Effects of weed harrowing and undersown clover on weed growth and spring cereal yield

Weed competition and nutrient scarcity often restrict organic cereal production, especially where the availability of livestock manure is limited. While harrowing of annual weeds and legume cover crops can be used, these methods are both executed in early spring and may hinder each other. Two cycles...

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Bibliographic Details
Published in:Weed research 2015-10, Vol.55 (5), p.493-502
Main Authors: Stenerud, S, Mangerud, K, Sjursen, H, Torp, T, Brandsæter, LO, Liebman, Matt
Format: Article
Language:English
Subjects:
altitude
and cereals
animal manures
annual weed
annual weeds
biomass
cover crop
cover crops
crop rotation
crop-weed competition
fertilizer rates
grain yield
harrowing
legumes
manure fertiliser
nitrogen
non-herbicide weed management
oats
population density
Spergula arvensis
spring
Trifolium repens
weed control
wheat
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Summary:Weed competition and nutrient scarcity often restrict organic cereal production, especially where the availability of livestock manure is limited. While harrowing of annual weeds and legume cover crops can be used, these methods are both executed in early spring and may hinder each other. Two cycles of a 2‐year crop rotation were carried out in south‐east Norway (60°42′N, 10°51′E, altitude 250 m) with weed harrowing and undersown cover crops (WHCC) at two fertiliser rates (40 and 100 kg nitrogen ha⁻¹). The effect of the WHCC treatments was measured by weed density and species, weed biomass, changes in weed seedbank and grain yield. The weed density depended on the interaction between WHCC, fertiliser and year. On average, pre‐emergence weed harrowing reduced weed density by 32% and weed biomass by 49%, while pre‐ and post‐emergence weed harrowing reduced weed density by 59% and weed biomass by 67% compared with the untreated control. Spergula arvensis became more abundant at low rather than at high fertiliser rates. On average, white clover cover crop sown after pre‐emergence weed harrowing resulted in the highest yields for both oat (+12.1%) and wheat (+16.4%) compared with the untreated control. Despite differences in weed population density and biomass among WHCC treatments within years, the weed biomass, weed density and seedbank increased for all WHCC treatments over the 4‐year period. More research is required into improving the efficacy of mechanical and cultural weed suppression methods that organic systems rely on.
ISSN:0043-1737
1365-3180
DOI:10.1111/wre.12163