The Role of Iron and Anthropogenic Activities in Eutrophication: A Contemporary and Paleolimnological Study

Varin, Marie-Pierre

January 2016

In this study, I examined water chemistry of 31 Canadian Shield lakes in relation to catchment characteristics to test the hypothesis that Shield lakes with more marble may exhibit iron (Fe) deficiency and, hence, be more vulnerable to eutrophication. I performed a diatom-based paleolimnological reconstruction of one of these lakes (Heney Lake), which was subjected to anthropogenic stresses including a fish farm. Results suggest that the presence of marble influenced lake chemistry, including lowering the ratio of Fe: P. The reconstruction of historical P concentrations was not statistically possible but past Fe could be inferred, which no previous study has attempted. Certain eutrophication-associated diatom species suggest that logging and European settlement beginning in the early XXth century led to a slight increase in nutrient concentrations. However, a more important diatom species shift was likely related to climate change, as observed in other temperate lakes worldwide.

Paleolimnology

Diatoms

Climate change

Lake management

Lake eutrophication

Utilização de macrófitas aquáticas na produção de adobe: um estudo de caso no reservatório de Salto Grande (Americana - SP) / Utilization of aquatic macrophytes in the adobe’s production: a case study in the Salto Grande reservoir (Americana – SP)

Faria, Obede Borges

28 October 2002

Este trabalho busca otimizar a utilização de biomassa de macrófitas aquáticas na produção de adobe (tijolos de terra crua, secos ao sol), baseado na determinação e estudo de suas características físicas e mecânicas, assim como nas características físicas e químicas destas plantas. A pesquisa foi desenvolvida no reservatório de Salto Grande, no município de Americana - SP. Este lago está localizado em uma área com déficit de habitações de interesse social, apresentando altos índices de urbanização e industrialização, o que acarreta no seu avançado processo de eutrofização artificial, decorrente das ações antrópicas. As macrófitas aquáticas predominantes no reservatório (Brachiaria arrecta, Eichhornia crassipes e Pistia stratiotes) apresentam níveis elevados de metais pesados e nutrientes (nitrogênio e fósforo), o que torna inviável sua utilização como forragem ou fertilizante. A utilização desta biomassa em materiais de construção é aqui apresentada como uma alternativa de manejo integrado do lago, na forma de encapsulamento (ou solidificação / estabilização) destas substâncias químicas, além de possibilitar a autoconstrução de habitações de baixo custo. Uma outra função do uso da biomassa no adobe é a estabilização do solo, que apresenta alto teor de argila (59 %, com 21 % de silte e 20 % de areia, classificado como A-7-6 HRB) e sofreria grandes retrações durante o processo de secagem, com surgimento de fissuras excessivas e conseqüente redução de resistência mecânica dos tijolos. A adição da biomassa contribuiu com a redução destas fissuras e da massa específica dos tijolos. Os resultados demonstraram ser esta utilização perfeitamente viável, com expressiva retirada de biomassa (juntamente com os metais e nutrientes) do sistema, além de significativas melhorias na qualidade do adobe, tanto físicas como mecânicas. Em linhas gerais, Eichhornia crassipes se mostrou a mais eficiente neste aspecto. Além de tudo, os resultados da pesquisa mostram que, apesar do adobe ser talvez o mais antigo material de construção manufaturado, sua aplicação se mostra perfeitamente viável, numa perspectiva mais ampla de sustentabilidade, se apresentando como um material completamente ecológico e adequado para regiões tropicais. / This work intends to optimise the utilization of aquatic macrophyte biomass in the adobe (a sun-dried mud brick) production, based on the study of the physical and mechanical characteristics of these bricks and the macrophytes biomass estimate as well as their chemical characteristics. The research was developed in the Salto Grande Reservoir region, in Americana (a town in São Paulo State, Brazil). This lake is located in an area of high urbanization and industrialization level, with common dwelling deficit, which is in advanced artificial eutrophication process by human activity action. The aquatic macrophytes found in that place (Brachiaria arrecta, Eichhornia crassipes and Pistia stratiotes) present a high level of heavy metals and nutrients that make impracticable their utilization as forage or fertilizer. The biomass utilization in the construction of materials appears here as an alternative of integrated management of the lake in the stabilization/solidification (or “encapsulation") of these chemical substances, in addition to the fact that it makes possible the self-building of low cost dwellings. The other biomass function is to stabilize the soil that has a high clay concentration (59%, with 21% silt and 20% sandy) and would suffer a large drawing back during the drying process, with the introduction of excessive fissures. This biomass addition was made to reduce these fissures and the specific mass of the bricks. Besides, the research results show that, even though the adobe bricks are perhaps the oldest manufactured building material, their application persists practicable mainly in the sustainability hopes for being a completely ecological building material and adequate for the tropical regions.

