O uso de modelos ecossistêmicos e experimentos laboratoriais para avaliação dos efeitos do agrotóxico Mythos® (i.e. pyrimethanil) em ecossistemas aquáticos / The use of ecosystem models and laboratory experiments to assess the effects the pesticide Mythos® (a.i. pyrimethanil) in aquatic ecosystems

Mendes, Lucas Bueno

01 December 2015

O aumento do consumo de agrotóxicos, em geral nos países em desenvolvimento cuja base econômica é a agricultura, como no Brasil (primeiro no ranking mundial), tem sido relacionado à expansão da degradação dos ecossistemas e à perda da biodiversidade, principalmente das espécies não alvo, incluindo ainda os riscos inerentes à saúde humana. Além disso, a ausência de políticas e programas mais efetivos relacionados à regulação e uso de agrotóxicos no Brasil, bem como o estabelecimento de normas restritivas baseadas em resultados gerados em países de clima temperado, tornam-se cada vez mais preocupantes, pois podem subestimar os reais riscos da contaminação ambiental por agrotóxicos em ecossistemas tropicais. Nesse contexto, o presente estudo teve como objetivo avaliar os efeitos diretos e indiretos do agrotóxico pyrimethanil, um fungicida utilizado em diversas culturas de climas temperado e tropical, sobre a comunidade aquática tropical, considerando experimentos laboratoriais e o uso de modelos ecossistêmicos para avaliação destes efeitos. Para atender aos objetivos propostos foram realizados testes de toxicidade com as espécies Pseudokirchneriella subcapitata (alga), Ceriodaphnia silvestrii e Daphnia similis (zooplâncton) e Danio rerio (peixes), além de um experimento em mesocosmos, monitorado em longo prazo (durante 15 dias antes e 366 dias após a contaminação), avaliando as variações físicas e químicas, bem como as respostas das comunidades zooplanctônicas e fitoplanctônicas frente à contaminação por pyrimethanil, em uma concentração média de 1,36 mg.L-1. Nos testes de toxicidade, as CEs obtidas foram de 0,67 mg.L-1 (crônica) e 3,26 mg.L-1 (aguda) para C. silvestrii; de 3,65 mg.L-1 (agudo) para D. similis; de 9,65 mg.L-1 para P. subcapitata e para D. rerio os valores obtidos para imobilidade foram de 10,45 mg.L-1 (96h) e 13,77 mg.L-1(48h) e para a mortalidade foram de 27,45 mg.L-1 (96h) e 32,17 mg.L-1 (48h). Pelos resultados dos experimentos em mesocosmos verificaram-se efeitos negativos diretos sobre o zooplâncton (redução da densidade e alteração na composição de espécies) e indiretos sobre o fitoplâncton, decorrentes da diminuição da pressão de pastagem, além do desaparecimento de algumas espécies mais sensíveis. Os efeitos tóxicos observados foram além do período em que foi observada a degradação completa do pyrimethanil, demonstrando o alto impacto do agrotóxico em ecossistemas aquáticos e a complexidade da dinâmica desse tipo de contaminação em ecossistemas naturais. O design experimental revelou-se adequado, gerando informações importantes sobre os impactos dos agrotóxicos nos ecossistemas aquáticos. A partir dos resultados obtidos sugere-se que a utilização de espécies nativas de regiões tropicais seja ampliada nos testes de toxicidade laboratoriais, sendo fundamental que os mesmos sejam complementados com os experimentos em modelos ecossistêmicos, o que permite uma avaliação dos efeitos diretos e indiretos dos contaminantes em nível de população e comunidade, bem como uma melhor compreensão destes efeitos nas funções e serviços ecossistêmicos. / The increase in the consumption of pesticides, mainly in developing countries whose economic base is agriculture, as Brazil (first in the world ranking), has been associated to the expansion of ecosystem degradation and biodiversity losses, especially of non-target species, also including the risks to human health. In addition, the absence of policies and effective programs related to the regulation and use of pesticides in Brazil, and the establishment of restrictive standards based on results generated in temperate countries, make it becomes increasingly worrisome because it may underestimate the real risks of environmental contamination by pesticides in tropical ecosystems. In this context, the present study aim to evaluate the direct and indirect effects of the pesticide pyrimethanil, a fungicide used in many temperate and tropical crops, upon a tropical aquatic community, considering laboratory experiments and the use of ecosystem models to evaluate these effects. To achieve the proposed objectives toxicity tests were performed with the species Pseudokirchneriella subcapitata (algae), Ceriodaphnia silvestrii and Daphnia similis (zooplankton) and Danio rerio (fish), as well as an experiment in mesocosms, monitored for a long-term (15 days before and 366 days after infection), evaluating the physical and chemical variations, and also the responses of phytoplankton and zooplankton communities across the pyrimethanil contamination in an average concentration of 1.36 mg.L-1. In toxicity tests, the ECs obtained were 0.67 mg.L-1 (chronic) and 3.26 mg L-1 (acute) for C. silvestrii; 3,65 mg.L-1 (acute) for D. similis; 9.65 mg.L-1 for P. subcapitata; and the values obtained for D. rerio immobility were 10.45 mg.L-1 (96h) and 13.77 mg.L-1 (48h) and mortality were 27.45 mg.L-1 (96h) and 32.17 mg.L-1 (48h). The results of the experiments in mesocosms showed direct negative effects on zooplankton (reduced density and change in species composition) and indirect effects on phytoplankton, resulted from the decrease in grazing pressure in addition to the exclusion of some sensitive species. Even after the complete degradation of pyrimethanil, toxic effects were observed, demonstrating the high impact of this pesticide on aquatic ecosystems and the complexity of the dynamics of this type of contamination in natural ecosystems. The design of the experiment revealed to be appropriate for the study, generating important information about the impacts of pesticides on aquatic ecosystems. From the results, it is suggested an increase in the use of native tropical species in the toxicity laboratory tests. Also, this process should be complemented with experiments in ecosystem models, allowing the evaluation of the direct and indirect effects of contaminants in the population and in community level as well as a better understanding of these effects on ecosystem functions and services.

