期刊
AMERICAN NATURALIST
卷 199, 期 6, 页码 E211-E228出版社
UNIV CHICAGO PRESS
DOI: 10.1086/719196
关键词
milkweed bugs; coevolution; sequestration; cardiac glycoside; specialization; antipredator defense
资金
- German Research Foundation [PE 2059/3-1]
- LOEWE (Landes-Offensive zur Entwicklung Wissenschaftlich-oekonomischer Exzellenz) program of the State of Hesse
- Czech Science Foundation [19-09323S]
Host plant specialization in herbivorous insects varies greatly. This study found that milkweed bugs can colonize novel hosts through physiological adaptations and convergent phytochemistry, providing protection without affecting their growth or development.
Host plant specialization across herbivorous insects varies dramatically, but while the molecular mechanisms of host plant adaptations are increasingly known, we often lack a comprehensive understanding of the selective forces that favor specialization. The milkweed bugs (Heteroptera: Lygaeinae) are ancestrally associated with plants of the Apocynaceae from which they commonly sequester cardiac glycosides for defense, facilitated by resistant Na+/K+-ATPases and adaptations for transport, storage, and discharge of toxins. Here, we show that three Lygaeinae species independently colonized four novel nonapocynaceous hosts that convergently produce cardiac glycosides. A fourth species shifted to a new source of toxins by tolerating and sequestering alkaloids from meadow saffron (Colchicum autumnale, Colchicaceae). Across three milkweed bug species tested, feeding on seeds containing toxins did not improve growth or speed of development and even impaired growth and development in two species, but sequestration mediated protection of milkweed bugs against two natural predators: lacewing larvae and passerine birds. We conclude that physiological preadaptations and convergent phytochemistry facilitated novel specialized host associations. Since toxic seeds did not improve growth but either impaired growth or, at most, had neutral effects, selection by predators on sequestration of defenses, rather than the exploitation of additional profitable dietary resources, can lead to obligatory specialized host associations in otherwise generalist insects.
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