Briones, M.J.I., Çakır, M., Conti, E., Cortet, J., Fiera, C., Kutuzovic, D. Hackenberger, Hedde, M., Hohberg, K., Indjic, D., Krogh, P.H., Lehmitz, R., Lesch, S., Marjanovic, Z., Mulder, C., Mumladze, L., Murvanidze, M., Rick, S., Roß-Nickoll, M., Schlaghamerský, J., Schmidt, O., Shelef, O., Suhadolc, M., Tsiafouli, M., Winding, A., Zaytsev, A., and Potapov, A.

Published
2024
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2. Assessing in-field pesticide effects under European regulation and its implications for biodiversity: a workshop report

Author

Solé, M., Brendel, S., Aldrich, A., Dauber, J., Ewald, J., Duquesne, S., Gottschalk, E., Hoffmann, J., Kuemmerlen, M., Leake, A., Matezki, S., Meyer, S., Nabel, M., Natal-da-Luz, T., Pieper, S., Piselli, D., Rigal, S., Roß-Nickoll, M., Schäffer, A., Settele, Josef, Sigmund, G., Sotherton, N., Wogram, J., Messner, D., Solé, M., Brendel, S., Aldrich, A., Dauber, J., Ewald, J., Duquesne, S., Gottschalk, E., Hoffmann, J., Kuemmerlen, M., Leake, A., Matezki, S., Meyer, S., Nabel, M., Natal-da-Luz, T., Pieper, S., Piselli, D., Rigal, S., Roß-Nickoll, M., Schäffer, A., Settele, Josef, Sigmund, G., Sotherton, N., Wogram, J., and Messner, D.

Abstract

BackgroundBiodiversity loss is particularly pronounced in agroecosystems. Agricultural fields cover about one-third of the European Union and are crucial habitats for many species. At the same time, agricultural fields receive the highest pesticide input in European landscapes. Non-target species, including plants and arthropods, closely related to targeted pests, are directly affected by pesticides. Direct effects on these lower trophic levels cascade through the food web, resulting in indirect effects via the loss of food and habitat for subsequent trophic levels. The overarching goals of the European pesticide legislation require governments to sufficiently consider direct and indirect effects on plants and arthropods when authorising pesticides. This publication provides an overview of a workshop's findings in 2023 on whether the current pesticide risk assessment adequately addresses these requirements.ResultsEffects due to in-field exposure to pesticides are currently not assessed for plants and inadequately assessed for arthropods, resulting in an impairment of the food web support and biodiversity. Deficiencies lie within the risk assessment, as defined in the terrestrial guidance document from 2002. To overcome this problem, we introduce a two-step assessment method feasible for risk assessors, that is to determine (i) whether a pesticide product might have severe impacts on plants or arthropods and (ii) whether these effects extend to a broad taxonomic spectrum. When each step is fulfilled, it can be concluded that the in-field exposure of the pesticide use under assessment could lead to unacceptable direct effects on non-target species in-field and thus subsequent indirect effects on the food web. While our primary focus is to improve risk assessment methodologies, it is crucial to note that risk mitigation measures, such as conservation headlands, exist in cases where risks from in-field exposure have been identified.ConclusionsWe advocate that direct and

Published
2024

3. Wege zu einem bundesweit harmonisierten Monitoring: Verbesserung der Erfassung der ­Bodenbiodiversität und ihrer Funktionen - Towards a monitoring scheme harmonised nationwide: Improving the recording of soil biodiversity and its functions

Author

Ballasus, H., Beylich, A., Bluhm, C., Buscot, Francois, Cordsen, E., Eisenhauer, N., Fröhlich, J., Glante, F., Grüneberg, E., Hommel, B., Höper, H., Jacob, F., Lachmann, C., Nabel, M., Pieper, S., Puhlmann, H., Römbke, J., Roß-Nickoll, M., Russell, D.J., Scheu, S., Tebbe, C.C., Toschki, A., Walter, R., Weiß, L., Ballasus, H., Beylich, A., Bluhm, C., Buscot, Francois, Cordsen, E., Eisenhauer, N., Fröhlich, J., Glante, F., Grüneberg, E., Hommel, B., Höper, H., Jacob, F., Lachmann, C., Nabel, M., Pieper, S., Puhlmann, H., Römbke, J., Roß-Nickoll, M., Russell, D.J., Scheu, S., Tebbe, C.C., Toschki, A., Walter, R., and Weiß, L.

Abstract

Ein unverzichtbarer Beitrag zur Erfüllung essenzieller Bodenfunktionen wird durch Bodenorganismen und deren Diversität geleistet. Der Kenntnisstand zur Bodenbiodiversität, die einer Vielzahl von Stressoren ausgesetzt ist und vielfach rückläufig oder gefährdet ist, muss derzeit als gering eingeschätzt werden. Das aktuelle Monitoring in Deutschland liefert keine belastbare Datengrundlage, um bundesweite Aussagen zum Zustand und zum Trend der Bodenbiodiversität treffen zu können. Die Weiterentwicklung des Bodenbiodiversitätsmonitorings ist daher eine Schwerpunktaufgabe des Nationalen Monitoringzentrums zur Biodiversität. Ein Fachgremium erarbeitet seit 2021 Leitlinien für ein bundesweit harmonisiertes Bodenbiodiversitätsmonitoring aufbauend auf bestehenden Monitoringaktivitäten und neueren Methodenentwicklungen. Dabei sollen gemeinsam mit den Monitoringakteuren Synergiepotenziale herausgearbeitet und genutzt werden. Die Identifizierung der wesentlichen Handlungsfelder und die Formulierung und Priorisierung der Ziele des Monitorings sind erste umgesetzte Schritte auf dem Weg zu einem bundesweit harmonisierten Bodenbiodiversitätsmonitoring.

Published
2024

4. GIS-Based Model to Predict the Development of Biodiversity in Agrarian Habitats as a Planning Base for Different Land-Use Scenarios

Author

Ernst, M., Oellers, J., Toschki, A., Hollert, H., Roß-Nickoll, M., Boersma, Bendiks Jan, Series editor, Fujii, Kozo, Series editor, Haase, Werner, Series editor, Leschziner, Michael A., Series editor, Periaux, Jacques, Series editor, Pirozzoli, Sergio, Series editor, Rizzi, Arthur, Series editor, Roux, Bernard, Series editor, Shokin, Yurii I., Series editor, Klaas, Michael, editor, Pischinger, Stefan, editor, and Schröder, Wolfgang, editor

Published
2015
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5. Bodenbiodiversität unverzichtbar für den Klimaschutz und die Bereitstellung natürlicher Ressourcen. Empfehlungen der Kommission Bodenschutz beim UBA (KBU) für ein bundesweites bodenbiologisches Monitoring

Author

Broll, G., Bellingrath-Kimura, S., Eser, U., Fürst, C., Grathwohl, P., Guggenberger, G., Hansjürgens, Bernd, von Haaren, C., Lang, F., Roß-Nickoll, M., Rück, F., Wiggering, H., Zeitz, J., Glante, F., Krüß, A., Lachmann, C., Mathews, J., Nabel, M., Pieper, S., Züghart, W., Broll, G., Bellingrath-Kimura, S., Eser, U., Fürst, C., Grathwohl, P., Guggenberger, G., Hansjürgens, Bernd, von Haaren, C., Lang, F., Roß-Nickoll, M., Rück, F., Wiggering, H., Zeitz, J., Glante, F., Krüß, A., Lachmann, C., Mathews, J., Nabel, M., Pieper, S., and Züghart, W.

