Abstract
In future, grass swards need to be adapted to climate change and interactions of management and site are becoming more important. The persistence of Lolium perenne on peatland or during dry periods is limited and alternative forage species are required. We tested the performance of a modern variety of Festuca arundinacea and Phleum pratense as an alternative to Lolium perenne on clay, peat, and sandy soils. Each of these grasses was sown as main species in mixture with Poa pratensis and Trifolium repens and the mixtures were subjected to different frequencies of defoliation. Differences in yield proportions in the third year were significantly influenced by main species, site and their interaction. Remaining mass proportions of main species after three years were smallest on peat; on all sites Festuca arundinacea showed the highest persistence and largest yield, followed by Lolium perenne. Mass proportions of Phleum pratense were small on peat soils and Phleum had been replaced there by Holcus lanatus, and by Lolium perenne and Poa pratensis on the clay and sandy soils. We conclude that the choice of grass species in mixtures is a management tool to control stability and productivity of grass swards under specific site conditions.
Highlights
IntroductionIn cutting-only systems and during phases of drought, the performance of Lolium perenne (LoPe) is decreasing and other species might invade the sward and displace LoPe [3]
In temperate climates, Lolium perenne (LoPe) is regarded as the most important and valuable grass species in agricultural grassland—it produces large yields and provides feed of a high feeding value.LoPe is well adapted to clay soils and a more maritime climate and profits from intensive grazing [1,2].In cutting-only systems and during phases of drought, the performance of LoPe is decreasing and other species might invade the sward and displace LoPe [3]
The experimental design included different sites, different mixtures based on three main species (LoPe, Festuca arundinacea (FeAr), Phleum pratense (PhPr)) subjected to three management regimes over three experimental years
Summary
In cutting-only systems and during phases of drought, the performance of LoPe is decreasing and other species might invade the sward and displace LoPe [3]. With a trend to all-year-housing of dairy cows, the amount of cutting-only grassland is increasing. Climate change is expected to lead to a higher probability of drought periods in summer, more rainfall in winter and a generally prolonged vegetation period in North-West Europe [4,5]. These developments reduce the competitiveness of LoPe, leading to a lower persistence and reduced performance of the grass sward.
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