A positive association between root morphology and herbage yield in alfalfa
(Medicago sativa L.) has been reported previously. To further investigate
this association, we created populations that differ in root morphology wit
hin four unrelated experimental germplasm sources. Two germplasm sources we
re divergently selected for lateral root number, and two sources underwent
divergent selection for fibrous root mass followed by divergent selection f
or lateral root number. Selected and unselected populations from all germpl
asm sources were evaluated for herbage yield, root morphology, fall dormanc
y response, and disease resistance. Herbage yield was evaluated using eight
replicates of a randomized complete block design with a split-plot arrange
ment of fertilizer rates (0 and 200 kg N ha(-1)) as whole plots and alfalfa
populations as subplots. Experiments were established twice at each of two
locations in May 1994. Two herbage yield harvests were recorded from one e
xperiment at each location, and plots were dug and evaluated for root trait
s in fall 1994. Herbage yields were taken from the other experiment at each
location twice in 1994 and four times in 1995, and again plots were dug an
d evaluated for root traits in fall 1995. All populations were evaluated fo
r fall dormancy response in 1994 and disease resistance in 1995 according t
o standard protocols. Populations selected for more fibrous or lateral root
s had greater herbage yield than populations selected for no or few fibrous
or lateral roots in all four germplasm sources. No differences in root siz
e or weight, dormancy, or disease resistance were found between fibrous or
branch-rooted vs. taprooted populations. Selection for fibrous and lateral
roots within these alfalfa germplasms increased herbage yield in the tested
environments.