Abstract

Die KBU begrüßt das Ansinnen der Bundesregierung mit dem im März 2022 beschlossenen Aktionsprogramm Natürlicher ⁠Klimaschutz⁠ (ANK), den Aufbau eines aussagekräftigen und belastbaren bundesweiten bodenbiologischen ⁠Monitoring⁠ zu finanzieren.Das Positionspapier konzentriert sich auf zwei Fragen 1) Was ist konkret zu tun? und 2) Warum müssen wir jetzt aktiv werden?  Es geht um die wichtigsten Aufgaben der kommenden Jahre, um  die Bodenbiodiversität in Deutschland zu charakterisieren und den guten ökologischen Zustand zu definieren. Die erhobenen Daten sind die Basis für die Bewertung des ökologischen Zustandes der Böden in Deutschland und die Ableitung von Maßnahmen für den ⁠Klima⁠- und Ressourcenschutz.

Published
2023

6. LandS: Vegetation modeling based on Ellenberg's Ecological Indicator Values

Author

Rumohr, Q., Grimm, Volker, Lennartz, G., Schäffer, A., Toschki, A., Roß-Nickoll, M., Hudjetz, S., Rumohr, Q., Grimm, Volker, Lennartz, G., Schäffer, A., Toschki, A., Roß-Nickoll, M., and Hudjetz, S.

Abstract

We present LandS, a new version of the Gras Model. The Gras Model was designed to simulate grassland development at local scales based on Ecological Indicator Values (EIVs) for different grassland management practices. In LandS, we complemented the existing set of EIVs with a second set representing several environmental factors: light, moisture, temperature, soil pH and nitrogen, also known as Ellenberg's EIVs. These new EIVs make the model more versatile and applicable to a wide range of sites across Central Europe. For example, it can be used on sites with dry or moist, acidic or calcareous soils in grassland or forest environments. We have also improved the implementation of the model by introducing version control and moving species and site-specific variables to data input files, so that species sets can be easily swapped for application in new study sites. We demonstrate the use and behavior of the model in two simulation experiments exploring interactions mediated by Ellenberg's EIVs, using input files to apply the model to different landscapes. We also provide detailed guidance on species selection and calibration, and discuss model limitations. LandS is an improved version of the GraS Model for simulating vegetation development at the local scale. It includes Ellenberg-like indicator values for environmental variables for inverse prediction of species occurrence and composition. The model is now flexible enough to be used for study sites throughout Central Europe, using data input files for species initialization.

Published
2023

9. Environmental risks of pesticides between forecast and reality: How reliable are results of the environmental risk assessment for individual products in the light of agricultural practice (tank mixtures, spray series)? Final report

Author

Knillmann, Saskia, Liess, Matthias, Scholz-Starke, B., Daniels, B., Ottermanns, R., Schäffer, A., Sybertz, A., Roß-Nickoll, M., Knillmann, Saskia, Liess, Matthias, Scholz-Starke, B., Daniels, B., Ottermanns, R., Schäffer, A., Sybertz, A., and Roß-Nickoll, M.

Abstract

Many plant protection products (PPPs) that are authorized in the European Union for agricultural and private use consist of more than one active substance. Combination products with several active ingredients are frequently used with other PPPs in tank mixtures in a spraying sequence of field applications. Therefore, the assessment of mixture toxicity effects under realistic treatment regimes presents an essential part for the environmental risk assessment of PPPs. Many studies have addressed effects of toxicant mixtures on various organisms and endpoints. The model of concentration addition (CA) seems in many cases able to predict the joint effect of toxicant mixtures, both for aquatic and terrestrial organisms. Nevertheless, there is still a lack of understanding regarding the predictability of mixture toxicity for chronic effects and effects at higher levels of biological organization in different environmental compartments. For this, we evaluated in the present COMBITOX project existing literature and available data. We also critically reviewed available models and approaches (i.e. HAIR 2014, SYNOPS-WEB, PRIME-beta etc.) regarding their usefulness for predicting the combined risk of treatment regimes for terrestrial and aquatic ecosystems. Furthermore, we analyzed an unique and large data set of actual PPP spray series from twelve different agricultural crops in Germany to determine crop specific treatment regimes. Four spray series were selected to quantify the additional environmental risk of treatment regimes compared to single applications of active substances. The additional risk was determined using the concept of the maximum cumulative ratio (ratio of the toxicity-exposure ratio, TER, of the most toxic substance in a mixture to the cumulative TER of all components in a mixture). Our analyses show that CA can predict chronic mixture toxicity at the individual level in many cases when toxicity data are based on chronic ECx values than less precise NOEC-valu

Published
2021

10. Risk from pesticide mixtures – The gap between risk assessment and reality

Author

Weisner, Oliver, Frische, T., Liebmann, Liana, Reemtsma, Thorsten, Roß-Nickoll, M., Schäfer, R.B., Schäffer, A., Scholz-Starke, B., Vormeier, Philipp, Knillmann, Saskia, Liess, Matthias, Weisner, Oliver, Frische, T., Liebmann, Liana, Reemtsma, Thorsten, Roß-Nickoll, M., Schäfer, R.B., Schäffer, A., Scholz-Starke, B., Vormeier, Philipp, Knillmann, Saskia, and Liess, Matthias

Abstract

Pesticide applications in agricultural crops often comprise a mixture of plant protection products (PPP), and single fields face multiple applications per year leading to complex pesticide mixtures in the environment. Restricted to single PPP, the current European Union PPP regulation, however, disregards the ecological risks of pesticide mixtures. To quantify this additional risk, we evaluated the contribution of single pesticide active ingredients to the additive mixture risk for aquatic risk indicators (invertebrates and algae) in 464 different PPP used, 3446 applications sprayed and 830 water samples collected in Central Europe, Germany. We identified an average number of 1.3 different pesticides in a single PPP, 3.1 for complete applications often involving multiple PPP and 30 in stream water samples. Under realistic worst-case conditions, the estimated stream water pesticide risk based on additive effects was 3.2 times higher than predicted from single PPP. We found that in streams, however, the majority of regulatory threshold exceedances was caused by single pesticides alone (69% for algae, 81% for invertebrates). Both in PPP applications and in stream samples, pesticide exposure occurred in repeated pulses each driven by one to few alternating pesticides. The time intervals between pulses were shorter than the 8 weeks considered for ecological recovery in environmental risk assessment in 88% of spray series and 53% of streams. We conclude that pesticide risk assessment should consider an additional assessment factor to account for the additive, but also potential synergistic simultaneous pesticide mixture risk. Additionally, future research and risk assessment need to address the risk from the frequent sequential pesticide exposure observed in this study.

