The effects of polyploidy on yield, total dry-matter production and partiti
oning of tea were studied in diploid (2x), triploid (3x) and tetraploid (4x
) tea (Camellia sinensis). Although increased ploidy depressed yield signif
icantly (P<0.05), significant differences in productivity were noted among
genotypes of the same ploidy level and some triploids even outyielded some
diploids which indicated the potential for selecting and/or developing high
yielding polyploid clones. After 60 months of growth, the clones had accum
ulated 20-53 tonnes of dry matter per hectare. Diploids accumulated signifi
cantly higher total biomass than the polyploids. Between 25 and 40% of tota
l accumulated dry matter was partitioned into leaves. Polyploids had a larg
e proportion of unplucked leaves which indicated that their productivity co
uld be improved by plucking older leaves with the bud (coarse plucking) or
by more frequent plucking. Between 13 and 32% of the total dry matter was p
artitioned into the root system. The high yielding clones accumulated among
the least dry matter in their root systems. Rooting depths were significan
tly different within the ploidy groups although there were no significant p
loidy effects on this trait. The clonal harvest index (H.I.) ranged from 8.
9-26%, with the high yielding clones having values in the upper limits and
low yielding ones in the lower limits of this range. The woody tissue in th
e frame formed the largest proportion of the total dry matter i.e. between
40 and 52%, Diploids accumulated significantly more dry matter in the frame
compared with polyploids. Phenotypic correlation coefficients indicated th
at the total leaf biomass was the best indicator for productivity in tea.