adobe

aquatic macrophytes

building materials

construção em terra

earth construction

eutrofização de lagos

integrated management of reservoirs

lake eutrophication

macrófitas aquáticas

manejo integrado de reservatórios

materiais de construção

nutrientes

nutrients

Utilização de macrófitas aquáticas na produção de adobe: um estudo de caso no reservatório de Salto Grande (Americana - SP) / Utilization of aquatic macrophytes in the adobe’s production: a case study in the Salto Grande reservoir (Americana – SP)

Obede Borges Faria

28 October 2002

Este trabalho busca otimizar a utilização de biomassa de macrófitas aquáticas na produção de adobe (tijolos de terra crua, secos ao sol), baseado na determinação e estudo de suas características físicas e mecânicas, assim como nas características físicas e químicas destas plantas. A pesquisa foi desenvolvida no reservatório de Salto Grande, no município de Americana - SP. Este lago está localizado em uma área com déficit de habitações de interesse social, apresentando altos índices de urbanização e industrialização, o que acarreta no seu avançado processo de eutrofização artificial, decorrente das ações antrópicas. As macrófitas aquáticas predominantes no reservatório (Brachiaria arrecta, Eichhornia crassipes e Pistia stratiotes) apresentam níveis elevados de metais pesados e nutrientes (nitrogênio e fósforo), o que torna inviável sua utilização como forragem ou fertilizante. A utilização desta biomassa em materiais de construção é aqui apresentada como uma alternativa de manejo integrado do lago, na forma de encapsulamento (ou solidificação / estabilização) destas substâncias químicas, além de possibilitar a autoconstrução de habitações de baixo custo. Uma outra função do uso da biomassa no adobe é a estabilização do solo, que apresenta alto teor de argila (59 %, com 21 % de silte e 20 % de areia, classificado como A-7-6 HRB) e sofreria grandes retrações durante o processo de secagem, com surgimento de fissuras excessivas e conseqüente redução de resistência mecânica dos tijolos. A adição da biomassa contribuiu com a redução destas fissuras e da massa específica dos tijolos. Os resultados demonstraram ser esta utilização perfeitamente viável, com expressiva retirada de biomassa (juntamente com os metais e nutrientes) do sistema, além de significativas melhorias na qualidade do adobe, tanto físicas como mecânicas. Em linhas gerais, Eichhornia crassipes se mostrou a mais eficiente neste aspecto. Além de tudo, os resultados da pesquisa mostram que, apesar do adobe ser talvez o mais antigo material de construção manufaturado, sua aplicação se mostra perfeitamente viável, numa perspectiva mais ampla de sustentabilidade, se apresentando como um material completamente ecológico e adequado para regiões tropicais. / This work intends to optimise the utilization of aquatic macrophyte biomass in the adobe (a sun-dried mud brick) production, based on the study of the physical and mechanical characteristics of these bricks and the macrophytes biomass estimate as well as their chemical characteristics. The research was developed in the Salto Grande Reservoir region, in Americana (a town in São Paulo State, Brazil). This lake is located in an area of high urbanization and industrialization level, with common dwelling deficit, which is in advanced artificial eutrophication process by human activity action. The aquatic macrophytes found in that place (Brachiaria arrecta, Eichhornia crassipes and Pistia stratiotes) present a high level of heavy metals and nutrients that make impracticable their utilization as forage or fertilizer. The biomass utilization in the construction of materials appears here as an alternative of integrated management of the lake in the stabilization/solidification (or “encapsulation”) of these chemical substances, in addition to the fact that it makes possible the self-building of low cost dwellings. The other biomass function is to stabilize the soil that has a high clay concentration (59%, with 21% silt and 20% sandy) and would suffer a large drawing back during the drying process, with the introduction of excessive fissures. This biomass addition was made to reduce these fissures and the specific mass of the bricks. Besides, the research results show that, even though the adobe bricks are perhaps the oldest manufactured building material, their application persists practicable mainly in the sustainability hopes for being a completely ecological building material and adequate for the tropical regions.

