Least-Squares Analysis of Phosphorus Soil Sorption Data with Weighting from Variance Function Estimation: A Statistical Case for the Freundlich Isotherm
Phosphorus soil sorption data are typically fitted to simple isotherms for the purpose of compactly summarizing experimental results and extrapolating beyond the range of measurements. Here, the question of which of the commonly preferred modelsLangmuir and Freundlichis better, is addressed using...
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| Published in | Environmental science & technology Vol. 44; no. 13; pp. 5029 - 5034 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Washington, DC
American Chemical Society
01.07.2010
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0013-936X 1520-5851 1520-5851 |
| DOI | 10.1021/es100535b |
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| Abstract | Phosphorus soil sorption data are typically fitted to simple isotherms for the purpose of compactly summarizing experimental results and extrapolating beyond the range of measurements. Here, the question of which of the commonly preferred modelsLangmuir and Freundlichis better, is addressed using weighted least-squares, with weights obtained by variance function analysis of replicate data. Proper weighting in this case requires attention to a special problemthat the dependent variable S is not measured, rather is calculated from the measured equilibrium concentration C. The latter is commonly taken as the independent variable but is subject to experimental error, violating a fundamental least-squares assumption. This problem is handled through an effective variance treatment. When the data are fitted to the Langmuir, Freundlich, and Temkin isotherms, only the Freundlich model yields a statistically adequate χ2 value, and then only when S is taken to include labile residual P (S 0) estimated from isotope-exchange experiments. The Freundlich model also yields good estimates of S 0 when this is treated as an adjustable parameter rather than a known quantityof relevance to studies in which S 0 is not measured. By contrast, neglect of weights and labile P can lead to a mistaken preference for the Langmuir model. |
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| AbstractList | Phosphorus soil sorption data are typically fitted to simple isotherms for the purpose of compactly summarizing experimental results and extrapolating beyond the range of measurements. Here, the question of which of the commonly preferred models-Langmuir and Freundlich-is better, is addressed using weighted least-squares, with weights obtained by variance function analysis of replicate data. Proper weighting in this case requires attention to a special problem-that the dependent variable S is not measured, rather is calculated from the measured equilibrium concentration C. The latter is commonly taken as the independent variable but is subject to experimental error, violating a fundamental least-squares assumption. This problem is handled through an effective variance treatment. When the data are fitted to the Langmuir, Freundlich, and Temkin isotherms, only the Freundlich model yields a statistically adequate chi(2) value, and then only when S is taken to include labile residual P (S(0)) estimated from isotope-exchange experiments. The Freundlich model also yields good estimates of S(0) when this is treated as an adjustable parameter rather than a known quantity-of relevance to studies in which S(0) is not measured. By contrast, neglect of weights and labile P can lead to a mistaken preference for the Langmuir model.Phosphorus soil sorption data are typically fitted to simple isotherms for the purpose of compactly summarizing experimental results and extrapolating beyond the range of measurements. Here, the question of which of the commonly preferred models-Langmuir and Freundlich-is better, is addressed using weighted least-squares, with weights obtained by variance function analysis of replicate data. Proper weighting in this case requires attention to a special problem-that the dependent variable S is not measured, rather is calculated from the measured equilibrium concentration C. The latter is commonly taken as the independent variable but is subject to experimental error, violating a fundamental least-squares assumption. This problem is handled through an effective variance treatment. When the data are fitted to the Langmuir, Freundlich, and Temkin isotherms, only the Freundlich model yields a statistically adequate chi(2) value, and then only when S is taken to include labile residual P (S(0)) estimated from isotope-exchange experiments. The Freundlich model also yields good estimates of S(0) when this is treated as an adjustable parameter rather than a known quantity-of relevance to studies in which S(0) is not measured. By contrast, neglect of weights and labile P can lead to a mistaken preference for the Langmuir model. Phosphorus soil sorption data are typically fitted to simple isotherms for the purpose of compactly summarizing experimental results and extrapolating beyond the range of measurements. Here, the question of which of the commonly preferred models--Langmuir and Freundlich--is better, is addressed using weighted least-squares, with weights obtained by variance function analysis of replicate data. Proper weighting in this case requires attention to a special problem--that the dependent variable S is not measured, rather is calculated from the measured equilibrium concentration C. The latter is commonly taken as the independent variable but is subject to experimental error, violating a fundamental least-squares assumption. This problem is handled through an effective variance treatment. When the data are fitted to the Langmuir, Freundlich, and Temkin isotherms, only the Freundlich model yields a statistically adequate x2 value, and then only when S is taken to include labile residual P (S0) estimated from isotope-exchange experiments. The Freundlich model also yields good estimates of S0 when this is treated as an adjustable parameter rather than a known quantity--of relevance to studies in which S0 is not measured. By contrast, neglect of weights and labile P can lead to a mistaken preference for the Langmuir model. Phosphorus soil sorption data are typically fitted to simple isotherms for the purpose of compactly summarizing experimental results and extrapolating beyond the range of measurements. Here, the question of