Published
2021

11. The Yangtze-Hydro Project: a Chinese–German environmental program

Author

Bergmann, A., Bi, Y., Chen, L., Floehr, T., Henkelmann, B., Holbach, A., Hollert, H., Hu, W., Kranzioch, I., Klumpp, E., Küppers, S., Norra, S., Ottermanns, R., Pfister, G., Roß-Nickoll, M., Schäffer, A., Schleicher, N., Schmidt, B., Scholz-Starke, B., Schramm, K.-W., Subklew, G., Tiehm, A., Temoka, C., Wang, J., Westrich, B., Wilken, R.-D., Wolf, A., Xiang, X., and Yuan, Y.

Published
2012
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17. Der stumme Frühling: zur Notwendigkeit eines umweltverträglichen Pflanzenschutzes

Author

Schäffer, A., Filser, J., Frische, T., Gessner, M., Köck, Wolfgang, Kratz, W., Liess, Matthias, Nuppenau, E.A., Roß-Nickoll, M., Schäfer, R., Scheringer, M., Schäffer, A., Filser, J., Frische, T., Gessner, M., Köck, Wolfgang, Kratz, W., Liess, Matthias, Nuppenau, E.A., Roß-Nickoll, M., Schäfer, R., and Scheringer, M.

Published
2018

18. Looking back - Looking forward: A novel multi-time slice weight-of-evidence approach for defining reference conditions to assess the impact of human activities on lake systems

Author

Hollert, H., Crawford, S.E., Brack, Werner, Brinkmann, M., Fischer, E., Hartmann, K., Keiter, S., Ottermanns, R., Ouellet, J.D., Rinke, Karsten, Rösch, M., Roß-Nickoll, M., Schäffer, A., Schüth, C., Schulze, Tobias, Schwarz, A., Seiler, T.-B., Wessels, M., Hinderer, M., Schwalb, A., Hollert, H., Crawford, S.E., Brack, Werner, Brinkmann, M., Fischer, E., Hartmann, K., Keiter, S., Ottermanns, R., Ouellet, J.D., Rinke, Karsten, Rösch, M., Roß-Nickoll, M., Schäffer, A., Schüth, C., Schulze, Tobias, Schwarz, A., Seiler, T.-B., Wessels, M., Hinderer, M., and Schwalb, A.

Abstract

Lake ecosystems are sensitive recorders of environmental changes that provide continuous archives at annual to decadal resolution over thousands of years. The systematic investigation of land use changes and emission of pollutants archived in Holocene lake sediments as well as the reconstruction of contamination, background conditions, and sensitivity of lake systems offer an ideal opportunity to study environmental dynamics and consequences of anthropogenic impact that increasingly pose risks to human well-being. This paper discusses the use of sediment and other lines of evidence in providing a record of historical and current contamination in lake ecosystems. We present a novel approach to investigate impacts from human activities using chemical-analytical, bioanalytical, ecological, paleolimnological, paleoecotoxicological, archeological as well as modeling techniques. This multi-time slice weight-of-evidence (WOE) approach will generate knowledge on conditions prior to anthropogenic influence and provide knowledge to (i) create a better understanding of the effects of anthropogenic disturbances on biodiversity, (ii) assess water quality by using quantitative data on historical pollution and persistence of pollutants archived over thousands of years in sediments, and (iii) define environmental threshold values using modeling methods. This technique may be applied in order to gain insights into reference conditions of surface and ground waters in catchments with a long history of land use and human impact, which is still a major need that is currently not yet addressed within the context of the European Water Framework Directive.

Published
2018

20. Linking Ah receptor mediated effects of sediments and impacts on fish to key pollutants in the Yangtze Three Gorges Reservoir, China – A comprehensive perspective

Author

Floehr, Tilman, Segner, Helmut, Yuan, X, Hou, J, Hollert, H, Scholz-Starke, B, Hercht, H, Schmidt-Posthaus, Heike, Wu, L, Schäffer, A, Xiao, H, Kammann, U, and Roß-Nickoll, M

Subjects
630 Agriculture, 590 Animals (Zoology)
Abstract

The Three Gorges Reservoir (TGR), created in consequence of the Yangtze River's impoundment by the Three Gorges Dam, faces numerous anthropogenic impacts that challenge its unique ecosystem. Organic pollutants, particularly aryl hydrocarbon receptor (AhR) agonists, have been widely detected in the Yangtze River, but only little research was yet done on AhR-mediated activities. Hence, in order to assess effects of organic pollution, with particular focus on AhR-mediated activities, several sites in the TGR area were examined applying the "triad approach". It combines chemical analysis, in vitro, in vivo and in situ investigations to a holistic assessment. Sediments and the benthic fish species Pelteobagrus vachellii were sampled in 2011/2012, respectively, to identify relevant endpoints. Sediment was tested in vitro with the ethoxyresorufin-O-deethylase (EROD) induction assay, and in vivo with the Fish Embryo Toxicity Test and Sediment Contact Assay with Danio rerio. Activities of phase I (EROD) and phase II (glutathione-S-transferase) biotransformation enzymes, pollutant metabolites and histopathological alterations were studied in situ in P. vachellii. EROD induction was tested in vitro and in situ to evaluate possible relationships. Two sites, near Chongqing and Kaixian city, were identified as regional hot-spots and further investigated in 2013. The sediments induced in the in vitro/in vivo bioassays AhR-mediated activities and embryotoxic/teratogenic effects - particularly on the cardiovascular system. These endpoints could be significantly correlated to each other and respective chemical data. However, particle-bound pollutants showed only low bioavailability. The in situ investigations suggested a rather poor condition of P. vachellii, with histopathological alterations in liver and excretory kidney. Fish from Chongqing city exhibited significant hepatic EROD induction and obvious parasitic infestations. The polycyclic aromatic hydrocarbon (PAH) metabolite 1-hydroxypyrene was detected in bile of fish from all sites. All endpoints in combination with the chemical data suggest a pivotal role of PAHs in the observed ecotoxicological impacts.

Published
2015
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21. The impact of chemical pollution on the resilience of soils under multiple stresses: A conceptual framework for future research

Author

Schaeffer, A., Amelung, W., Hollert, H., Kaestner, Matthias, Kandeler, E., Kruse, J., Miltner, Anja, Ottermanns, R., Pagel, H., Peth, S., Poll, C., Rambold, G., Schloter, M., Schulz, S., Streck, T., Roß-Nickoll, M., Schaeffer, A., Amelung, W., Hollert, H., Kaestner, Matthias, Kandeler, E., Kruse, J., Miltner, Anja, Ottermanns, R., Pagel, H., Peth, S., Poll, C., Rambold, G., Schloter, M., Schulz, S., Streck, T., and Roß-Nickoll, M.

