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Published on January 1, 2008

Author: Columbia

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Applications of Regression to Water Quality Analysis:  Applications of Regression to Water Quality Analysis Unite 5: Module 18, Lecture 1 Statistics:  Statistics A branch of mathematics dealing with the collection, analysis, interpretation and presentation of masses of numerical data Descriptive Statistics (Lecture 1) Basic description of a variable Hypothesis Testing (Lecture 2) Asks the question – is X different from Y? Predictions (Lecture 3) What will happen if… Objectives:  Objectives Introduce the basic concepts and assumptions of regression analysis Making predictions Correlation vs. causal relationships Applications of regression Basic linear regression Assumptions Techniques What if it is not linear: data transformations Water quality applications of regression analyses Survey of regression software Regression defined:  Regression defined A statistical technique to define the relationship between a response variable and one or more predictor variables Here, fish length is a predictor variable (also called an “independent” variable. Fish weight is the response variable Regression and correlation:  Regression and correlation Regression: Identify the relationship between a predictor and response variables Correlation Estimate the degree to which two variables vary together Does not express one variable as a function of the other No distinction between dependent and independent variables Do not assume that one is the cause of the other Do typically assume that the two variable are both effects of a common cause Basic linear regression:  Basic linear regression Assumes there is a straight-line relationship between a predictor (or independent) variable X and a response (or dependent) variable Y Equation for a line: Y = mX + b m – the slope coefficient (increase in Y per unit increase in X) b – the constant or Y Intercept (value of Y when X=0) Basic linear regression:  Basic linear regression Assumes there is a straight-line relationship between a predictor (or independent) variable X and a response (or dependent) variable Y Regression analysis finds the ‘best fit’ line that describes the dependence of Y on X Basic linear regression:  Basic linear regression Assumes there is a straight-line relationship between a predictor (or independent) variable X and a response (or dependent) variable Y Outputs of regression Regression model Y = mX + b Weight = 4.48*Length + -28.722 Basic linear regression:  Basic linear regression Assumes there is a straight-line relationship between a predictor (or independent) variable X and a response (or dependent) variable Y Outputs of regression Regression model Y = mx + b Weight = 4.48*Length + -28.722 Coefficient of Determination R2 = 0.89 How good is the fit? The Coefficient of Determination:  How good is the fit? The Coefficient of Determination R2: The proportion of the total variation that is explained by the regression Coefficient of determination R2 = 0.89 Ranges from 0.00 to 1.00 0.00 – No correlation 1.00 – Perfect correlation no scatter around line Example coefficients of determination:  Example coefficients of determination Four assumptions of linear regression -adapted from Sokal and Rohlf (1981):  Four assumptions of linear regression -adapted from Sokal and Rohlf (1981) The independent variable X is measured without error Under control of the investigator X’s are ‘fixed’ Four assumptions of linear regression -adapted from Sokal and Rohlf (1981):  Four assumptions of linear regression -adapted from Sokal and Rohlf (1981) The independent variable X is measured without error Under control of the investigator X’s are ‘fixed’ The expected value for Y for a given value of X is described by the linear function Y = mX +b Four assumptions of linear regression -adapted from Sokal and Rohlf (1981):  Four assumptions of linear regression -adapted from Sokal and Rohlf (1981) The independent variable X is measured without error Under control of the investigator X’s are ‘fixed’ The expected value for Y for a given value of X is described by the standard linear function y = mx +b For any value of X, the Y’s are independently and normally distributed Scan figure 14.4 from S&R Four assumptions of linear regression -adapted from Sokal and Rohlf (1981):  Four assumptions of linear regression -adapted from Sokal and Rohlf (1981) The independent variable X is measured without error Under control of the investigator X’s are ‘fixed’ The expected value for Y for a given value of X is described by the standard linear function y = mx +b For any value of X, the Y’s are independently and normally distributed Scan figure 14.4 from S&R The variance around the regression line is constant; variability of Y does not depend on value of X Extra credit word: the samples are homoscedastic Data transformations: What if data are not linear?:  It is often possible to ‘linearize’ data in order to use linear models This is particularly true of exponential relationships Data transformations: What if data are not linear? Applications: Standard curves for lab analyses:  Applications: Standard curves for lab analyses A classic use of regression: calibrate a lab instrument to predict some response variable – a “calibration curve” In this example, absorbance from a spectrophotometer is measured from series of standards with fixed N concentrations. Once the relationship between absorbance and concentration is established, measuring the absorbance of an unknown sample can be used to predict its N concentration Using regression to estimate stream nutrient and bacteria concentrations in streams:  The USGS has real time water quality monitors installed at several stream gaging sites in Kansas Using regression to estimate stream nutrient and bacteria concentrations in streams Using regression to estimate stream nutrient and bacteria concentrations in streams: data flow:  Using regression to estimate stream nutrient and bacteria concentrations in streams: data flow Using Regression to estimate stream nutrient and bacteria concentrations in streams: Results:  Using Regression to estimate stream nutrient and bacteria concentrations in streams: Results USGS developed a series of single or multiple regression models Total P = 0.000606*Turbidity + 0.186 R2=0.964 Total N = 0.0018*Turbidity + 0.0000940*Discharge + 1.08 R2=0.916 Total N = 0.000325 * Turbidity + 0.0214 * Temperature + 0.0000796*Conductance + 0.515 R2=0.764 Fecal Coliform = 3.14 * Turbidity + 24.2 R2=0.62 Using Regression to estimate stream nutrient and bacteria concentrations in streams: Important Considerations:  Using Regression to estimate stream nutrient and bacteria concentrations in streams: Important Considerations Explanatory variables were only included if they had a significant physical basis for their inclusion Water temperature is correlated with season and therefore application of fertilizers Conductance is inversely related to TN and TP, which tend to be high during high flow Turbitidy is a measure of particulate matter – TN and TP are related to sediment loads The USGS needed a separate model for each stream! The basins were different enough that a general model could not be developed By using the models with the real-time sensors, USGS can predict events, e.g. when fecal coliform concentrations exceed criteria Measured and regression estimated density:  Measured and regression estimated density Using regression to estimate stream nutrient and bacteria concentrations in streams: Important Considerations:  Using regression to estimate stream nutrient and bacteria concentrations in streams: Important Considerations Explanatory variables were only included if they had a significant physical basis for their inclusion Water temperature is correlated with season and therefore application of fertilizers Conductance is inversely related to TN and TP, which tend to be high during high flow Turbitidy is a measure of particulate matter – TN and TP are related to sediment loads The USGS needed a separate model for each stream! The basins were different enough that a general model could not be developed By using the models with the real-time sensors, USGS can predict events, e.g. when fecal coliform concentrations exceed criteria Concentration estimates can be coupled with flow data to estimate nutrient loads Finally, these regressions can be useful tools for estimating TMDL’s Software for regression analyses:  Software for regression analyses Any basic statistical package will do regressions SigmaStat Systat SAS Excel and other spreadsheets also have regression functions Excel requires the Analysis Toolpack Add-in Tools > Add-in > Analysis ToolPack

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