which of the commonly preferred models-Langmuir and Freundlich-is better, is addressed using weighted least-squares, with weights obtained by variance function analysis of replicate data. Proper weighting in this case requires attention to a special problem-that the dependent variable S is not measured, rather is calculated from the measured equilibrium concentration C. The latter is commonly taken as the independent variable but is subject to experimental error, violating a fundamental least-squares assumption. This problem is handled through an effective variance treatment. When the data are fitted to the Langmuir, Freundlich, and Temkin isotherms, only the Freundlich model yields a statistically adequate chi(2) value, and then only when S is taken to include labile residual P (S(0)) estimated from isotope-exchange experiments. The Freundlich model also yields good estimates of S(0) when this is treated as an adjustable parameter rather than a known quantity-of relevance to studies in which S(0) is not measured. By contrast, neglect of weights and labile P can lead to a mistaken preference for the Langmuir model. Phosphorus soil sorption data are typically fitted to simple isotherms for the purpose of compactly summarizing experimental results and extrapolating beyond the range of measurements. Here, the question of which of the commonly preferred modelsLangmuir and Freundlichis better, is addressed using weighted least-squares, with weights obtained by variance function analysis of replicate data. Proper weighting in this case requires attention to a special problemthat the dependent variable S is not measured, rather is calculated from the measured equilibrium concentration C. The latter is commonly taken as the independent variable but is subject to experimental error, violating a fundamental least-squares assumption. This problem is handled through an effective variance treatment. When the data are fitted to the Langmuir, Freundlich, and Temkin isotherms, only the Freundlich model yields a statistically adequate χ2 value, and then only when S is taken to include labile residual P (S 0) estimated from isotope-exchange experiments. The Freundlich model also yields good estimates of S 0 when this is treated as an adjustable parameter rather than a known quantityof relevance to studies in which S 0 is not measured. By contrast, neglect of weights and labile P can lead to a mistaken preference for the Langmuir model. Phosphorus soil sorption data are typically fitted to simple isotherms for the purpose of compactly summarizing experimental results and extrapolating beyond the range of measurements. Here, the question of which of the commonly preferred models-Langmuir and Freundlich-is better, is addressed using weighted least-squares, with weights obtained by variance function analysis of replicate data. Proper weighting in this case requires attention to a special problem-that the dependent variable S is not measured, rather is calculated from the measured equilibrium concentration C. The latter is commonly taken as the independent variable but is subject to experimental error, violating a fundamental least-squares assumption. This problem is handled through an effective variance treatment. When the data are fitted to the Langmuir, Freundlich, and Temkin isotherms, only the Freundlich model yields a statistically adequate ... value, and then only when S is taken to include labile residual P (...) estimated from isotope-exchange experiments. The Freundlich model also yields good estimates of ... when this is treated as an adjustable parameter rather than a known quantity-of relevance to studies in which ... is not measured. By contrast, neglect of weights and labile P can lead to a mistaken preference for the Langmuir model. (ProQuest: ... denotes formulae/symbols omitted.) |
| Author | Bolster, Carl H Tellinghuisen, Joel |
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| Cites_doi | 10.2136/sssaj1957.03615995002100020004x 10.1042/bj0800324 10.1016/S0076-6879(09)67019-1 10.1080/00401706.1967.10490460 10.1071/SR99135 10.2136/sssaj2009.0177 10.2134/jeq1984.00472425001300040016x 10.1016/0025-5564(68)90023-0 10.1021/ac60316a010 10.1111/j.1432-1033.1976.tb10858.x 10.1080/01621459.1987.10478543 10.1039/B708709H 10.1021/es00151a008 10.1021/jp8112039 10.1080/00103629509369365 10.1021/ed077p1233 10.1002/1099-081X(200001)21:1<7::AID-BDD210>3.0.CO;2-F 10.1016/0003-2697(72)90084-X 10.1016/j.chemolab.2009.09.001 10.1039/an9881301579 10.1016/S0076-6879(75)37003-1 10.1016/0076-6879(92)10023-7 10.1080/00401706.1973.10489037 10.1016/0003-2697(80)90515-1 10.1111/j.1365-2389.1975.tb01947.x 10.1111/j.1365-2389.2008.01041.x 10.1016/0076-6879(92)10006-Y 10.2307/2529142 10.2136/sssaj2006.0304 10.1006/jtbi.1996.0023 10.1039/b701696d 10.2136/sssaj1996.03615995006000020014x 10.1080/00401706.1972.10488944 10.1111/j.1365-2389.1971.tb01617.x 10.1093/comjnl/15.2.148 10.1366/0003702001949537 10.2134/jeq2007.0461 10.1016/0960-8524(95)00046-H 10.1021/jp993279i 10.1016/j.chroma.2008.08.036 10.1016/S0021-9258(17)45254-9 10.1111/j.1365-2389.1978.tb00794.x |
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| Keywords | Concentration measurement Sorption Isotope exchange Adsorption isotherm Phosphorus Statistical estimation Soil pollution Modeling |
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| Snippet | Phosphorus soil sorption data are typically fitted to simple isotherms for the purpose of compactly summarizing experimental results and extrapolating beyond... |
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| SubjectTerms | Absorption Agriculture Algorithms Applied sciences data analysis data weighting Environmental Modeling Environmental Monitoring - methods Environmental Monitoring - standards Environmental Pollutants - analysis Environmental science equations estimation Exact sciences and technology Freundlich model Kinetics Langmuir model least squares Least-Squares Analysis Models, Chemical Models, Statistical nutrient availability Phosphorus Phosphorus - analysis Pollution Regression Analysis Reproducibility of Results Soil soil analysis Soil Pollutants - analysis Soil sciences Soils Sorption sorption isotherms statistical analysis Statistical methods Temkin model |
| Title | Least-Squares Analysis of Phosphorus Soil Sorption Data with Weighting from Variance Function Estimation: A Statistical Case for the Freundlich Isotherm |
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