Understanding the relations between Solanaceae crops and their pollinators: a global meta‐network

Crop–pollinator interactions are essential for world food security. Studying crop pollination from a network approach allows identification of target pollinators for conservation and management, and gaps in our knowledge. Solanaceae represents the third highest ranked family based on economic value, and its production is highly improved by animal pollination. This study aimed to integrate global data on solanaceous crop pollination and analyse the interaction patterns using a meta‐network approach. Our questions were: (i) how are interactions structured and what are the structuring roles of species; and (ii) what are the main gaps in our knowledge? Data were obtained through a systematic review of the main scientific databases. The network structure was described using connectivity and modularity calculations, and the role of species using centrality metrics. The 251 pollinator species reported were in seven orders, mainly Hymenoptera (84.9%). The generalists Bombus and Apis species were the most common pollinators. The meta‐network was modular, and all modules mostly included bees. Most species were peripherals, around 12% were connectors, and there were no module hubs. Apis mellifera was the only network hub (supergeneralist). The most important pollinators are the most managed pollinators worldwide; however, many native species play a role in structuring the meta‐network. Main gaps include species of importance to pepper pollination, lack of species‐specific identification, and the need for more robust experimental studies evaluating the pollination efficiency of native, manageable bees. The pollination meta‐network of Solanaceae crops is modular, has a high diversity of pollinators, with Apis mellifera as the unique network hub, and native bees playing an important role for network structure.