Item

Sowing date affected shoot and root biomass accumulation of lucerne during establishment and subsequent regrowth season

Sim, RE
Moot, Derrick
Brown, HE
Teixeira, EI
Date
2015-08
Type
Journal Article
Fields of Research
ANZSRC::3002 Agriculture, land and farm management , ANZSRC::3004 Crop and pasture production
Abstract
© 2015 Elsevier B.V. The pattern of perennial dry matter (DM) was manipulated over two seasons to determine if the establishment of lucerne (Medicago sativa L.) is regulated by the demand for assimilate by perennial organs, (taproot plus crown) or crop ontogeny. Crops of 'Stamina 5' lucerne were established from spring to late summer at two sites which differed by 230mm to 2.3m soil depth in plant available water content (PAWC) at Lincoln University, New Zealand. The establishment phase was characterised from sowing until crops reached a maximum accumulation of perennial biomass of ~5tDMha < sup > -1 < /sup > . Demand for biomass offered insight into the variability in fractional partitioning of DM to the perennial organs (P < inf > root < /inf > ) during establishment. This showed that P < inf > root < /inf > was 0.48 until a perennial biomass of 2.9±0.28tDMha < sup > -1 < /sup > . Lucerne continued to partition DM to the perennial organs until a maximum biomass of ~5tDMha < sup > -1 < /sup > , but at a decreasing rate shown by a linear decline in P < inf > root < /inf > in response to increasing perennial biomass < inf > . < /inf > This meant P < inf > root < /inf > was independent of crop ontogeny, but most likely still under the control of environmental influences, and the establishment phase extended into the second season for crops which had not attained a perennial biomass > 3tDMha < sup > -1 < /sup > . These crops continued to prioritise the allocation of DM to the perennial organs which explained the 20-25% decrease in shoot yield in the second season when sowing was delayed. This study quantified the establishment phase of lucerne to perennial biomass demand as independent of crop ontogeny. It showed establishment was regulated by biomass demand of these perennial organs. The spring sown crops on the High PAWC soils completed this phase at the earliest in 4 months. In contrast, autumn sown crops on the Low PAWC soils took nearly 9 months to complete this phase. These results indicate different management strategies may be required to establish lucerne rather than solely using first flowering as a sign that the establishment phase is complete. Results can be incorporated into the current partitioning framework to improve the simulation modelling of lucerne.
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