Integrative approaches in ecotoxicological testing: Implications for biomarker development and application

Ecotoxicology aims to understand toxic effects of chemicals in the environment. Effects can be observed at different levels of the biological organization, from molecular to ecosystem level. Biomarkers on molecular and biochemical levels are used in ecotoxicology as early warning signals of chemical...

Full description

Bibliographic Details
Main Author: Furuhagen, Sara
Format: Others
Language:English
Published: Stockholms universitet, Institutionen för tillämpad miljövetenskap (ITM) 2013
Subjects:
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-89771
id ndltd-UPSALLA1-oai-DiVA.org-su-89771
record_format oai_dc
spelling ndltd-UPSALLA1-oai-DiVA.org-su-897712013-05-15T03:55:53ZIntegrative approaches in ecotoxicological testing: Implications for biomarker development and applicationengFuruhagen, SaraStockholms universitet, Institutionen för tillämpad miljövetenskap (ITM)Stockholm : Department of Applied Environmental Science, Stockholm University2013biomarkeroxidative stressDaphnia magnaEcotoxicology aims to understand toxic effects of chemicals in the environment. Effects can be observed at different levels of the biological organization, from molecular to ecosystem level. Biomarkers on molecular and biochemical levels are used in ecotoxicology as early warning signals of chemical exposure, possible toxic effects and underlying mechanisms. As methods and technologies improve, more biomarkers are being implemented in ecotoxicological studies, due to the general interest in early detection and thus efficient prevention of environmental risks. However, to be of value in ecotoxicological assessment, a connection between biomarker response and effects at higher levels of biological organization should be established. Also, baseline variability for the biomarker in question as well as response to natural fluctuations of environmental factors should be evaluated. The aim of this thesis was to increase value and understanding of biomarkers in ecotoxicological assessment by (1) linking responses across different levels of biological organization, and (2) gaining better understanding of the relative importance of ecological and physiological factors affecting oxidative biomarkers. Paper I is focused on evolutionary conserved drug targets and the toxicity of pharmaceuticals for non-target organisms. The main conclusion from this study is that pharmaceuticals with conserved drug targets in non-target organisms have a higher toxicity than pharmaceuticals for which drug-targets have not been identified in the species. The effects were evaluated using end points at molecular, biochemical and individual levels. Consistent with the expected higher sensitivity of molecular and biochemical end points, the effects on the low-level biomarkers were observed at lower concentrations than at the individual level.   Paper II is focused on delineating effects of feeding and toxic exposure on oxidative biomarkers commonly used in ecotoxicology. The results are in agreement with the theory of caloric restriction that links enhanced caloric intake to increased pro-oxidative processes in animals. In our experiments with the cladoceran Daphnia magna, we observed positive effects for both antioxidant capacity and oxidized lipids in response to enhanced feeding rates. This have implications for the use of oxidative stress biomarkers in ecotoxicology as many substances have inhibitory effects on feeding rate and thus, changes in oxidative biomarkers can result from the altered feeding rate rather than other toxic mechanisms. Therefore, possible changes in feeding rate should be assessed when conducting exposure experiments or interpreting field data in studies employing oxidative stress biomarkers. However, it was concluded that the ratio between antioxidative capacity and protein content was independent of feeding rate. Thus, this biomarker is suitable for xenobiotic exposure in D. magna. This thesis have contributed to better understanding of molecular and biochemical biomarkers in ecotoxicological studies in regard to the connections between effects at different biological levels and confounding factors in biomarker response. <p>At the tiem of defence the following papers wer unpublished and had a status as follows:</p><p>Paper 1: Manuscript; Paper 2: Manuscript</p>Licentiate thesis, comprehensive summaryinfo:eu-repo/semantics/masterThesistexthttp://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-89771application/pdfinfo:eu-repo/semantics/openAccess
collection NDLTD
language English
format Others
sources NDLTD
topic biomarker
oxidative stress
Daphnia magna
spellingShingle biomarker
oxidative stress
Daphnia magna
Furuhagen, Sara
Integrative approaches in ecotoxicological testing: Implications for biomarker development and application
description Ecotoxicology aims to understand toxic effects of chemicals in the environment. Effects can be observed at different levels of the biological organization, from molecular to ecosystem level. Biomarkers on molecular and biochemical levels are used in ecotoxicology as early warning signals of chemical exposure, possible toxic effects and underlying mechanisms. As methods and technologies improve, more biomarkers are being implemented in ecotoxicological studies, due to the general interest in early detection and thus efficient prevention of environmental risks. However, to be of value in ecotoxicological assessment, a connection between biomarker response and effects at higher levels of biological organization should be established. Also, baseline variability for the biomarker in question as well as response to natural fluctuations of environmental factors should be evaluated. The aim of this thesis was to increase value and understanding of biomarkers in ecotoxicological assessment by (1) linking responses across different levels of biological organization, and (2) gaining better understanding of the relative importance of ecological and physiological factors affecting oxidative biomarkers. Paper I is focused on evolutionary conserved drug targets and the toxicity of pharmaceuticals for non-target organisms. The main conclusion from this study is that pharmaceuticals with conserved drug targets in non-target organisms have a higher toxicity than pharmaceuticals for which drug-targets have not been identified in the species. The effects were evaluated using end points at molecular, biochemical and individual levels. Consistent with the expected higher sensitivity of molecular and biochemical end points, the effects on the low-level biomarkers were observed at lower concentrations than at the individual level.   Paper II is focused on delineating effects of feeding and toxic exposure on oxidative biomarkers commonly used in ecotoxicology. The results are in agreement with the theory of caloric restriction that links enhanced caloric intake to increased pro-oxidative processes in animals. In our experiments with the cladoceran Daphnia magna, we observed positive effects for both antioxidant capacity and oxidized lipids in response to enhanced feeding rates. This have implications for the use of oxidative stress biomarkers in ecotoxicology as many substances have inhibitory effects on feeding rate and thus, changes in oxidative biomarkers can result from the altered feeding rate rather than other toxic mechanisms. Therefore, possible changes in feeding rate should be assessed when conducting exposure experiments or interpreting field data in studies employing oxidative stress biomarkers. However, it was concluded that the ratio between antioxidative capacity and protein content was independent of feeding rate. Thus, this biomarker is suitable for xenobiotic exposure in D. magna. This thesis have contributed to better understanding of molecular and biochemical biomarkers in ecotoxicological studies in regard to the connections between effects at different biological levels and confounding factors in biomarker response. === <p>At the tiem of defence the following papers wer unpublished and had a status as follows:</p><p>Paper 1: Manuscript; Paper 2: Manuscript</p>
author Furuhagen, Sara
author_facet Furuhagen, Sara
author_sort Furuhagen, Sara
title Integrative approaches in ecotoxicological testing: Implications for biomarker development and application
title_short Integrative approaches in ecotoxicological testing: Implications for biomarker development and application
title_full Integrative approaches in ecotoxicological testing: Implications for biomarker development and application
title_fullStr Integrative approaches in ecotoxicological testing: Implications for biomarker development and application
title_full_unstemmed Integrative approaches in ecotoxicological testing: Implications for biomarker development and application
title_sort integrative approaches in ecotoxicological testing: implications for biomarker development and application
publisher Stockholms universitet, Institutionen för tillämpad miljövetenskap (ITM)
publishDate 2013
url http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-89771
work_keys_str_mv AT furuhagensara integrativeapproachesinecotoxicologicaltestingimplicationsforbiomarkerdevelopmentandapplication
_version_ 1716585803232051200