Three groups of species (21 herbaceous monocotyledons, 22
herbaceous dicotyledons and 16 woody dicotyledons), including
representatives of a wide range of natural habitats and life forms in
inland Britain, were grown in the seedling phase in a resource-rich
controlled environment and assessed over a 14-day period (21 d in the
case of woody species). Mean values of relative growth rate
(RGR), unit leaf rate (ULR), leaf area ratio
(LAR), leaf weight fraction (LWF), specific leaf
area (SLA), and the root–shoot allometric coefficient
were derived.
In herbaceous species, the grand mean RGR was 0·20
d−1, comparable to values previously recorded. For
woody species, the mean was 0·09 d−1. An
existing assumption linking high RGR to high allocation to
photosynthetic biomass was upheld by comparisons made between groups.
Within groups, however, no pattern of this kind could be
demonstrated.
When photosynthetically active radiation was increased from 125 to
250 µmol m−2 s−1, ULR
was increased almost pro rata. The parallel response in RGR
was only slight, being offset by considerable reductions in
LAR. The apparent mean quantum yield for photosynthesis in
herbaceous species (whole-plant d. wt basis) was 0·60 g
mol−1.
There was no significant dependence of RGR on ULR
in any of the three groups of species, although the absolute magnitude
of ULR declined in the order: herbaceous monocotyledons >
herbaceous dicotyledons > woody dicotyledons. In all three groups,
RGR was strongly dependent upon LAR but no
differences emerged in absolute scale of LAR. The absolute
scale of mean LWF decreased from herbaceous to woody species,
but the dependence of LAR on LWF strengthened.
Groups showed no systematic differences in magnitude of SLA,
but the correlation of LAR with SLA was strong
throughout.
Multiple regression showed that the leading determinants of
RGR were ULR and SLA in herbaceous species
and LWF in woody species. Principal components analyses (PCA)
on each of the three groups explained at least 77% of variation and
agreed closely with an optimal (non-hierarchical) classification. Only
six cluster ‘types’ were recognized out of the 16
theoretically possible combinations of ‘high’ or
‘low’ values of the four growth parameters. Strong
evidence of evolutionary trade-offs emerged, most strikingly in that
high RGR was never seen in combination with low SLA.
The morphological/physiological types identified by an all-groups
PCA separated woody from the herbaceous species, but dicotyledons were
almost congruent with the monocotyledons.
The non-growth-analytical attributes most strongly correlated with
mean RGR were percentage yield at a low level of mineral
nutrients, leaf nitrogen concentration, and seed weight. It was
concluded that mean RGR plays a central role in the
identification of pathways of evolutionary specialization in
herbaceous species.