Offered Papers Theme B: Grassland and the Environment
Description
Understanding the reproductive biology of weeds is essential to understanding their role in seminatural plant communities. The annual forb Brassica kaber is an important agricultural weed in the mid-western regions of the U.S.A. Linear regression is often used to establish the relationship between the reproductive mass (R) of a plant (as measured by number of flowers, seeds or mass of reproductive organs) and its dry mass (W)(Sletvold, 2002). Some plants do not have any reproductive output (R=0). These zero values cause a problem forlinear regression. Schmid et al. (1994) suggested using truncated regression as a solution. In this presentation weuse an extended version of this method to model reproductive allocation in Brassica kaber.
Citation
Brophy, Caroline; Connolly, John; Wayne, P. M.; and Gibson, D. J., "Reproductive Allocation in Brassica kaber" (2023). IGC Proceedings (1993-2023). 7.
https://uknowledge.uky.edu/igc/20/themeB/7
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Agricultural Science Commons, Agronomy and Crop Sciences Commons, Plant Biology Commons, Plant Pathology Commons, Soil Science Commons, Weed Science Commons
Reproductive Allocation in Brassica kaber
Understanding the reproductive biology of weeds is essential to understanding their role in seminatural plant communities. The annual forb Brassica kaber is an important agricultural weed in the mid-western regions of the U.S.A. Linear regression is often used to establish the relationship between the reproductive mass (R) of a plant (as measured by number of flowers, seeds or mass of reproductive organs) and its dry mass (W)(Sletvold, 2002). Some plants do not have any reproductive output (R=0). These zero values cause a problem forlinear regression. Schmid et al. (1994) suggested using truncated regression as a solution. In this presentation weuse an extended version of this method to model reproductive allocation in Brassica kaber.