NC1191: Weeds as Phytometers in a Changing Environment
(Multistate Research Project)
Status: Inactive/Terminating
SAES-422 Reports
10/01/2012
Wortman, S. E., A. S. Davis, B. J. Schutte, J. L. Lindquist, J. Cardina, J. Felix, C. L. Sprague, J. A. Dille, A.H.M. Ramirez, G. Reicks, and S. A. Clay. 2012. Local conditions, not regional gradients, drive demographic variation of Ambrosia trifida and Helianthus annuus across northern U.S. maize belt. Weed Science 60:440-450.
Ramirez, A. H. M., J. A. Dille, S. A. Clay, A. S. Davis, J. Felix, F. D. Menalled, R. G. Smith, C. L. Sprague, E. Hill. In review. Plant-soil feedback response of giant ragweed (Ambrosia trifida) and common sunflower (Helianthus annuus). Weed Science.
Davis, A. S., S. Clay, J. Cardina, A. Dille, F. Forcella, C. Sprague. In review. Overwinter burial environment explains departures from regional hydrothermal model of giant ragweed seedling emergence in U.S. Midwest. Weed Science.
12/26/2013
Sharon A. Clay, Adam Davis, Anita Dille, John Lindquist, A. Ramirez, Christy Sprague, Graig Reicks, and Frank Forcella (2013) Common Sunflower Seedling Emergence across the U.S. Midwest. Weed Science In-Press.
Adam S. Davis, Sharon Clay, John Cardina, Anita Dille, Frank Forcella, John Lindquist, and Christy Sprague (2013) Seed Burial Physical Environment Explains Departures from Regional Hydrothermal Model of Giant Ragweed (Ambrosia trifida) Seedling Emergence in U.S. Midwest. Weed Science: July-September 2013, Vol. 61, No. 3, pp. 415-421.
01/08/2015
10/15/2015