Ecotoxicological evaluation of pesticide mixtures

Neste trabalho o risco da aplicação de moluscicidas (metaldeído e metiocarbe) para o isópode terrestre Porcellionides pruinosus foi avaliado usando como parâmetros a mortalidade e biomarcadores de exposição. O tempo até à morte dos isópodes (após contacto com os moluscicidas) foi muito curto, especialmente no caso da exposição ao metiocarbe. Os vários biomarcadores revelaram-se úteis para a compreensão do modo de acção dos dois moluscicidas neste isópode, particularmente o efeito do carbamato metiocarbe na inibição da enzima acetilcolinesterase (AChE). Os efeitos de combinações binárias de três produtos de protecção das plantas (PPP) dimetoato, glifosato e espirodiclofeno foram avaliados testando o comportamento de evitamento de P. pruinosus, o sucesso reprodutivo do colêmbolo Folsomia candida e o crescimento das plantas Brassica rapa e Triticum aestivum, usando os dois modelos de referência de concentração de adição (CA) e acção independente (IA). O modelo MIXTOX foi usado para avaliar possíveis desvios (devido a interacções entre os pesticidas) dos dois modelos de referência. Os resultados obtidos permitem constatar que estes PPP quando aplicados segundo a dose recomendada não acarretam efeitos perniciosos para os organismos testados. Foi detectado sinergismo na mistura feita com glifosato e espirodiclofeno no isópode P. pruinosus e na mistura com glifosato e dimetoato na planta T. aestivum. Um ecossistema terrestre em pequena escala (“STEM”) foi desenvolvido, contendo um solo agrícola mediterrânico. Nestes STEM, minhocas (Eisenia andrei), P. pruinosus, B. rapa e “bait-lamina” foram incorporados no sentido de avaliar os efeitos da aplicação de dimetoato com espirodiclofeno e glifosato com dimetoato. A dose recomendada de aplicação dos PPP, quer na exposição individual quer nas misturas binárias não teve quaisquer efeitos nas espécies testadas. As minhocas foram sensíveis à aplicação conjunta de dimetoato com espirodiclofeno (10 vezes a dose recomendada) na sua distribuição vertical ao longo da coluna do STEM, e foi detectado sinergismo (i.e. mais minhocas escaparam do que a predição feita pelo modelo IA). Em todas as misturas binárias feitas com glifosato e dimetoato registou-se um decréscimo no consumo de “bait-lamina”, indicando sinergismo (menos “bait-lamina” consumidos que o esperado). Dos quatro biomarcadores (Catalase, AChE, GST e LPO) avaliados nos isópodes, verificaram-se diferenças significativas na actividade da enzima AChE (quando dimetoato foi aplicado no solo) e LPO (aumento da actividade devido à aplicação de glifosato e dimetoato).

From genes to population: effects of toxicants on Enchytraeus albidus

Nowadays, a systems biology approach is both a challenge as well as believed to be the ideal form of understanding the organisms’ mechanisms of response. Responses at different levels of biological organization should be integrated to better understand the mechanisms, and hence predict the effects of stress agents, usable in broader contexts. The main aim of this thesis was to evaluate the underlying mechanisms of Enchytraeus albidus responses to chemical stressors. Therefore, there was a large investment on the gene library enrichment for this species, as explained ahead. Overall, effects of chemicals from two different groups (metals and pesticides) were assessed at different levels of biological organization: from genes and biochemical biomarkers to population endpoints. Selected chemicals were: 1) the metals cadmium and zinc; 2) the insecticide dimethoate, the herbicide atrazine and the fungicide carbendazim. At the gene and sub-cellular level, the effects of time and dosage were also adressed. Traditional ecotoxicological tests - survival, reproduction and avoidance behavior - indicated that pesticides were more toxic than metals. Avoidance behaviour is extremely important from an ecological point of view, but not recommended to use for risk assessment purposes. The oxidative stress related experiment showed that metals induced significant effects on several antioxidant enzyme activities and substrate levels, as well as oxidative damage on the membrane cells. To increase the potential of our molecular tool to assess transcriptional responses, the existing cDNA library was enriched with metal and pesticide responding genes, using Suppression Subtractive Hybridization (SSH). With the sequencing information obtained, an improved Agilent custom oligonucleotide microarray was developed and an EST database, including all existing molecular data on E. albidus, was made publicly available as an interactive tool to access information. With this microarray tool, most interesting and novel information on the mechanisms of chemical toxicity was obtained, with the identification of common and specific key pathways affected by each compound. The obtained results allowed the identification of mechanisms of action for the tested compounds in E. albidus, some of which are in line with the ones known for mammals, suggesting across species conserved modes of action and underlining the usefulness of this soil invertebrate as a model species. In general, biochemical and molecular responses were influenced by time of exposure and chemical dosage and these allowed to see the evolution of events. Cellular energy allocation results confirmed the gene expression evidences of an increased energetic expenditure, which can partially explain the decrease on the reproductive output, verified at a later stage. Correlations found throughout this thesis between effects at the different levels of biological organization have further improved our knowledge on the toxicity of metals and pesticides in this species.