Abstract

Soils are faced with man-made chemical stress factors, such as the input of organic or metal-containing pesticides, in combination with non-chemical stressors like soil compaction and natural disturbance like drought. Although multiple stress factors are typically co-occurring in soil ecosystems, research in soil sciences on this aspect is limited and focuses mostly on single structural or functional endpoints. A mechanistic understanding of the reaction of soils to multiple stressors is currently lacking.Based on a review of resilience theory, we introduce a new concept for research on the ability of polluted soil (xenobiotics or other chemical pollutants as one stressor) to resist further natural or anthropogenic stress and to retain its functions and structure. There is strong indication that pollution as a primary stressor will change the system reaction of soil, i.e., its resilience, stability and resistance. It can be expected that pollution affects the physiological adaption of organisms and the functional redundancy of the soil to further stress. We hypothesize that the recovery of organisms and chemical-physical properties after impact of a follow-up stressor is faster in polluted soil than in non-polluted soil, i.e., polluted soil has a higher dynamical stability (dynamical stability = 1 / recovery time), whereas resilience of the contaminated soil is lower compared to that of not or less contaminated soil. Thus, a polluted soil might be more prone to change into another system regime after occurrence of further stress. We highlight this issue by compiling the literature exemplarily for the effects of Cu contamination and compaction on soil functions and structure.We propose to intensify research on effects of combined stresses involving a multidisciplinary team of experts and provide suggestions for corresponding experiments. Our concept offers thus a framework for system level analysis of soils paving the way to enhanc

Published
2016

22. Semi-field methods for the environmental risk assessment of pesticides in soil

Author

Schaeffer, A., van den Brink, P.J., Heimbach, F., Hoy, S., de Jong, F.W.M., Rombke, J., Ross-Nickoll, M., and Sousa, J.P.

Subjects
experimenteel veldonderzoek, milieu, terrestrische ecosystemen, field experimentation, risk assessment, terrestrial ecosystems, methodology, pesticides, soil biology, risicoschatting, regulations, pesticiden, environment, methodologie, regelingen, bodembiologie
Published
2010

24. Financial research support for ecotoxicology and environmental chemistry in Germany - results of an online survey

Author

Hollert, H., Filser, J., Häußling, R., Hein, Michaela, Matthies, M., Oehlmann, J., Ratte, H.T., Roß-Nickoll, M., Schäfer, A., Scheringer, M., Schiwy, A., Hollert, H., Filser, J., Häußling, R., Hein, Michaela, Matthies, M., Oehlmann, J., Ratte, H.T., Roß-Nickoll, M., Schäfer, A., Scheringer, M., and Schiwy, A.

Abstract

In recent years several initiatives addressed the inadequate financial support of pollutant-related environmental research in the Federal Republic of Germany. For an objective analysis about the research funding in ecotoxicology and environmental chemistry in Germany, an anonymous online survey was prepared. With support of the Society of Environmental Toxicology and Chemistry (SETAC) - German Language Branch and the German Chemical Society (GDCh) - Division of Environmental Chemistry and Ecotoxicology an invitation to participate in the survey was sent to all members of these two major associations for ecotoxicology and environmental chemistry in Germany (D), Switzerland (CH) and Austria (A). Only senior staff from the areas academics, government and industry was invited. The present article introduces the results of the survey. It is segmented in a section on socio-economic characterization of the participants, a section on support of research by the DFG and a section on funding by other funding organizations. A total of 71 male and female scientists in senior positions from various areas participated in the survey. The results revealed that the participants are to be classified as having excellent records. 48.5% of the respondents had submitted at least one research proposal to the DFG in the past, but one third actually received financial support by the DFG. 64% are not satisfied with the DFG support of pollutant-related research, only 7% are satisfied. It turned out that the research proposals are generally very heterogeneous and thus distributed to various units of the DFG with geosciences, water research and chemistry ranking highest, followed by biology and ecology. 91.2% of the respondents indicated that they have submitted proposals for research funding to other funding institutions (except the DFG), and 83.6% already have received appropriate external funding. 62.3% of the scientists believe that overall support for chemicals-related research in recent ye

Published
2011

25. Editorial : Laudation to prof.dr. Hans-Toni Tarre- towards conceptual, theory-based ecological science and its transfer to the applied field of ecotoxicology

Author

Brock, T.C.M., Giesy, J.P., Heimbach, F., Hollert, H., Ross-Nickoll, M., Schaffer, A., Steinhauser, K.G., Brock, T.C.M., Giesy, J.P., Heimbach, F., Hollert, H., Ross-Nickoll, M., Schaffer, A., and Steinhauser, K.G.

Abstract

In order to thank Prof. Dr. Hans-Toni Ratte on the occasion of his retirement for his outstanding experimental and modelling merits in the field of ecotoxicology and ecology and his personal 65th anniversary on November 25th this article will present a laudation.

Published
2011

28. The Yangtze-Hydro Project: a Chinese–German environmental program

Author

Bergmann, A., primary, Bi, Y., additional, Chen, L., additional, Floehr, T., additional, Henkelmann, B., additional, Holbach, A., additional, Hollert, H., additional, Hu, W., additional, Kranzioch, I., additional, Klumpp, E., additional, Küppers, S., additional, Norra, S., additional, Ottermanns, R., additional, Pfister, G., additional, Roß-Nickoll, M., additional, Schäffer, A., additional, Schleicher, N., additional, Schmidt, B., additional, Scholz-Starke, B., additional, Schramm, K.-W., additional, Subklew, G., additional, Tiehm, A., additional, Temoka, C., additional, Wang, J., additional, Westrich, B., additional, Wilken, R.-D., additional, Wolf, A., additional, Xiang, X., additional, and Yuan, Y., additional

Published
2011
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33. Conversion of Rice Field Ecosystems from Conventional to Ecological Farming: Effects on Pesticide Fate, Ecotoxicity and Soil Properties.

Author

Zhang Y, Yang Y, Shao Y, Wang J, Chen Z, Roß-Nickoll M, and Schäffer A

Abstract

Rice is an important staple food around the world, the cultivation as sustainable agriculture and food supply are key to achieving the Sustainable Development Goals (SDGs) of 2030. In order to analyze the sustainability of the rice paddy ecosystem, a comparative study was carried out during the rice growing season between paddies with conventional agriculture (CA) and ecological agriculture (EA), integrating analysis of physico-chemical characteristics of soil and soil pore water, pesticide residues, acute toxic effects and potential ecological risk, as well as aquatic invertebrate community structure dynamics. Our study found that total carbon and nitrogen present in soil were significantly higher in CA than in EA, while opposite results were found in soil pore water, implying the improvement on soil properties in EA. Neonicotinoid pesticides (thiamethoxam and thiacloprid) were still detected in EA, although no pesticides were applied after conversing CA to EA. Additionally, toxic effects to zebrafish embryos with a peak toxicity in summer (July, LC 50  = 55.26 mg soil equivalent/L) were also found in EA, which was lower than in CA. The dynamics of the aquatic invertebrate community structure were correlated with the toxicity results, with higher diversity recorded in EA. Therefore, for the purpose of ecosystem sustainability, the long-term implementation of EA is highly recommended., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2024
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34. Different mulch films, consistent results: soil fauna responses to microplastic.

