Genetic variation and heritability of phosphorus uptake in Alamo switchgrass grown in high phosphorus soils A.M. Missaoui a, * , H.R. Boerma a , J.H. Bouton b a The Center for Applied Genetic Technologies, University of Georgia, 111 Riverbend Road, Athens, GA 30602-6810, USA b The Noble Foundation, P.O. Box 2180, Ardmore, OK 73402-2180, USA Received 19 April 2004; received in revised form 19 September 2004; accepted 25 September 2004 Abstract Developing crop cultivars with high P uptake may prevent the accumulation of phosphorus in the soil and its escape to streams and water reservoirs. The purpose of this investigation was to assess the potential for P uptake in switchgrass (Panicum virgatum L.), an important bioenergy and forage crop, and to determine the nature of genetic variation and heritability of this trait. Thirty genotypes from a population of ‘Alamo’ switchgrass were evaluated in the greenhouse [Tifton loamy sand (fine, loamy, siliceous thermic Plinthic Paludults)] and the field [Wedowee coarse sandy loam (fine, kaolinitic, thermic family of the Typic Kanhapludults)] at a rate of 450 mg P kg 1 and 200 mg N kg 1 soil. Significant genetic variation was observed among the parental genotypes for P concentration, biomass production, and P uptake. Genotype  location interaction was significant for all three traits. Nevertheless, rank correlation of the genotypes between the two locations was high for P uptake (r = 0.83, P < 0.01) indicating that little of the genotype  location interaction is associated with changes in ranking. Narrow sense heritability based on individual plant and family means were 2 and 13% for P concentration, 60 and 69 for biomass production, and 67 and 73 for P uptake, respectively. Expected genetic gain based on individual plant selection were <1, 51, and 65% of the parental means for P concentration, biomass production, and P uptake, respectively. Expected gain from selection based on half- sib progeny testing was slightly higher (2, 55, and 68% for P concentration, biomass, and P uptake). Although little gain from selection is predicted for P concentration, the magnitude of heritability values for biomass production and P uptake indicate that substantial genetic progress in increasing P uptake can be achieved through breeding for higher biomass production. # 2004 Elsevier B.V. All rights reserved. Keywords: Switchgrass; Phosphorus; Genetic variation; Heritability; Selection 1. Introduction Phosphorus leaching to ground water is increas- ingly becoming a serious environmental problem in countries with intensive animal production where the waste generated is applied to the soil as fertilizer. The www.elsevier.com/locate/fcr Field Crops Research 93 (2005) 186–198 * Corresponding author. Tel.: +1 706 583 8125; fax: +1 706 583 8120. E-mail address: cssamm@uga.edu (A.M. Missaoui). 0378-4290/$ – see front matter # 2004 Elsevier B.V. All rights reserved. doi:10.1016/j.fcr.2004.09.020