Eragrostis curvula (Schrad.) Nees s. lat., a highly polymorphic polyploid complex, can be considered
as one of the most important warm season perennial grasses for the semi-arid regions of central
Argentina. In apomictically propagated and perennial plants such as weeping lovegrass, where
successive measurements can be done across time, repeatability estimates provide an indication of the
degree of influence of permanent effects on the phenotypic variation and allow prediction of future
performance from past records. Analysis of variance of the experiment showed highly significant
variation (P < 0·01) for the main factors in all four traits. Although there was very high variability
between cuts, hybrids of E. curvula exhibited considerable inter-entry variability, in particular for
those traits determining forage yield. Repeatability calculated in this experiment was highest for the
crown diameter (0·86), leaf length (0·84) and dry matter (0·84), while in panicle number (0·66) it was
lowest. Repeatability estimates for the vegetative characteristics indicate small effects of temporal
environment. The four traits studied, including panicle number with their moderate repeatability, do
not require an essentially different number of observations to obtain measures at the same level of
accuracy. For vegetative characters two harvests provided 98% of the accuracy of the total obtained
with four cuts, and for panicle number the same percentage was obtained for three harvests. This
stability of performance is a desirable characteristic for grass cultivars. Patterns of trait associations
were also described. Because leaf length is closely associated with dry matter and has high
repeatability, to use leaf length as an indirect evaluation criterion should be almost as efficient as
direct evaluation for aerial biomass yield. Reliable estimates of parameters such as repeatability and
phenotypic correlation are needed for prediction of production values and for the design of efficient
improvement programmes. For genotype evaluation additional research is required to quantify the
extent of genotype × environment interaction across years and localities of semi-arid regions.
Molecular markers to study the variability within the Eragrostis curvula complex