Agrotóxicos

Clima tropical

Comunidade planctônica

Ecotoxicologia

Ecotoxicology

Fungicidas

Fungicide

Mesocosmos

Mesocosms

Pesticides

Plankton community

Tropical weather

O uso de modelos ecossistêmicos e experimentos laboratoriais para avaliação dos efeitos do agrotóxico Mythos® (i.e. pyrimethanil) em ecossistemas aquáticos / The use of ecosystem models and laboratory experiments to assess the effects the pesticide Mythos® (a.i. pyrimethanil) in aquatic ecosystems

Lucas Bueno Mendes

01 December 2015

O aumento do consumo de agrotóxicos, em geral nos países em desenvolvimento cuja base econômica é a agricultura, como no Brasil (primeiro no ranking mundial), tem sido relacionado à expansão da degradação dos ecossistemas e à perda da biodiversidade, principalmente das espécies não alvo, incluindo ainda os riscos inerentes à saúde humana. Além disso, a ausência de políticas e programas mais efetivos relacionados à regulação e uso de agrotóxicos no Brasil, bem como o estabelecimento de normas restritivas baseadas em resultados gerados em países de clima temperado, tornam-se cada vez mais preocupantes, pois podem subestimar os reais riscos da contaminação ambiental por agrotóxicos em ecossistemas tropicais. Nesse contexto, o presente estudo teve como objetivo avaliar os efeitos diretos e indiretos do agrotóxico pyrimethanil, um fungicida utilizado em diversas culturas de climas temperado e tropical, sobre a comunidade aquática tropical, considerando experimentos laboratoriais e o uso de modelos ecossistêmicos para avaliação destes efeitos. Para atender aos objetivos propostos foram realizados testes de toxicidade com as espécies Pseudokirchneriella subcapitata (alga), Ceriodaphnia silvestrii e Daphnia similis (zooplâncton) e Danio rerio (peixes), além de um experimento em mesocosmos, monitorado em longo prazo (durante 15 dias antes e 366 dias após a contaminação), avaliando as variações físicas e químicas, bem como as respostas das comunidades zooplanctônicas e fitoplanctônicas frente à contaminação por pyrimethanil, em uma concentração média de 1,36 mg.L-1. Nos testes de toxicidade, as CEs obtidas foram de 0,67 mg.L-1 (crônica) e 3,26 mg.L-1 (aguda) para C. silvestrii; de 3,65 mg.L-1 (agudo) para D. similis; de 9,65 mg.L-1 para P. subcapitata e para D. rerio os valores obtidos para imobilidade foram de 10,45 mg.L-1 (96h) e 13,77 mg.L-1(48h) e para a mortalidade foram de 27,45 mg.L-1 (96h) e 32,17 mg.L-1 (48h). Pelos resultados dos experimentos em mesocosmos verificaram-se efeitos negativos diretos sobre o zooplâncton (redução da densidade e alteração na composição de espécies) e indiretos sobre o fitoplâncton, decorrentes da diminuição da pressão de pastagem, além do desaparecimento de algumas espécies mais sensíveis. Os efeitos tóxicos observados foram além do período em que foi observada a degradação completa do pyrimethanil, demonstrando o alto impacto do agrotóxico em ecossistemas aquáticos e a complexidade da dinâmica desse tipo de contaminação em ecossistemas naturais. O design experimental revelou-se adequado, gerando informações importantes sobre os impactos dos agrotóxicos nos ecossistemas aquáticos. A partir dos resultados obtidos sugere-se que a utilização de espécies nativas de regiões tropicais