Table 1.
List of germplasm used in a greenhouse soil water deficit experiment on chile pepper at the Ohio State University.
Accessions are organized by country of origin.
Table 2.
Analysis of variance for seven traits in a greenhouse soil water deficit experiment on chile pepper (Capsicum sp.) at the Ohio State University.
Data was analyzed in R (version 4.0.5) using a linear mixed model. Source was considered significant if P < 0.05.
Table 3.
Mean separation (estimated marginal means) of two traits with significant main affects for accession from a greenhouse soil water deficit experiment on chile pepper (Capsicum sp.) at the Ohio State University.
Organized alphabetically within country of origin.
Fig 1.
Interaction of irrigation and accession means with standard error bars for primary branch number in a greenhouse soil water deficit experiment on chile pepper (Capsicum sp.) at the Ohio State University.
Accessions are separated by domestication level.
Fig 2.
Interaction plot of estimated marginal means with standard error bars for CO2 assimilation (log transformed) in a greenhouse soil water deficit experiment on chile pepper (Capsicum sp.) at the Ohio State University.
Accessions are separated by domestication level.
Fig 3.
Interaction plot of estimated marginal means with standard error bars for mean fruit weight in U.S. accessions only in a greenhouse soil water deficit experiment on chile pepper (Capsicum sp.) at the Ohio State University.
Accessions are separated by domestication level.
Table 4.
Results of a priori group contrasts on four traits from a greenhouse soil water deficit experiment on chile pepper (Capsicum sp.) at the Ohio State University.
Table 5.
Multivariate regression analysis of Mexican chile pepper accessions from a greenhouse soil water deficit experiment on chile pepper (Capsicum sp.) at the Ohio State University.
The relationship between mean primary branching and environmental parameters related to precipitation from the originating environment are presented (R2 = 0.697).