Abstract
Many well-studied animal species use conspicuous, repetitive signals that attract both mates and predators. Orthopterans (crickets, katydids, and grasshoppers) are renowned for their acoustic signals. In Neotropical forests, however, many katydid species produce extremely short signals, totaling only a few seconds of sound per night, likely in response to predation by acoustically orienting predators. The rare signals of these katydid species raises the question of how they find conspecific mates in a structurally complex rainforest. While acoustic mechanisms, such as duetting, likely facilitate mate finding, we test the hypothesis that mate finding is further facilitated by colocalization on particular host plant species. DNA barcoding allows us to identify recently consumed plants from katydid stomach contents. We use DNA barcoding to test the prediction that katydids of the same species will have closely related plant species in their stomach. We do not find evidence for dietary specialization. Instead, katydids consumed a wide mix of plants within and across the flowering plants (27 species in 22 genera, 16 families, and 12 orders) with particular representation in the orders Fabales and Laurales. Some evidence indicates that katydids may gather on plants during a narrow window of rapid leaf out, but additional investigations are required to determine whether katydid mate finding is facilitated by gathering at transient food resources.
Highlights
Animals experience intense pressure to find food and mates while avoiding predation [1,2,3]
Successful plant sequences were recovered from the stomach contents of 71 insects representing 17 Neotropical forest katydid species
The of of ourour study do not support the hypothesis that Neotropical katydid speTheresults results study do not support the hypothesis that Neotropical katydid cies specialize their diet by host plant
Summary
Animals experience intense pressure to find food and mates while avoiding predation [1,2,3]. Mate finding relies on signals that allow one sex to locate the other, and can integrate a variety of sensory modalities including visual, acoustic, electrical, and olfactory channels [4]. There is often intense selection for strategies that facilitate mate finding while minimizing exposure to predation. Many Orthopterans, including crickets, katydids, and grasshoppers, are known for their conspicuous signals [9,10]. These species often use energetically expensive acoustic signals to attract mates [11,12], with signals repeated again and again for a large portion of the day or night. In the Neotropics, eavesdropping gleaning bats such as Trachops cirrhosis and Lophostoma silvicolum hunt katydids and other small animals by eavesdropping on the sounds that they produce [15,16,17]
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