adobe

construção em terra

eutrofização de lagos

macrófitas aquáticas

manejo integrado de reservatórios

materiais de construção

nutrientes

aquatic macrophytes

building materials

earth construction

integrated management of reservoirs

lake eutrophication

nutrients

Mathematical models of social-ecological systems: Coupling human behavioural and environmental dynamics

Sun, Tithnara Anthony

31 March 2020

There is an increasing concern for the impact of humans on the environment. Traditionally, ecological models consider human influence as a constant or linearly varying parameter, whereas socioeconomic models and frameworks tend to oversimplify the ecological system. But tackling complex environmental challenges faced by our societies requires interdisciplinary approaches due to the intricate feedbacks between the socioeconomic and ecological systems involved. Thus, models of social-ecological systems couple an ecological system with a socioeconomic system to investigate their interaction in the integrated dynamical system. We define this coupling formally and apply the social-ecological approach to three ecological cases. Indeed, we focus on eutrophication in shallow freshwater lakes, which is a well-known system showing bistability between a clear water state and a turbid polluted state. We also study a model accounting for an aquifer (water stock) and a model accounting for a biotic population exhibiting bistability through an Allee effect. The socioeconomic dynamics is driven by the incentive that agents feel to act in a desirable or undesirable way. This incentive can be represented by a difference in utility, or in payoff, between two strategies that each agent can adopt: agents can cooperate and act in an environment-friendly way, or they can defect and act in an ecologically undesirable way. The agents' motivation includes such factors as the economic cost of their choice, the concern they feel for the environment and conformism to the collective attitude of the human group. Thus, the incentive to cooperate responds to the state of the ecological system and to the agents' collective opinion, and this response can be linear, nonlinear and monotonic, or non-monotonic. When investigating the mathematical form of this response, we find that monotonic non-linear responses may result in additional equilibria, cycles and basins of attraction compared to the linear case. Non-monotonic responses, such as resignation effects, may produce much more complicated nullclines such as a closed nullcline and weaken our ability to anticipate the dynamics of a social-ecological system. Regarding the modelling of the socioeconomic subsystem, the replicator dynamics and the logit best-response dynamics are widely used mathematical formulations from evolutionary game theory. There seems to be little awareness about the impact of choosing one or the other. The replicator dynamics assumes that the socioeconomic subsystem is stationary when all agents adopt the same behaviour, whereas the best-response dynamics assumes that this situation is not stationary. The replicator dynamics has formal game theoretical foundations, whereas best-response dynamics comes from psychology. Recent experiments found that the best-response dynamics explains empirical data better. We find that the two dynamics can produce a different number of equilibria as well as differences in their stability. The replicator dynamics is a limit case of the logit best-response dynamics when agents have an infinite rationality. We show that even generic social-ecological models can show multistability. In many cases, multistability allows for counterintuitive equilibria to emerge, where ecological desirability and socioeconomic desirability are not correlated. This makes generic management recommendations difficult to find and several policies with and without socioeconomic impact should be considered. Even in cases where there is a unique equilibrium, it can lose stability and give rise to sustained oscillations. We can interpret these oscillations in a way similar to the cycles found in classical predator-prey systems. In the lake pollution social-ecological model for instance, the agents' defection increases the lake pollution, which makes agents feel concerned and convince the majority to cooperate. Then, the ecological concern decreases because the lake is not polluted and the incentive to cooperate plummets, so that it becomes more advantageous for the agents to defect again. We show that the oscillations obtained when using the replicator dynamics tend to produce a make-or-break dynamics, where a random perturbation could shift the system to either full cooperation or full defection depending on its timing along the cycle. Management measures may shift the location of the social-ecological system at equilibrium, but also make attractors appear or disappear in the phase plane or change the resilience of stable steady states. The resilience of equilibria relates to basins of attraction and is especially important in the face of potential regime shifts. Sources of uncertainty that should be taken into account for the management of social-ecological systems include multistability and the possibility of counterintuitive equilibria, the wide range of possible policy measures with or without socioeconomic interventions, and the behaviour of human collectives involved, which may be described by different dynamics. Yet, uncertainty coming from the collective behaviour of agents is mitigated if they do not give up or rely on the other agents' efforts, which allows modelling to better inform decision makers.

social-ecological system

social-ecological model

mathematical model

lake eutrophication

coupled human-environment system

modelling of human behaviour

multistability

oscillations

best-response

replicator

best-reply

evolutionary game theory

theoretical ecology

30.10 - Systemtheorie

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