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Comparison of organic and conventional managements on yields, nutrients and weeds in a corn-cabbage rotation

journal contribution
posted on 2017-12-06, 00:00 authored by Y Bajgai, P Kristiansen, Nilantha Hulugalle, Melinda Mchenry
Conventional soil management systems (SMS) use synthetic inputs to maximize crop productivity, which leads to environmental degradation. Organic SMS is an alternative that is claimed to prevent or mitigate such negative environmental impacts. Vegetable production systems rely on frequent tillage to prepare beds and manage weeds, and are also characterized by little crop residue input. The use of crop residues and organic fertilizers may counteract the negative impacts of intensive vegetable production. To test this hypothesis, we evaluated the effect of sweet corn (Zea mays L. var. rugosa) residue incorporation in a corn–cabbage (Brassica oleracea L.) rotation on crop yields, nutrient uptake, weed biomass and soil nutrients for organic and conventional SMS in two contrasting soil types (a Chromosol and a Vertosol). Yields of corn and cabbage under the organic SMS were not lower than the conventional SMS, possibly due to the equivalent N, P and K nutrients applied. Macro-nutrient uptake between the organic and conventional SMS did not differ for cabbage heads. Corn residue incorporation reduced the average in-crop weed biomass in cabbage crops by 22% in 2010 and by 47% in 2011. Corn residue-induced inhibitions on weed biomass may be exploited as a supplementary tool to mechanical weed control for the organic SMS, potentially reducing the negative impacts of cultivation on soil organic carbon. Residue incorporation and the organic SMS increased the average total soil N by 7 and 4% compared with the treatments without residue and the conventional SMS, respectively, indicating the longer-term fertility gains of these treatments. Exchangeable K, but not Colwell P, in the soil was significantly increased by residue incorporation. The clayey Vertosol conserved higher levels of nutrients than the sandy Chromosol. Yields under organic SMS can match that of conventional SMS. Residue incorporation in soil improved soil nutrients and reduced weed biomass.

Funding

Category 1 - Australian Competitive Grants (this includes ARC, NHMRC)

History

Volume

30

Issue

2

Start Page

132

End Page

142

Number of Pages

11

eISSN

1742-1713

ISSN

1742-1705

Location

United Kingdom

Publisher

Cambridge University Press (CUP)

Language

en-aus

Peer Reviewed

  • Yes

Open Access

  • No

Acceptance Date

2013-07-08

External Author Affiliations

Centre for Plant and Water Science; Department of Agriculture; Department of Primary Industries; TBA Research Institute; University of New England;

Era Eligible

  • Yes

Journal

Renewable Agriculture and Food Systems

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