Author

Weltmeyer A and Roß-Nickoll M

Subjects
Animals, Oligochaeta, Soil chemistry, Environmental Monitoring, Polyesters, Polyethylene, Plastics, Glutathione Transferase metabolism, Arthropods drug effects, Soil Pollutants toxicity, Soil Pollutants analysis, Microplastics toxicity
Abstract

Agricultural activities contribute to plastic pollution, with unintentional introduction and intentional use of plastic mulch films leading to the accumulation of microplastic particles in soils. The lack of removal techniques and scarce information on the effects on soil organisms, especially for biodegradable mulch films, necessitate an assessment of potential effects. This study aimed to elucidate the effects of mulch film microplastic on soil fauna by investigating reproduction output and subcellular responses before and after recovery from exposure. Two common soil organisms, Folsomia candida and Eisenia fetida, were exposed to petroleum-based polyethylene (PE) and biodegradable polylactic acid/polybutylene adipate terephthalate (PLA/PBAT) microplastic for 28 days, according to OECD guidelines 232 and 222, respectively. Juvenile numbers revealed no polymer- or concentration-dependent effects on E. fetida and F. candida reproduction after exposure to up to 5 and 10 g/kg dw soil, respectively. To provide a more sensitive and early indication of sublethal effects, subcellular responses in E. fetida were analyzed. Glutathione S-transferase (GST) activity increased with rising microplastic concentration; however, catalase (CAT), acetylcholine esterase (AChE) activity, and reactive oxygen species (ROS) did not differ from control levels. Further, the more environmentally relevant PE polymer was chosen for in-depth assessment of subcellular response after 28-day microplastic exposure and subsequent 28 days in uncontaminated soil with E. fetida. No significant differences in biomarker activity and stress levels were observed. We conclude that mulch film-derived microplastic did not adversely affect earthworm and collembolan species in this scenario, except for a slight induction in the detoxification enzyme glutathione S-transferase., (© 2024. The Author(s).)

Published
2024
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35. Air-liquid interface exposure of A549 human lung cells to characterize the hazard potential of a gaseous bio-hybrid fuel blend.

Author

Daniel J, Schönberger Alvarez AA, Te Heesen P, Lehrheuer B, Pischinger S, Hollert H, Roß-Nickoll M, and Du M

Subjects
Humans, A549 Cells, Biofuels, Cell Survival drug effects, Gases toxicity, Volatile Organic Compounds toxicity, Alkanes, Air Pollutants toxicity, Lung cytology, Lung drug effects, Lung metabolism
Abstract

Gaseous and semi-volatile organic compounds emitted by the transport sector contribute to air pollution and have adverse effects on human health. To reduce harmful effects to the environment as well as to humans, renewable and sustainable bio-hybrid fuels are explored and investigated in the cluster of excellence "The Fuel Science Center" at RWTH Aachen University. However, data on the effects of bio-hybrid fuels on human health is scarce, leaving a data gap regarding their hazard potential. To help close this data gap, this study investigates potential toxic effects of a Ketone-Ester-Alcohol-Alkane (KEAA) fuel blend on A549 human lung cells. Experiments were performed using a commercially available air-liquid interface exposure system which was optimized beforehand. Then, cells were exposed at the air-liquid interface to 50-2000 ppm C3.7 of gaseous KEAA for 1 h. After a 24 h recovery period in the incubator, cells treated with 500 ppm C3.7 KEAA showed significant lower metabolic activity and cells treated with 50, 250, 500 and 1000 ppm C3.7 KEAA showed significant higher cytotoxicity compared to controls. Our data support the international occupational exposure limits of the single KEAA constituents. This finding applies only to the exposure scenario tested in this study and is difficult to extrapolate to the complex in vivo situation., Competing Interests: The authors declare no competing interests., (Copyright: © 2024 Daniel et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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36. ARAapp: filling gaps in the ecological knowledge of spiders using an automated and dynamic approach to analyze systematically collected community data.

Author

Bach A, Raub F, Höfer H, Ottermanns R, and Roß-Nickoll M

Subjects
Animals, Ecosystem, Data Collection, Data Accuracy, Spiders
Abstract

The ARAMOB data repository compiles meticulously curated spider community datasets from systematical collections, ensuring a high standard of data quality. These datasets are enriched with crucial methodological data that enable the datasets to be aligned in time and space, facilitating data synthesis across studies, respectively, collections. To streamline the analysis of these datasets in a species-specific context, a suite of tailored ecological analysis tools named ARAapp has been developed. By harnessing the capabilities of ARAapp, users can systematically evaluate the spider species data housed within the ARAMOB repository, elucidating intricate relationships with a range of parameters such as vertical stratification, habitat occurrence, ecological niche parameters (moisture and shading) and phenological patterns. Database URL: ARAapp is available at  www.aramob.de/en., (© The Author(s) 2024. Published by Oxford University Press.)

Published
2024
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37. Fermented biochar has a markedly different effect on fate of pesticides in soil than compost, straw, and a mixed biochar-product.

Author

Siedt M, Vonhoegen D, Smith KEC, Roß-Nickoll M, van Dongen JT, and Schäffer A

Subjects
Soil chemistry, Biofuels, Charcoal chemistry, Water, Pesticides, Composting, 2-Methyl-4-chlorophenoxyacetic Acid, Soil Pollutants analysis
Abstract

Current knowledge about how biochars affect the fate of pesticides in soil is based on studies that used pure biochars. After finding that an additional biological post-pyrolysis treatment, such as co-composting or lactic fermentation, is required for biochars for superior performance in temperate arable soils, a knowledge gap formed of how such further processed biochar products would affect the fate of pesticides in soil. This study compared the effects of a novel fermented biochar alone or mixed with biogas residues on the fate of two pesticides, 4-chloro-2-methylphenoxyacetic acid (MCPA) and metalaxyl-M, in a temperate arable soil to the traditional organic amendments wheat straw and compost. The fate of 14 C-labeled MCPA was markedly affected in different ways. Fermented biochar effectively reduced the water-extractability and mineralization due to adsorption that was comparable to adsorption strengths reported for pure biochars. However, this effect was weak for the biochar mixed with biogas residues. Straw reduced water-extractable amounts due to increased biodegradation and formation of likely biogenic non-extractable residues of MCPA. In contrast, compost decelerated mineralization and increased the water solubility of the MCPA residues due to released dissolved organic matter. The amendments' effects were minor regarding 14 C-metalaxyl-M, except for the fermented biochar which again reduced water-extractability and delayed degradation due to adsorption. Thus, the effects of the organic amendments differed for the two pesticide compounds with only the fermented biochar's effect being similar for both. However, this effect was no longer present in the mixed product containing 20% biochar. Our findings clearly show that biologically treated biochar-containing products can affect the fate of pesticides in soil very differently, also when compared to traditional organic amendments. Such impacts and their desirable and undesirable ecotoxicological implications need to be considered before the large-scale application of biochars to temperate arable soils., 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
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38. Monitoring metal patterns from urban and agrarian sites using the bumblebee Bombus terrestris as a bioindicator.

