Abstract
Abstract1. In many grasslands, some ants act as ecological engineers to produce long‐lasting soil structures which have a considerable influence on the patterns and dynamics of plant, vertebrate and invertebrate species. They promote species richness and diversity.2. The yellow meadow ant, Lasius flavus, is the most abundant allogenic ecological engineer in grazed European grasslands, producing vegetated long‐lasting mounds. It is so frequent and abundant that it must be regarded as a keystone species. Grassland restoration projects frequently attempt to re‐introduce grasslands on abandoned arable fields. When this ant does not colonize naturally it should be introduced. It probably limits the abundance of grasses in a similar manner to hemi‐parasitic plant species.3. Ant‐hills make a distinctive contribution to grassland heterogeneity. Measurements on mounds in a single grassland over 45 years document the dynamics of the same 200+ ant‐hills in volume, surface area and basal area. As the mounds aged, they increased in size and took over a higher proportion of the grassland surface. Occupied mounds continued to grow, abandoned mounds decreased in volume and some disappeared entirely.4. Four plant species favoured by the soil heaped by the ants were also monitored. Two woody perennials grew up through heaped soil and two short‐lived species colonized its surface. As the mounds became occupied, some of these species significantly increased, and when they were abandoned some decreased.5. In a grassland, the ant‐hill population provides a fluctuating subset of plant and animal species which are characteristic of temporary habitats. This seems likely to reduce the rate of local extinctions which might otherwise result from fluctuations in grazing pressure. In conservation settings, ant‐hills should be introduced or maintained where possible, and considered in planning grassland maintenance and management.
Highlights
Grasslands cover about 2 million km2 of the planet’s surface
The ant-hill population provides a fluctuating subset of plant and animal species which are characteristic of temporary habitats
In many grasslands over such a wide geographical area, L. flavus ant-hills make a major contribution to plant and animal species richness, this study of the dynamics of an ant-hill population has considerable implications for the conservation of existing grasslands and the establishment of new ones
Summary
Grasslands cover about 2 million km of the planet’s surface. Many support ant-hills and termite mounds on a grand scale (Martin, Funch, Hanson, & Yoo, 2018; Tarnita et al, 2017; Wells, Sheail, Ball, & Ward, 1976). Whether created from heaped soil or carton, these considerably increase environmental heterogeneity They often offer bare soil, hotspots, feeding stations for vertebrates and provide microhabitats for many plant and invertebrate species. King, 1977a; Okullo & Moes, 2012; Schutz, Kretz, Dekoninck, Iravani, & Risch, 2008; Wills & Landis, 2018) Some ant species, such as Lasius flavus (F.) in grasslands, produce long-lasting mounds which harbour a distinct flora and animal life. They frequently increase the species richness of the habitat, both on the mounds and between them Their presence is important in the conservation of old grasslands and the creation of new ones (Jouquet, Dauber, Lagerhof, Lavelle, & Lepage, 2006; King, 2006). Their maintenance and long-term survival need to be carefully considered as an integral component of management plans, because they increase the range of micro-environments and may contribute to the ability of the grassland to withstand perturbations
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