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Data and Interpretation

Data and Interpretation. What have you learnt?. The delver into nature’s aims Seeks freedom and perfection; Let calculation sift his claims With faith and circumspection -Goethe.

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Data and Interpretation

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  1. Data and Interpretation What have you learnt?

  2. The delver into nature’s aims Seeks freedom and perfection; Let calculation sift his claims With faith and circumspection -Goethe

  3. Numerical approaches can never dispense … researchers from reflection on observations. Data analysis must be seen as an objective and non-exclusive approach to carry out in-depth analysis of the data. Legendre and Legendre

  4. Organization of this presentation • The scientific method – from the question to the answer and back again • Data analysis – beyond statistical inference (some tools) • From analysis to conclusions – modeling • Causal loop diagrams – a useful tool for beginning to explore modeling • Some practical things about drawing conclusions from data and models – fitting your data into what is already known, extrapolation and speculation • Updating theory and practice

  5. New hypotheses General Research Area Specific problem Sampling and lab work Data analysis and interpretation Conclusions Unusable data

  6. Analysis:Beyond statistical inference

  7. Autocorrelation and spatial structure Spatial heterogeneity is a functional characteristic of many systems and is not the result of random or noise generating processes. Autocorrelation: The value of yj observed at site j is assumed to be the overall mean of the process (my) plus a weighted sum of the centered values (yi – my) at surrounding sites. Yj = my +Sf(yi-my) + ej i2 i3 j i1 i4

  8. Spatial dependence If there is no auto-correlation in the variable of interest, spatial variability may be the result of explanatory variables exhibiting spatial structure Yj = my + f( explanatory variables) + ej

  9. Correlograms Variograms Periodograms Many tools exist for spatial analysis The nature of the shapes of these graphical models are indicative of the nature of the processes that create spatial autocorrelation

  10. Some applications • Biogeochemical cycles • Hydrology • Poverty dynamics • Vegetation structure

  11. Mapping • Trend surface analysis - a regression approach • Interpolated maps – contour maps generated from a regular grid of measurements • Kriging – a geostatistical approach based on semivariance analysis

  12. Classification Many research goals involve classifying objects that are sufficiently similar into useful or recognizable categories.

  13. Cluster analysis Multidimensional analysis Partition a dataset into subsets Subsets form a series of mutually exclusive cells

  14. Example of hierarchically nested partitions

  15. Ordination in reduced space Many multivariate datasets have more dimensions than we can easily comprehend or manipulate in a meaningful way. There are a number of techniques to reduce the dimensionality of these datasets Meaningful relationships are deduced from the relative positions of observation units in this reduced space

  16. Factor analysis • Frequently used in the social sciences • Aims at representing the covariance structure of the dataset in terms of a predetermined causal model

  17. Principal components analysis Similar to factor analysis, but for quantitative data. Analysis generates new axes that capture the variance

  18. General Research Area Specific problem Sampling and lab work Data analysis and interpretation Conclusions Unusable data

  19. Modeling • Conceptual models • Numerical models • Application models – based on laws and theories • Calculation tools – based on empirical relationships and correlations

  20. Conceptual model

  21. Modeling for a purpose • Throwaway models – used to improve the understanding of how a system is functioning in a specific study • Career models – Some scientists make a career out of one or a few models

  22. Causal loop diagrams:A tool to help understand your system and begin to model it

  23. Causal loop diagrams • Capturing your hypotheses about the causes of dynamics • Capturing mental models of individuals and teams • Understanding important feedbacks that may be operating in a system

  24. What would happen if a variable were to change + - B Birth rate Population Death rate R + - + + Fractional Birth Rate Average Lifetime

  25. Positive feedbacks of fire risk in Amazon basin

  26. These an many other techniques can be useful in probing data beyond statistical inferences to gain deeper insight into your data

  27. Beyond analysis of your data • What is known about your subject from other studies? • Don’t just compare your results to the results of others, synthesize what is known from other work and use the synthesis to put your new knowledge into context • Dig to understand what is different about your system and what novel knowledge you have generated

  28. Speculation • Build your discussion on your data, not on speculation. • Clearly label speculation in your discussion • Speculation is never the basis for a conclusion

  29. Extrapolation

  30. Extrapolation

  31. Extrapolation I have seen a number of papers that extrapolate to the globe based on one or two observations. They rarely get it right.

  32. New hypotheses General Research Area Specific problem Sampling and lab work Data analysis and interpretation Conclusions Unusable data

  33. Updating theory and practice • Science works incrementally • One paper is rarely sufficient to update theory or practice • Interpret your results appropriately, but do not over interpret them

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