Global macroecological patterns in host plant associations of Cryptocephalinae case-bearer leaf beetles (Coleoptera: Chrysomelidae)

The aim of our work is to catalogue host plant records of the leaf beetle subfamily Cryptocephalinae at the global scale and use it as the foundation to analyse host plant relationships, one proposed key driver in the evolution of phytophagan hyperdiversity. We describe macro-scale host association...

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Veröffentlicht in:Biological journal of the Linnean Society 2024-04
Hauptverfasser: Agrain, Federico A, Vento, Bárbara, Flinte, Vivian, Reid, Chris A M, Chaboo, Caroline S
Format: Artikel
Sprache:eng
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Zusammenfassung:The aim of our work is to catalogue host plant records of the leaf beetle subfamily Cryptocephalinae at the global scale and use it as the foundation to analyse host plant relationships, one proposed key driver in the evolution of phytophagan hyperdiversity. We describe macro-scale host association patterns and assess the trophic range of Cryptocephalinae at the generic level. We assembled 532 sources and extracted 14 253 host plant records (1894 species of plants) for 1436 species of Cryptocephalinae. The results revealed that most genera of Cryptocephalinae are either polyphagous or strongly polyphagous, yet the five tribes exhibit intrinsic patterns of host association. Clear macroecological constraints exist for Cryptocephalinae within major lineages of plants. Polyphagy is also maintained for most of the documented juvenile stages and the 19 genera with myrmecophilous species. The most common host plants for Cryptocephalinae are eudicots, especially among the rosids the order Fabales has the most records, and Asterales, Fagales, Malpighiales, Myrtales, Rosales, and Sapindales are common hosts within all Cryptocephalinae tribes. Our meta-analysis approach and assessing the quality of host plant records permit detection of patterns in host association at the global scale and allows detection of all levels of plant–beetle interactions, from unlikely hosts to potential or real feeders. Our criteria for assessing host plant records and our working model can be applied to other chrysomelid subfamilies and phytophagous insects. The analysis of macroecological patterns and host checklist provide a basis for generic revisions and hypothesis construction in future ecological, molecular, and morphological studies.
ISSN:0024-4066
1095-8312
DOI:10.1093/biolinnean/blae041