2008 Joint Annual Meeting (5-9 Oct. 2008): Cotton Available Potassium in Balckbelt Soils.
Start | Author Index

667-6 Cotton Available Potassium in Balckbelt Soils.



Tuesday, 7 October 2008
George R. Brown Convention Center, Exhibit Hall E
Gobena Huluka, Charles Mitchell and Anthony Kumi, Auburn University, Dept Agronomy and Soils, Auburn University, Auburn, AL 36849
Potassium is one of the most important essential nutrients for cotton production. Potassium is involved in many enzymatic actions, physiological development and yield of cotton. The Blackbelt (prarie) soils, that extend from Alabama to Texas have high clay and inherent high potassium contents. These soils have vertic characteristics that are difficult to manage under dry and wet conditions since traditional soil test methods may not especially predict cotton available potassium accurately.  We applied 0, 20, 40, 60, 80 and 100 K2O (lbs/A), and measured soil and cotton leaf potassium contents during cotton growth, and cotton lint yield.  In general, potassium tissue concentration increased as K2O rates increased, and the absolute values decreased with time after cotton bloomed.  The cotton leaf potassium contents were below the sufficiency range for cotton in contrast to the available soil potassium that was medium, high or very high. Potassium chemistry and climatic conditions do play significant roles in managing cotton potassium nutrient in Blackbelt soils. Potassium is one of the most important essential nutrients for cotton production. Potassium is involved in many enzymatic actions, physiological development and yield of cotton. The Blackbelt (prarie) soils, that extend from Alabama to Texas have high clay and inherent high potassium contents. These soils have vertic characteristics that are difficult to manage under dry and wet conditions since traditional soil test methods may not especially predict cotton available potassium accurately.  We applied 0, 20, 40, 60, 80 and 100 K2O (lbs/A), and measured soil and cotton leaf potassium contents during cotton growth, and cotton lint yield.  In general, potassium tissue concentration increased as K2O rates increased, and the absolute values decreased with time after cotton bloomed.  The cotton leaf potassium contents were below the sufficiency range for cotton in contrast to the available soil potassium that was medium, high or very high. Potassium chemistry and climatic conditions do play significant roles in managing cotton potassium nutrient in Blackbelt soils.
See more of: Nutrients in Soil Environments (Posters)
See more of: S02 Soil Chemistry