seja ampliada nos testes de toxicidade laboratoriais, sendo fundamental que os mesmos sejam complementados com os experimentos em modelos ecossistêmicos, o que permite uma avaliação dos efeitos diretos e indiretos dos contaminantes em nível de população e comunidade, bem como uma melhor compreensão destes efeitos nas funções e serviços ecossistêmicos. / The increase in the consumption of pesticides, mainly in developing countries whose economic base is agriculture, as Brazil (first in the world ranking), has been associated to the expansion of ecosystem degradation and biodiversity losses, especially of non-target species, also including the risks to human health. In addition, the absence of policies and effective programs related to the regulation and use of pesticides in Brazil, and the establishment of restrictive standards based on results generated in temperate countries, make it becomes increasingly worrisome because it may underestimate the real risks of environmental contamination by pesticides in tropical ecosystems. In this context, the present study aim to evaluate the direct and indirect effects of the pesticide pyrimethanil, a fungicide used in many temperate and tropical crops, upon a tropical aquatic community, considering laboratory experiments and the use of ecosystem models to evaluate these effects. To achieve the proposed objectives toxicity tests were performed with the species Pseudokirchneriella subcapitata (algae), Ceriodaphnia silvestrii and Daphnia similis (zooplankton) and Danio rerio (fish), as well as an experiment in mesocosms, monitored for a long-term (15 days before and 366 days after infection), evaluating the physical and chemical variations, and also the responses of phytoplankton and zooplankton communities across the pyrimethanil contamination in an average concentration of 1.36 mg.L-1. In toxicity tests, the ECs obtained were 0.67 mg.L-1 (chronic) and 3.26 mg L-1 (acute) for C. silvestrii; 3,65 mg.L-1 (acute) for D. similis; 9.65 mg.L-1 for P. subcapitata; and the values obtained for D. rerio immobility were 10.45 mg.L-1 (96h) and 13.77 mg.L-1 (48h) and mortality were 27.45 mg.L-1 (96h) and 32.17 mg.L-1 (48h). The results of the experiments in mesocosms showed direct negative effects on zooplankton (reduced density and change in species composition) and indirect effects on phytoplankton, resulted from the decrease in grazing pressure in addition to the exclusion of some sensitive species. Even after the complete degradation of pyrimethanil, toxic effects were observed, demonstrating the high impact of this pesticide on aquatic ecosystems and the complexity of the dynamics of this type of contamination in natural ecosystems. The design of the experiment revealed to be appropriate for the study, generating important information about the impacts of pesticides on aquatic ecosystems. From the results, it is suggested an increase in the use of native tropical species in the toxicity laboratory tests. Also, this process should be complemented with experiments in ecosystem models, allowing the evaluation of the direct and indirect effects of contaminants in the population and in community level as well as a better understanding of these effects on ecosystem functions and services.