The effects of chemicals in isopods : a multi-organizational evaluation

The global aim of this thesis was to evaluate and assess the effects of a pesticide (dimethoate) and a metal (nickel), as model chemicals, within different organization levels, starting at the detoxification pathways (enzymatic biomarkers) and energy costs associated (energy content quantification, energy consumption and CEA) along with the physiological alterations at the individual and population level (mortality), leading to a metabolomic analysis (using liquid 1H-NMR) and finally a gene expression analysis (transcriptome and RT-qPCR analysis). To better understand potential variations in response to stressors, abiotic factors were also assessed in terrestrial isopods such as temperature, soil moisture and UV radiation. The evaluation performed using biochemical biomarkers and energy related parameters showed that increases in temperature might negatively affect the organisms by generating oxidative stress. It also showed that this species is acclimated to environments with low soil moisture, and that in high moisture scenarios there was a short gap between the optimal and adverse conditions that led to increased mortality. As for UV-R, doses nowadays present have shown to induce significant negative impact on these organisms. The long-term exposure to dimethoate showed that besides the neurotoxicity resulting from acetylcholinesterase inhibition, this stressor also caused oxidative stress. This effect was observed for both concentrations used (recommended field dose application and a below EC50 value) and that its combination with different temperatures (20ºC and 25ºC) showed different response patterns. It was also observed that dimethoate’s degradation rate in soils was higher in the presence of isopods. In a similar study performed with nickel, oxidative stress was also observed. But, in the case of this stressor exposure, organisms showed a strategy where the energetic costs necessary for detoxification (biomarkers) seemed to be compensated by positive alterations in the energy related parameters. In this work we presented for the first time a metabolomic profile of terrestrial isopods exposed to stressors (dimethoate and niquel), since until the moment only a previous study was performed on a metabolomic evaluation in nonexposed isopods. In the first part of the study we identify 24 new metabolites that had not been described previously. On the second part of the study a metabolomic profile variation of abstract non-exposed organism throughout the exposure was presented and finally the metabolomic profile of organisms exposed to dimethoate and nickel. The exposure to nickel suggested alteration in growth, moult, haemocyanin and glutathione synthesis, energy pathways and in osmoregulation. As for the exposure to dimethoate alterations in osmoregulation, energy pathways, moult and neurotransmission were also suggested. In this work it was also presented the first full body transcriptome of a terrestrial isopod from the species Porcellionides pruinosus, which will complement the scarce information available for this group of organisms. This transcriptome also served as base for a RNA-Seq and a RT-qPCR analysis. The results of the RNA-Seq analysis performed in organisms exposed to nickel showed that this stressor negatively impacted at the genetic and epigenetic levels, in the trafficking, storage and elimination of metals, generates oxidative stress, inducing neurotoxicity and also affecting reproduction. These results were confirmed through RT-qPCR. As for the impact of dimethoate on these organisms it was only accessed through RT-qPCR and showed oxidative stress, an impact in neurotransmission, in epigenetic markers, DNA repair and cell cycle impairment. This study allowed the design of an Adverse Outcome Pathway draft that can be used further on for legislative purposes.