Effect of winter cover crop species and planting methods on maize yield and N availability under irrigated Mediterranean conditions

M. Salmerón, R. Isla, J. Cavero

Research output: Contribution to journalArticlepeer-review

75 Scopus citations

Abstract

Under semiarid Mediterranean conditions irrigated maize has been associated to diffuse nitrate pollution of surface and groundwater. Cover crops grown during winter combined with reduced N fertilization to maize could reduce N leaching risks while maintaining maize productivity. A field experiment was conducted testing two different cover crop planting methods (direct seeding versus seeding after conventional tillage operations) and four different cover crops species (barley, oilseed rape, winter rape, and common vetch), and a control (bare soil). The experiment started in November 2006 after a maize crop fertilized with 300kgNha-1 and included two complete cover crop-maize rotations. Maize was fertilized with 300kgNha-1 at the control treatment, and this amount was reduced to 250kgNha-1 in maize after a cover crop. Direct seeding of the cover crops allowed earlier planting dates than seeding after conventional tillage, producing greater cover crop biomass and N uptake of all species in the first year. In the following year, direct seeding did not increase cover crop biomass due to a poorer plant establishment. Barley produced more biomass than the other species but its N concentration was much lower than in the other cover crops, resulting in higher C:N ratio (>26). Cover crops reduced the N leaching risks as soil N content in spring and at maize harvest was reduced compared to the control treatment. Maize yield was reduced by 4Mgha-1 after barley in 2007 and by 1Mgha-1 after barley and oilseed rape in 2008. The maize yield reduction was due to an N deficiency caused by insufficient N mineralization from the cover crops due to a high C:N ratio (barley) or low biomass N content (oilseed rape) and/or lack of synchronization with maize N uptake. Indirect chlorophyll measurements in maize leaves were useful to detect N deficiency in maize after cover crops. The use of vetch, winter rape and oilseed rape cover crops combined with a reduced N fertilization to maize was efficient for reducing N leaching risks while maintaining maize productivity. However, the reduction of maize yield after barley makes difficult its use as cover crop.

Original languageEnglish
Pages (from-to)89-99
Number of pages11
JournalField Crops Research
Volume123
Issue number2
DOIs
StatePublished - Aug 14 2011

Bibliographical note

Funding Information:
This study was supported by the Ministry of Innovation, Science, and Technology of Spain (Project no. AGL2005-08020-C05-01). M. Salmerón was granted with a J.A.E. fellowship by the CSIC. Thanks are also given to field and laboratory personnel of the Soils and Irrigation Department of C.I.T.A.

Funding

This study was supported by the Ministry of Innovation, Science, and Technology of Spain (Project no. AGL2005-08020-C05-01). M. Salmerón was granted with a J.A.E. fellowship by the CSIC. Thanks are also given to field and laboratory personnel of the Soils and Irrigation Department of C.I.T.A.

FundersFunder number
Ministry of Innovation, Science, and Technology of SpainAGL2005-08020-C05-01

    Keywords

    • Cover crops
    • Direct seeding
    • Maize
    • Nitrogen
    • SPAD
    • Tillage

    ASJC Scopus subject areas

    • Agronomy and Crop Science
    • Soil Science

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