Author

Breidenbach LR, Benner L, Roß-Nickoll M, Linnemann V, and Schäffer A

Subjects
Bees, Animals, Environmental Biomarkers, Cadmium analysis, Environmental Monitoring methods, Metals analysis, Environmental Pollutants analysis, Metals, Heavy analysis
Abstract

Honeybees are well-established bioindicators for different types of pollutants. This study aims to establish another species of the Apidae family as a bioindicator, with a distinct behaviour and life cycle. The bumblebee Bombus terrestris was used as a bioindicator for 12 metals. Bumblebee hives were placed at sampling sites in and around the city of Aachen, Germany, and metal concentrations were assessed using ICP-MS. Metal concentrations were compared to those found in honeybees described in the literature. Spatial differences in metal patterns were investigated by comparing two land-use types: urban and agrarian. Seasonal differences were compared by taking samples in spring and summer. All analysed metals were detected above the detection limit and within or even above the concentration range found in honeybees. Significant spatial differences were found for the metalloid B and the metal Cd with higher concentrations at the agrarian sites than the urban sites. Significant seasonal differences were found for 8 metals: Fe, Zn, Cu, Ni, Cd, and As concentrations were higher in summer than in spring, while B and V concentrations were higher in spring. To categorise the results, we applied the honeybee contamination index (HCI) and adapted it to bumblebee purposes. According to the HCI, only one agrarian site showed a high contamination level. This study shows that bumblebees are suitable bioindicators for metals. The obtained data can serve as a first baseline in the establishment of additional monitoring studies or risk assessments., (© 2023. The Author(s).)

Published
2023
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39. LandS: Vegetation modeling based on Ellenberg's ecological indicator values.

Author

Rumohr Q, Grimm V, Lennartz G, Schäffer A, Toschki A, Roß-Nickoll M, and Hudjetz S

Abstract

We present LandS, a new version of the Gras Model. The Gras Model was designed to simulate grassland development at local scales based on Ecological Indicator Values (EIVs) for different grassland management practices. In LandS, we complemented the existing set of EIVs with a second set representing several environmental factors: light, moisture, temperature, soil pH and nitrogen, also known as Ellenberg's EIVs. These new EIVs make the model more versatile and applicable to a wide range of sites across Central Europe. For example, it can be used on sites with dry or moist, acidic or calcareous soils in grassland or forest environments. We have also improved the implementation of the model by introducing version control and moving species and site-specific variables to data input files, so that species sets can be easily swapped for application in new study sites. We demonstrate the use and behavior of the model in two simulation experiments exploring interactions mediated by Ellenberg's EIVs, using input files to apply the model to different landscapes. We also provide detailed guidance on species selection and calibration, and discuss model limitations.•LandS is an improved version of the GraS Model for simulating vegetation development at the local scale.•It includes Ellenberg-like indicator values for environmental variables for inverse prediction of species occurrence and composition.•The model is now flexible enough to be used for study sites throughout Central Europe, using data input files for species initialization., Competing Interests: 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., (© 2023 The Authors.)

Published
2023
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40. Soil seedbank: Importance for revegetation in the water level fluctuation zone of the reservoir area.

Author

Li T, Zhu Z, Shao Y, Chen Z, and Roß-Nickoll M

Subjects
China, Humans, Nitrogen, Seed Bank, Water, Soil chemistry, Soil Pollutants analysis
Abstract

Vegetation succession in the water level fluctuation zone (WLFZ) is driven by periodical water fluctuations, the mechanisms of response and synergistic evolution between aboveground vegetation (AGV) and soil seed bank (SSB) in the WLFZ remain unclear. To illustrate the response between AGV and SSB and the importance of SSB for revegetation in the WLFZ, the Three Gorges Reservoir (TGR) was taken as the target in the current study, and five sampling sites that lie in the center of reservoir and major tributaries of the TGR were selected. Plant community survey along the three water level gradients (i.e., 165-170 m, 170-175 m and 175-180 m) was conducted. Simultaneously, SSB samples on the topsoil (0-5 cm) were collected for germination experiments. A total of forty-nine species were observed from the SSB, belonging to 24 families and 47 genera, of which Asteraceae (8 species) and Poaceae (6 species) dominated. The number of total germinated seedlings species from soil samples from the sampling sites differed, i.e., was lower in Fengjie and Wushan compared to Yunyang, Gaoyang and Fengdu. The seed density in 165-170 m was significantly lower than that of 170-175 m and 175-180 m (p < 0.05). The Sørensen similarity coefficients between AGV and SSB tended to decrease with the increase of water level gradient, ranging from 0.04 to 0.42. SSB species composition was significantly associated with total carbon and total nitrogen contents of the soil (both p < 0.05). The SSB density was significantly negatively correlated with concentration of soil total nitrogen (p < 0.05), the species richness of SSB was significantly negatively correlated with soil pH value (p < 0.05). Hence, the relationship between the SSB and the soil habitat might be an important factor driving the construction of vegetation in the WLFZ. The correlation between dynamic of SSB and TGR hydrological regimes should be considered for revegetation in the WLFZ., 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 Elsevier B.V. All rights reserved.)

Published
2022
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41. A plea for the integration of Green Toxicology in sustainable bioeconomy strategies - Biosurfactants and microgel-based pesticide release systems as examples.

Author

Johann S, Weichert FG, Schröer L, Stratemann L, Kämpfer C, Seiler TB, Heger S, Töpel A, Sassmann T, Pich A, Jakob F, Schwaneberg U, Stoffels P, Philipp M, Terfrüchte M, Loeschcke A, Schipper K, Feldbrügge M, Ihling N, Büchs J, Bator I, Tiso T, Blank LM, Roß-Nickoll M, and Hollert H

Subjects
Animals, Ecotoxicology, Fishes, Hazardous Substances, Humans, Microgels, Pesticides toxicity
Abstract

A key aspect of the transformation of the economic sector towards a sustainable bioeconomy is the development of environmentally friendly alternatives for hitherto used chemicals, which have negative impacts on environmental health. However, the implementation of an ecotoxicological hazard assessment at early steps of product development to elaborate the most promising candidates of lowest harm is scarce in industry practice. The present article introduces the interdisciplinary proof-of-concept project GreenToxiConomy, which shows the successful application of a Green Toxicology strategy for biosurfactants and a novel microgel-based pesticide release system. Both groups are promising candidates for industrial and agricultural applications and the ecotoxicological characterization is yet missing important information. An iterative substance- and application-oriented bioassay battery for acute and mechanism-specific toxicity within aquatic and terrestrial model species is introduced for both potentially hazardous materials getting into contact with humans and ending up in the environment. By applying in silico QSAR-based models on genotoxicity, endocrine disruption, skin sensitization and acute toxicity to algae, daphnids and fish, individual biosurfactants resulted in deviating toxicity, suggesting a pre-ranking of the compounds. Experimental toxicity assessment will further complement the predicted toxicity to elaborate the most promising candidates in an efficient pre-screening of new substances., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2022
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42. Designed to Be Green, Economic, and Efficient: A Ketone-Ester-Alcohol-Alkane Blend for Future Spark-Ignition Engines.