Agrotóxicos

Clima tropical

Comunidade planctônica

Ecotoxicologia

Fungicidas

Mesocosmos

Ecotoxicology

Fungicide

Mesocosms

Pesticides

Plankton community

Tropical weather

Structure of the Tropical Easterly Jet in NCAR CAM-3.1 GCM

Rao, Samrat

January 2013

This thesis examines the structure of the Tropical Easterly Jet (TEJ) in a General Circulation Model (GCM). The TEJ is observed only during the Indian summer monsoon period and is strongest during July and August. The jet structure simulated by an atmospheric GCM (CAM-3.1) in July has been compared with reanalysis data. The simulated TEJ was displaced westward by ~ 25◦ when compared to observations. The removal of orography had no impact on the jet structure. This demonstrated that the Tibetan Plateau did not play an important role in the location and structure of the jet. The changes in cumulus scheme in the GCM had a large influence on the location of the jet maxima. To examine the factors which control the location and structure of the jet, a series of experiments were conducted using an aqua-planet version of the model. The impact of different sea surface temperature (SST) profiles was studied. The rainfall in the GCM was primarily in the regions where the SST attained a maximum. By altering the location of SST maximum (and hence the rainfall maximum), the impact of location of rainfall maximum on the location and structure of the jet was studied. When the rainfall maximum was located close to the equator, it did not generate a strong jet but had an influence on the vertical structure of the jet. A large number of simulations were conducted with multiple rainfall maxima and the need for these was demonstrated since only then was the observed jet structure well simulated. Based on the simulations, it was concluded that the simulation of the TEJ by CAM-3.1 was unrealistic because of large unrealistic rainfall over Saudi Arabia in this GCM. Equatorial heating has been shown to be important to simulate proper jet structure. The zonal structure of the jet was also influenced by rainfall in the Pacific Ocean. Although the aqua-planet configuration of the CAM-3.1 GCM provided several useful insights, the simulation was not perfect on account of errors in the simulation of the temperature profile in the lower troposphere. An ideal-physics configuration of the GCM was used. This removed the cumulus physics and instead imposed the observed heating pro-files. Both upper tropospheric friction and radiative-convective atmospheric temperatures were required to simulate the TEJ. The problems with the simulation of structure in the jet exit region was corrected by using radiative-convective atmospheric temperatures that were qualitatively similar to those observed in northern hemisphere summer time. The ideal-physics configuration reconfirmed that the Saudi Arabian rainfall was responsible for the westward shift of the TEJ in the simulations. The ideal-physics simulations showed that the simple analytical model proposed by Gillin1980 was not suitable for the simulation of TEJ. The above the simulations indicate that a shift in the location of the jet is related to a shift in the rainfall pattern. Based on this insight one would expect that the jet location will be different in good and bad monsoon periods. This is indeed the case. In July 2002 the Indian monsoon failed after beginning well in June. In June the TEJ is consequently located west ward compared to July. The same situation prevails even in good and poor monsoon years. In a good monsoon year (July 1988) the jet maximum is located westward when compared to a bad monsoon year (July 2002). In this thesis we have clearly demonstrated the role of anomalous rainfall on the location of the TEJ. This thesis has shown that an accurate simulation of the TEJ depends upon the accurate simulation of various rainfall centers that act as multiple heat sources in the atmosphere. The rainfall in the equatorial region does not influence the strength of the TEJ but alters the vertical structure of the jet. The strength the jet is dependent on the intensity of rainfall and the latitudinal distance from the equator. The complex vertical structure of the jet is not simulated by simple analytical models of the jet.

Tropical Easterly Jet (TEJ)

General Circulation Model (GCM)

Community Atmosphere Model-CAM 3.1

Tropical Weather Patterns

Tropical Easterly Jet - Structure

Tropical Easterly Jet - Simulations

Indian Summer Monsoon

Atmospheric General Circulation Model

Tropospheric Friction

Atmospheric Temperatures

Aqua-Planet Simulations

Meteorology