Conserving and restoring semi-natural habitat, i.e. enhancing landscape complexity, is one of the main strategies to mitigate pollinator decline in agricultural landscapes. However, we still have limited understanding of how landscape complexity shapes pollinator communities in both crop and non-crop habitat, and whether pollinator responses to landscape complexity vary with their association with mass-flowering crops. Here, we surveyed pollinator communities on mass-flowering leek crops and in nearby semi-natural habitat in landscapes of varying complexity. Surveys were done before and during crop bloom and distinguished between pollinators that visit the crop frequently (dominant), occasionally (opportunistic), or not at all (non-crop). F...
Pollinator communities exhibit variable responses to changing landscape composition. A general expec...
Many studies in the past decade, mostly in temperate countries, have documented the effects of habit...
Pollination by bees and other animals increases the size, quality, or stability of harvests for 70% ...
Conserving and restoring semi-natural habitat, i.e. enhancing landscape complexity, is one of the ma...
Conserving and restoring semi-natural habitat, i.e. enhancing landscape complexity, is one of the ma...
Conserving and restoring semi-natural habitat, i.e. enhancing landscape complexity, is one of the ma...
Mass-flowering crops (MFCs) are increasingly cultivated and might influence pollinator communities i...
1. Ecosystem services to agriculture, such as pollination, rely on natural areas adjacent to farmlan...
Crop pollination services are an often-used argument for supporting pollinators in agricultural land...
Uncultivated field margins are important refugia for pollinating insects in agricultural landscapes....
Widespread evidence of pollinator declines has led to policies supporting habitat restoration includ...
Mass-flowering crops lead to spatial redistributions of pollinators and to transient shortages withi...
1. Agriculture now constitutes 40–50% of terrestrial land use globally. By enhancing habitat suitabi...
Pollinator communities exhibit variable responses to changing landscape composition. A general expec...
Many studies in the past decade, mostly in temperate countries, have documented the effects of habit...
Pollination by bees and other animals increases the size, quality, or stability of harvests for 70% ...
Conserving and restoring semi-natural habitat, i.e. enhancing landscape complexity, is one of the ma...
Conserving and restoring semi-natural habitat, i.e. enhancing landscape complexity, is one of the ma...
Conserving and restoring semi-natural habitat, i.e. enhancing landscape complexity, is one of the ma...
Mass-flowering crops (MFCs) are increasingly cultivated and might influence pollinator communities i...
1. Ecosystem services to agriculture, such as pollination, rely on natural areas adjacent to farmlan...
Crop pollination services are an often-used argument for supporting pollinators in agricultural land...
Uncultivated field margins are important refugia for pollinating insects in agricultural landscapes....
Widespread evidence of pollinator declines has led to policies supporting habitat restoration includ...
Mass-flowering crops lead to spatial redistributions of pollinators and to transient shortages withi...
1. Agriculture now constitutes 40–50% of terrestrial land use globally. By enhancing habitat suitabi...
Pollinator communities exhibit variable responses to changing landscape composition. A general expec...
Many studies in the past decade, mostly in temperate countries, have documented the effects of habit...
Pollination by bees and other animals increases the size, quality, or stability of harvests for 70% ...