Author

Ackermann P, Braun KE, Burkardt P, Heger S, König A, Morsch P, Lehrheuer B, Surger M, Völker S, Blank LM, Du M, Heufer KA, Roß-Nickoll M, Viell J, von der Aßen N, Mitsos A, Pischinger S, and Dahmen M

Abstract

Model-based fuel design can tailor fuels to advanced engine concepts while minimizing environmental impact and production costs. A rationally designed ketone-ester-alcohol-alkane (KEAA) blend for high efficiency spark-ignition engines was assessed in a multi-disciplinary manner, from production cost to ignition characteristics, engine performance, ecotoxicity, microbial storage stability, and carbon footprint. The comparison included RON 95 E10, ethanol, and two previously designed fuels. KEAA showed high indicated efficiencies in a single-cylinder research engine. Ignition delay time measurements confirmed KEAA's high auto-ignition resistance. KEAA exhibits a moderate toxicity and is not prone to microbial infestation. A well-to-wheel analysis showed the potential to lower the carbon footprint by 95 percent compared to RON 95 E10. The findings motivate further investigations on KEAA and demonstrate advancements in model-based fuel design., (© 2021 The Authors. ChemSusChem published by Wiley-VCH GmbH.)

Published
2021
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43. Risk from pesticide mixtures - The gap between risk assessment and reality.

Author

Weisner O, Frische T, Liebmann L, Reemtsma T, Roß-Nickoll M, Schäfer RB, Schäffer A, Scholz-Starke B, Vormeier P, Knillmann S, and Liess M

Subjects
Agriculture, Environmental Monitoring, Risk Assessment, Pesticides analysis, Pesticides toxicity, Water Pollutants, Chemical analysis, Water Pollutants, Chemical toxicity
Abstract

Pesticide applications in agricultural crops often comprise a mixture of plant protection products (PPP), and single fields face multiple applications per year leading to complex pesticide mixtures in the environment. Restricted to single PPP, the current European Union PPP regulation, however, disregards the ecological risks of pesticide mixtures. To quantify this additional risk, we evaluated the contribution of single pesticide active ingredients to the additive mixture risk for aquatic risk indicators (invertebrates and algae) in 464 different PPP used, 3446 applications sprayed and 830 water samples collected in Central Europe, Germany. We identified an average number of 1.3 different pesticides in a single PPP, 3.1 for complete applications often involving multiple PPP and 30 in stream water samples. Under realistic worst-case conditions, the estimated stream water pesticide risk based on additive effects was 3.2 times higher than predicted from single PPP. We found that in streams, however, the majority of regulatory threshold exceedances was caused by single pesticides alone (69% for algae, 81% for invertebrates). Both in PPP applications and in stream samples, pesticide exposure occurred in repeated pulses each driven by one to few alternating pesticides. The time intervals between pulses were shorter than the 8 weeks considered for ecological recovery in environmental risk assessment in 88% of spray series and 53% of streams. We conclude that pesticide risk assessment should consider an additional assessment factor to account for the additive, but also potential synergistic simultaneous pesticide mixture risk. Additionally, future research and risk assessment need to address the risk from the frequent sequential pesticide exposure observed in this study., 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 Elsevier B.V. All rights reserved.)

Published
2021
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44. Application of the Closure Principle Computational Approach Test to Assess Ecotoxicological Field Studies: Comparative Analysis Using Earthworm Field Test Abundance Data.

Author

Daniels B, Roß-Nickoll M, Jänsch S, Pieper S, Römbke J, Scholz-Starke B, and Ottermanns R

Subjects
Animals, Risk Assessment, Ecotoxicology methods, Oligochaeta
Abstract

Field studies to determine the effects of chemicals on earthworm communities are generally conducted according to International Organization for Standardization standard 11268-3 (and later comments). However, statistical test procedures suggested in the guideline are frequently criticized, mainly for 2 reasons: 1) Earthworm abundances are count data and often do not fulfill requirements for multiple t tests (normal distribution and homogeneity of variance), and 2) the resulting toxicity metrics of multiple testing procedures (no/lowest-observed-effect concentrations [NOEC/LOEC]) fail to adequately detect the actual level of effects. Recently, a new method to overcome these shortcomings was presented by the introduction of the closure principle computational approach test (CPCAT). We applied this statistical method to assess chemical effects on abundance in a large dataset of 26 earthworm field studies (with up to 3 test chemical application rates) and an additional extended study with 6 application rates. A comparative analysis was provided considering results of well-established multiple testing approaches (Dunnett's test) with particular consideration of the degree of overdispersion found in these data. It was shown that the CPCAT detects substantially more effects in earthworm field tests as statistically significant than standard t test approaches. This lowered the LOEC/NOEC for many chemical treatments to control comparisons. As a consequence, the statistically detected NOECs/LOECs were often set at lower percentage deviations between control and chemical treatment. This is the first time the performance of the CPCAT has been assessed within a comprehensive analysis of earthworm field study data. Environ Toxicol Chem 2021;40:1750-1760. © 2021 The Authors. Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC., (© 2021 The Authors. Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC.)

Published
2021
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45. Green toxicological investigation for biofuel candidates.

Author

Heger S, Brendt J, Hollert H, Roß-Nickoll M, and Du M

Subjects
Animals, Cell Line, Cricetinae, Daphnia, Humans, Toxicity Tests, Acute, Zebrafish, Biofuels toxicity, Water Pollutants, Chemical
Abstract

To avoid potential risks of biofuels on the environment and human, ecotoxicity investigation should be integrated into the early design stage for promising biofuel candidates. In the present study, a green toxicology testing strategy combining experimental bioassays with in silico tools was established to investigate the potential ecotoxicity of biofuel candidates. Experimental results obtained from the acute immobilisation test, the fish embryo acute toxicity test and the in vitro micronucleus assay (Chinese hamster lung fibroblast cell line V79) were compared with model prediction results by ECOSAR and OECD QSAR Toolbox. Both our experimental and model prediction results showed that 1-Octanol (1-Oct) and Di-n-butyl ether (DNBE) were the most toxic to Daphnia magna and zebrafish among all the biofuel candidates we investigated, while Methyl ethyl ketone (MEK), Dimethoxymethane (DMM) and Diethoxymethane (DEM) were the least toxic. Moreover, both in vitro micronucleus assay and OECD QSAR Toolbox evaluation suggested that the metabolites present higher genotoxicity than biofuel candidates themselves. Overall, our results proved that this green toxicology testing strategy is a useful tool for assessing ecotoxicity of biofuel candidates., 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 © 2020 Elsevier B.V. All rights reserved.)

Published
2021
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46. A trophic transfer study: accumulation of multi-walled carbon nanotubes associated to green algae in water flea Daphnia magna.

