Growth rates and biomass production of micropropagated apple plants of M26 and Gravenstein on their own roots and in different micrografted combinations under non-limiting and limiting nutrient conditions

Abstract

Micropropagated apple plants of semi-dwarf rootstock M26 (M26) and vigorous cultivar Gravenstein (GR) on their own roots and different micrograft combinations were used in the experiments. The combinations included GR scion on GR root (GR/GR), M26 on M26 (M26/M26), GR on M26 (GR/M26), and M26 on GR (M26/GR). The plants were grown under non-limiting and limiting relative addition rates of nutrients. Under non-limiting nutrient conditions, M26 and GR showed a similar relative growth rate (RGR). Grafting reduced RGR significantly in the combination of M26/M26 compared to M26. The relative growth rate for the combination of GR/M26 was similar to the GR/GR plants, but it increased greatly compared to the M26/M26 plants. For the reverse combination of M26/GR, the RGR value decreased significantly compared to either the M26/M26 or the GR/GR plants. The RGR value and specific root length were lower for M26/GR than for GR/M26. No clear relationship between carbohydrate allocation and growth parameters of different plants was found under non-limiting nutrient conditions. Nutrient limitation resulted in increased dry weights and soluble sugars in the roots for all plants except for M26/GR. A reduced leaf area ratio and a lower RGR than the set relative addition rate of nitrogen were found for M26 and GR/M26 under limiting conditions. These results suggest that the dwarfing effect is not directly related to RGR of rootstocks or scions, but rather associated with root morphology of grafted plants and the ability of roots to absorb nutrients.