Agrotolerant and high nature-value species—Plant biodiversity indicator groups in agroecosystems

Abstract

Abstract We analysed the effect of agricultural land use intensity and landscape structure on the plant diversity and improved the monitoring methodology by classifying plant species into two emergent agrotolerance groups: (i) species that occur frequently on agricultural land – common agrotolerant species, and (ii) all other species – so-called nature-value species, including habitat specialists and rare weed species. We tested the hypothesis that the species richness (alpha-diversity at habitat scale) of those species groups has differential response to changes in agricultural land use intensity, landscape structure and habitat characteristics. The proportion of (semi-)natural elements in the landscape enhanced species richness at habitat and landscape scale. Higher fertilisation rate predicted the reduction in small-scale species richness in both species groups. High species richness of agrotolerant species was associated with the vicinity of agricultural land, i.e. open field boundaries, small-area habitat patches and road verges, while it was suppressed by tree or shrub layer. The alpha-diversity of nature-value species was higher in large-area habitat patches and ditch verges. The classification of plant species based on their tolerance to agricultural disturbances is very useful in the evaluation of the effects of agricultural practices on biodiversity. The distinction between agrotolerant and nature-value plant species, and the estimation of habitat structure would increase the effectiveness of biodiversity monitoring in agricultural landscapes in comparison with classical methodology based on the assessment of total plant species richness.