Abstract
In recent years, sustainable agriculture has revitalized interest in crop rotations and their effects on crop performance and agroecosystem biodiversity, including weeds. This article used winter rye as an example and focused on the crop rotation (CR) impact on species, taxonomic and functional diversity of weed communities and analysed the contribution of crop rotation to protecting yield and regulating weed abundance. Long-term continuous rye cropping (CC) provided a background for comparison. Two variants of plant protection were also adopted: herbicide application (H+) and no plant protection (H−). The data from the 10th, 30th and 50th years of the experiment were included in the analysis. Diversified crop rotation with no chemical protection resulted in a satisfactory rye yield and reduced weed abundance—especially problem species—without a decrease in weed species diversity or functional diversity. When rye was grown under crop rotation, the herbicide application had no effect on yield protection, but it was harmful to weed biodiversity. The rye yield correlated negatively with weed biomass, but did not show a link with weed biodiversity. Continuation of long-term experiments as a research basis for contemporary and future scientific challenges is necessary.
Highlights
In recent decades, agronomical innovations, market preferences and specialist food processing chains have forced fundamental changes in crop rotation practices in conventional farming systems [1].This has resulted in the dominance of a limited number of cash crops and short-term management plans
Taking into account the farmyard manure (FYM) application program in the experiment and the fact that FYM is a source of nutrients and weed seeds, it should be considered whether the amount and timing of/distance from FYM application affected the rye weed infestation
This confirms that the cropping system effects and herbicides have a stronger effect on weed infestation than fertilisation [58]
Summary
Agronomical innovations, market preferences and specialist food processing chains have forced fundamental changes in crop rotation practices in conventional farming systems [1]. This has resulted in the dominance of a limited number of cash crops and short-term management plans. Most crop species react negatively to continuous cultivation on the same field or after a biologically related species. This contributes to the intensification and overlapping of many unfavourable phenomena, including: excessive growth of weed infestation, development of fungal diseases of Agronomy 2019, 9, 644; doi:10.3390/agronomy9100644 www.mdpi.com/journal/agronomy
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