Abstract
South African savanna grasslands are often characterised by indigestible tufted grass species whereas lawn grasses are far more desirable in terms of herbivore sustenance. We aimed to investigate the role of nutrients and/or the disturbance (grazing, trampling) by herbivores on the formation of grazing lawns. We conducted a series of common garden experiments to test the effect of nutrients on interspecific competition between a typical lawn-forming grass species (Cynodon dactylon) and a species that is frequently found outside grazing lawns (Hyparrhenia hirta), and tested for the effect of herbivore disturbance in the form of trampling and clipping. We also performed a vegetation and herbivore survey to apply experimentally derived insights to field observations. Our results showed that interspecific competition was not affected by soil nutrient concentrations. C. dactylon did show much more resilience to disturbance than H. hirta, presumably due to the regenerative capacity of its rhizomes. Results from the field survey were in line with these findings, describing a correlation between herbivore pressure and C. dactylon abundance. We conclude that herbivore disturbance, and not soil nutrients, provide C. dactylon with a competitive advantage over H. hirta, due to vegetative regeneration from its rhizomes. This provides evidence for the importance of concentrated, high herbivore densities for the creation and maintenance of grazing lawns.
Highlights
No effect of competition or fertilization was found on the aboveground biomass of H. hirta, but there was as small competition x fertilization interaction effect on the biomass of C. dactylon (R2adj = 0.177, F4,90 = 3.583, p = 0.009; Table 2), with a lower amount of biomass of C. dactylon when growing in a mixed sward under P fertilization
Studying the performance of Cynodon dactylon and Hyparrhenia hirta, our results support the hypothesis that lawn formation and its persistence can be induced by sufficient herbivore disturbance
We suggest that the regenerative power of the rhizomes of C. dactylon underlie this species’ ability to survive under heavy disturbance, i.e. the regenerative ability of C. dactylon under grazer disturbance enables the species to quickly colonize empty patches of less resilient tufted grasses, facilitating the formation of Cynodon-dominated lawns
Summary
We aimed to investigate the role of nutrients and/or the disturbance by herbivores on the formation of grazing lawns. This study aims to provide clarity on the importance of each of these drivers for lawn formation by studying them both combined and in isolation of each other, as well as by having a closer look at plant specific features such as stolons and rhizomes and the role they play
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