The effect of interspecies interactions and water deficit on spring barley and red clover biomass accumulation at successive growth stages

The effect of interspecies interactions and water deficit on spring barley and red clover biomass accumulation at successive growth stages

A pot experiment was conducted in a greenhouse in Olsztyn, Poland, in the period 2010–2012. The aim of the study was to examine whether soil water deficit would change biomass volume and distribution of pure sown spring barley and red clover as well as growth rate during their joint vegetation and m...

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Bibliographic Details
Published in:Acta Agrobotanica Vol. 69; no. 4
Main Authors: Jastrzębska, Magdalena, Kostrzewska, Marta K, Wanic, Maria, Treder, Kinga, Makowski, Przemysław
Format: Journal Article
Language:English
Published: Warsaw Polish Botanical Society 2016
Subjects:
Barley
Biomass
Competition
crop growth rate
dry matter translocation
Growth rate
growth stages
intercropping
Interspecific
Trifolium pratense
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Summary:A pot experiment was conducted in a greenhouse in Olsztyn, Poland, in the period 2010–2012. The aim of the study was to examine whether soil water deficit would change biomass volume and distribution of pure sown spring barley and red clover as well as growth rate during their joint vegetation and mutual interactions. The interactions between spring barley and red clover were of a competitive character, and the cereal was the stronger crop. The strength of this competition increased in time with the growing season. Through most of the growing season, the competition was poorer in water deficit conditions. The impact of clover on barley before the heading stage showed facilitation symptoms. Interspecific competition reduced the rate of barley biomass accumulation and decreased stem and leaf biomass towards the end of the growing season. Intensified translocation of assimilates from the vegetative parts to grain minimized the decrease in spike biomass. Water deficit stress had a more inhibitory effect on the biomass and growth rate of barley than competition, and competition did not exacerbate the adverse influence of water deficit stress on barley. Competition from barley significantly reduced the biomass and biomass accumulation rate of clover. Water deficit stress did not exacerbate barley’s competitive effect on clover, but it strongly inhibited the growth of aboveground biomass in pure-sown clover.
ISSN:0065-0951
2300-357X
DOI:10.5586/aa.1692