Phylogeny and Evolution of Pharmacophagy in Tiger Moths (Lepidoptera: Erebidae: Arctiinae) [PDF]
The focus of this study was to reconstruct a phylogenetic hypothesis for the moth subfamily Arctiinae (tiger moths, woolly bears) to investigate the evolution of larval and adult pharmacophagy of pyrrolizidine alkaloids (PAs) and the pathway to PA ...
Jennifer M Zaspel +2 more
exaly +8 more sources
Changes in Species Richness and Composition of Tiger Moths (Lepidoptera: Erebidae: Arctiinae) among Three Neotropical Ecoregions [PDF]
Paraná, Yungas and Chaco Serrano ecoregions are among the most species-rich terrestrial habitats at higher latitude. However, the information for tiger moths, one of the most speciose groups of moths, is unknown in these ecoregions.
Hernán Mario Beccacece +2 more
exaly +3 more sources
The Reduced Effectiveness of Protected Areas under Climate Change Threatens Atlantic Forest Tiger Moths [PDF]
Climate change leads to species' range shifts, which may end up reducing the effectiveness of protected areas. These deleterious changes in biodiversity may become amplified if they include functionally important species, such as herbivores or ...
Viviane G Ferro +2 more
exaly +3 more sources
Hilltopping influences spatial dynamics in a patchy population of tiger moths. [PDF]
Abstract Dispersal is a key driver of spatial population dynamics. Dispersal behavior may be shaped by many factors, such as mate-finding, the spatial distribution of resources, or wind and currents, yet most models of spatial dynamics assume random dispersal.
Pepi A +3 more
europepmc +6 more sources
Colour polymorphism associated with a gene duplication in male wood tiger moths [PDF]
Colour is often used as an aposematic warning signal, with predator learning expected to lead to a single colour pattern within a population. However, there are many puzzling cases where aposematic signals are also polymorphic.
Melanie N Brien +8 more
doaj +2 more sources
A genetic duplication event during evolution allowed male wood tiger moths to have either yellow or white patterns on their wings.
Violaine Llaurens
doaj +2 more sources
Molecular phylogeny of Lichen Tiger Moths (Lepidoptera, Erebidae, Arctiinae, Lithosiini): a contribution toward classifying Western Hemisphere genera [PDF]
This study analyzes molecular sequence data from one mitochondrial (COI) and two nuclear (28S, RPS5) genes to test the monophyly of previously proposed subtribes of the Lithosiini (Erebidae: Arctidinae), including subtribal assignment of all North ...
John D. Palting, Wendy Moore
doaj +4 more sources
Fast Census of Moth Diversity in the Neotropics: A Comparison of Field-Assigned Morphospecies and DNA Barcoding in Tiger Moths. [PDF]
The morphological species delimitations (i.e. morphospecies) have long been the best way to avoid the taxonomic impediment and compare insect taxa biodiversity in highly diverse tropical and subtropical regions. The development of DNA barcoding, however,
Mauricio M Zenker +5 more
doaj +2 more sources
Sexual differences in defensive strategies: investigating chemical defences and visual signals in a wasp moth Amata nigriceps [PDF]
Aposematic animals use conspicuous warning signals to advertise their chemical defences to predators. Selection by predators can favour conspicuousness and large pattern elements, which enhance predator avoidance learning.
Georgina E. Binns +9 more
doaj +2 more sources
Anti-bat tiger moth sounds: Form and function
The night sky is the venue of an ancient acoustic battle between echolocating bats and their insect prey. Many tiger moths (Lepidoptera: Arctiidae) answer the attack calls of bats with a barrage of high frequency clicks.
Aaron J. CORCORAN, William E. CONNER, Jesse R. BARBER
doaj +3 more sources

