ABSTRACT
Many vegetal species can accumulate great amounts of metallic elements in their tissues. For this reason, they are called metal hyperaccumulators. An indicator of great interest in environmental sciences is the bioconcentration factor because it is recognized for establishing the potential accumulation of chemicals in organisms. Particularly in soil phytoremediation processes, it measures the capacity of a certain plant to capture metals, in terms of soil concentration. According to their behavior, four types of plants can be distinguished regarding soil concentration increase: indicator, excluder, accumulator, and hyperaccumulator. This study proposes a new model to categorize plants according to their behavior related to soil concentration increase, using several characteristic curves obtained from 1288 experimental measurements collected from different bibliographic sources. The metals analyzed were Cu, Fe, Pb, and Zn. The proposed model is obtained through linear regression and nonlinear transformations to model the expected behavior of plants in high concentration conditions. In particular, the basic equation of the model has three key components to represent the expected concentration in the plant root given the final soil concentration level, the type of species, and specific metal: a linear factor that determines the growth for low concentration values, an exponential factor that determines its decrease for high concentration values, and a logarithmic factor that limits the maximum value that can be reached in practice and influences the decay for high concentration values. After fitting the experimental data using linear regression, the proposed model has a 0.084 R2 determination coefficient and all of its parameters are considered significant. Furthermore, it shows that 60 of the 257 species assessed behave as accumulators and 10 of them as hyperaccumulators. The main contribution of this model is its ability to handle soils with high concentrations, where it would be hard for plants to achieve concentrations similar to or higher than the substrate containing them. Thus, the conventional criterion of the bioconcentration factor would incorrectly categorize a plant as an excluder. In contrast, this new model allows assessing plant effectiveness in a phytoremediation process of highly concentrated affected sites, such as mine tailings.
Subject(s)
Metals, Heavy , Soil Pollutants , Soil , Soil Pollutants/analysis , Metals, Heavy/analysis , Plants , Biodegradation, EnvironmentalABSTRACT
Visando medir a força de contração dos músculos abdutores do polegar e do quinto dedo foi desenvolvido um transdutor do tipo resistivo ("strain gauge"), fixado a um "splint" e conectado a um microcomputador. Este deverá registrar as forças durante contrações isométricas máximas, permitindo avaliações periódicas de pacientes portadores de lesão nervosa.
Abstraet: The prototype of a device for measuring the strength of the abductor muscules of both the thumb and fifth finner was developed. Composed of a resistive type transducer (strain gauge) fixed onto a splint and conected to a microcomputer. it will register the strength during maximal isometric contractions, allowing for periodic evaluations of pacients with nerve injuries