Author

Politowski I, Wittmers F, Hennig MP, Siebers N, Goffart B, Roß-Nickoll M, Ottermanns R, and Schäffer A

Subjects
Animals, Daphnia physiology, Chlorophyta, Cladocera, Nanotubes, Carbon toxicity, Water Pollutants, Chemical toxicity
Abstract

Carbon nanotubes (CNT) are promising nanomaterials in modern nanotechnology and their use in many different applications leads to an inevitable release into the aquatic environment. In this study, we quantified trophic transfer of weathered multi-walled carbon nanotubes (wMWCNT) from green algae to primary consumer Daphnia magna in a concentration of 100 μg L -1 using radioactive labeling of the carbon backbone ( 14 C-wMWCNT). Trophic transfer of wMWCNT was compared to the uptake by daphnids exposed to nanomaterials in the water phase without algae. Due to the rather long observed CNT sedimentation times (DT) from the water phase (DT 50 : 3.9 days (d), DT 90 : 12.8 d) wMWCNT interact with aquatic organisms and associated to the green algae Chlamydomonas reinhardtii and Raphidocelis subcapitata. After the exposition of algae, the nanotubes accumulated to a maximum of 1.6 ± 0.4 μg 14 C-wMWCNT mg -1 dry weight -1 (dw -1 ) and 0.7 ± 0.3 μg 14 C-wMWCNT mg -1 dw -1 after 24 h and 48 h, respectively. To study trophic transfer, R. subcapitata was loaded with 14 C-wMWCNT and subsequently fed to D. magna. A maximum body burden of 0.07 ± 0.01 μg 14 C-wMWCNT mg -1 dw -1 and 7.1 ± 1.5 μg 14 C-wMWCNT mg -1 dw -1 for D. magna after trophic transfer and waterborne exposure was measured, respectively, indicating no CNT accumulation after short-term exposure via trophic transfer. Additionally, the animals eliminated nanomaterials from their guts, while feeding algae facilitated their excretion. Further, accumulation of 14 C-wMWCNT in a growing population of D. magna revealed a maximum uptake of 0.7 ± 0.2 μg mg -1 dw -1 . Therefore, the calculated bioaccumulation factor (BAF) after 28 d of 6700 ± 2900 L kg -1 is above the limit that indicates a chemical is bioaccumulative in the European Union Regulation REACH. Although wMWCNT did not bioaccumulate in neonate D. magna after trophic transfer, wMWCNT enriched in a 28 d growing D. magna population regardless of daily feeding, which increases the risk of CNT accumulation along the aquatic food chain., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2021
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47. Comparing straw, compost, and biochar regarding their suitability as agricultural soil amendments to affect soil structure, nutrient leaching, microbial communities, and the fate of pesticides.

Author

Siedt M, Schäffer A, Smith KEC, Nabel M, Roß-Nickoll M, and van Dongen JT

Subjects
Charcoal, Nutrients, Soil, Composting, Microbiota, Pesticides, Soil Pollutants analysis
Abstract

The emission of nutrients and pesticides from agricultural soils endangers natural habitats. Here, we review to which extent carbon-rich organic amendments help to retain nutrients and pesticides in agricultural soils and to reduce the contamination of surrounding areas and groundwater. We compare straw, compost, and biochar to see whether biochar outperforms the other two more traditional and cheaper materials. We present a list of criteria to evaluate the suitability of organic materials to be used as soil amendments and discuss differences in elemental compositions of straw, compost, and biochar to understand, how soil microorganisms utilize those materials. We review their effects on physical and chemical soil characteristics, soil microbial communities, as well as effects on the transformation and retention of nutrients and pesticides in detail. It becomes clear that for all three amendments their effects can vary greatly depending on numerous aspects, such as the type of soil, application rate, and production procedure of the organic material. Biochar is most effective in increasing the sorption capacity of soils but does not outperform straw and compost with regards to the other aspects investigated. Nevertheless, the possibility to design biochar properties makes it a very promising material. Finally, we provide critical comments about how to make studies about organic amendments more comparable (comprehensive provision of material properties), how to improve concepts of future work (meta-analysis, long-term field studies, use of deep-insight microbial DNA sequencing), and what needs to be further investigated (the link between structural and functional microbial parameters, the impact of biochar on pesticide efficiency)., 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 © 2020 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2021
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48. A "plan bee" for cities: Pollinator diversity and plant-pollinator interactions in urban green spaces.

Author

Daniels B, Jedamski J, Ottermanns R, and Ross-Nickoll M

Subjects
Animals, City Planning, Bees physiology, Cities, Pollination
Abstract

Green infrastructure in cities is considered to serve as a refuge for insect pollinators, especially in the light of an ongoing global decline of insects in agricultural landscapes. The design and maintenance of urban green spaces as key components of green infrastructure play a crucial role in case of nesting opportunities and for foraging insects. However, only few research has explored the impact of urban green space design on flower visitor communities, plant-pollinator interaction and the provision of the ecosystem service of pollination in cities. We investigated the abundance and diversity of pollinator communities in different urban park types in designed, standardized vegetation units, linked the visitation rates to the structural composition of the park types and derived indices for implemented pollination performances. The study was performed in two different structural park elements, flower beds and insect-pollinating trees. To gain a comprehensive understanding of the interaction between plants and pollinators, we calculated a plant-pollinator network of the recorded community in the investigation area. Visitation rates at different park types clearly showed, that the urban community gardens in comparison to other urban park types had a significantly higher abundance of pollinator groups, comparable to results found on a rural reference site. Tilia trees contributed significantly to the ecosystem service of pollination in investigated green spaces with a high supply of nectar and pollen during their flowering period. Calculations of pollination performances showed that recreational parks had comparably low visitation rates of pollinators and a high potential to improve conditions for the ecosystem service of pollination. The results indicated the strong potential of cities to provide a habitat for different groups of pollinators. In order to access this refuge, it is necessary to rely on near-natural concepts in design and maintenance, to create a wide range of flower diversity and to use even small green patches. Based on the findings, we encourage an integrated management of urban free spaces to consider parks as key habitats for pollinators in anthropogenic dominated, urban environments., Competing Interests: The authors have declared that no competing interests exist.

Published
2020
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49. Simulating spray series of pesticides in agricultural practice reveals evidence for accumulation of environmental risk in soil.

Author

Sybertz A, Ottermanns R, Schäffer A, Scholz-Starke B, Daniels B, Frische T, Bär S, Ullrich C, and Roß-Nickoll M

Abstract

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.

Published
2020
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50. MITAS: A model for assessing the time-dependent risk of sequential applications of pesticides for soil organisms by consideration of exposure, degradation and mixture toxicity.

Author

Sybertz A, Roß-Nickoll M, Schäffer A, Scholz-Starke B, Daniels B, and Ottermanns R

Abstract

In agricultural landscapes it is common practice to apply pesticides as a spray series. Within a vegetation period multiple applications result in a mixture of different pesticides in the soil and other environmental compartments. •A model named MITAS (MIxture Toxicity of Application Spray series) has been developed to calculate the soil concentration of pesticides and the resulting time-dependent mixture risk for earthworms. MITAS creates tables and graphs representing the mixture risk for an applied spray series time-dependently.•A simulation of the impact of application series for a period of up to three years is possible with MITAS. Calculation of the soil concentration is based on the assumptions of the German pesticide registration. Mixture risk for each day within the entire modelling period is calculated.•Mixtures of pesticides from former and multiple applications are the rule in agricultural soils as various studies have shown. Thus, considering the impact of pesticide mixtures is necessary to protect soil organisms. MITAS can assess not only the maximum mixture risk for soil organisms, but also how long a certain risk threshold may be exceeded, above which unacceptable effects on exposed organisms may occur., Competing Interests: 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., (© 2019 The Author(s).)

Published
2019
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