Parameters for Site-Specific Soil Phosphorus Loss Modeling from Soil Test Data
Vol. 2017 No. 2, Historical Fact Sheets
Vol. 2017 No. 2

Parameters for Site-Specific Soil Phosphorus Loss Modeling from Soil Test Data: SL442/SS656, 2/2017

Historical Fact Sheets
https://doi.org/10.32473/edis-ss656-2017
Published 2017-05-09
Biswanath Dari
Oregon State University
Vimala D. Nair
University of Florida
Willie G. Harris
University of Florida
Emergent growth of East Indian hygrophila. Figure 1 from publication SS-AGR-411/AG413: East Indian Hygrophila: Hygrophila polysperma (Roxb.) T. Anderson. Credit: Lyn Gettys, UF/IFAS.
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Keywords

SS656

How to Cite

Dari, Biswanath, Vimala D. Nair, and Willie G. Harris. 2017. “Parameters for Site-Specific Soil Phosphorus Loss Modeling from Soil Test Data: SL442 SS656, 2 2017”. EDIS 2017 (2). Gainesville, FL:4. https://doi.org/10.32473/edis-ss656-2017.
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Abstract

This 4-page fact sheet is part of the Soil Phosphorus Storage Capacity (SPSC) for Phosphorus Risk Assessment and Management series. This series is intended for use by those who are interested in management practices and policies that minimize the risk of phosphorus loss from soils. Written by Biswanath Dari, Vimala D. Nair, and Willie G. Harris and published by the Department of Soil and Water Sciences, February 2017.

SL442/SS656: Parameters for Site-Specific Soil Phosphorus Loss Modeling from Soil Test Data (ufl.edu)

https://doi.org/10.32473/edis-ss656-2017
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PDF-2017

References

Dari, B., V. D. Nair, J. Colee, W. G. Harris, and R. Mylavarapu. 2015. "Estimation of phosphorus isotherm parameters: a simple and cost-effective procedure." Frontiers in Environmental Science, 3:70. doi.org/10.3389/fenvs.2015.00070. https://doi.org/10.3389/fenvs.2015.00070

Nair, V.D., 2014. "Soil phosphorus saturation ratio for risk assessment in land use systems." Frontiers in Environmental Science. 2:6. doi:10.3389/fenvs.2014.00006. https://doi.org/10.3389/fenvs.2014.00006

Nair, V. D., and W. G. Harris. 2014. "Soil phosphorus storage capacity for environmental risk assessment." Advances in Agriculture. 1-10. doi:10.1155/2014/723064. https://doi.org/10.1155/2014/723064

Nair, V. D., and Reddy, K. R. (2013). Phosphorus sorption and desorption in wetland soils. In: DeLaune, R., Reddy, K.R., Richardson, C.J., and Megonigal, P. (ed). Methods in biogeochemistry of wetlands. Soil Science Society of America Publication. 667-678. https://doi.org/10.2136/sssabookser10.c34

Nair, V. D., W. G. Harris, and D. Chakraborty. 2010. An Indicator for Risk of Phosphorus Loss from Sandy Soils. SL333. Gainesville: University of Florida Institute of Food and Agricultural Sciences. http://edis.ifas.ufl.edu/ss539. https://doi.org/10.32473/edis-ss539-2010

Nair, V. D., W. G. Harris, D. Chakraborty, and M Chrysostome. 2010. Understanding Soil Phosphorus Storage Capacity. SL336. Gainesville: University of Florida Institute of Food and Agricultural Sciences. http://edis.ifas.ufl.edu/ss541. https://doi.org/10.32473/edis-ss541-2010

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