Details of Award

NERC Reference : NE/P003915/1

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NSFDEB-NERC: Phylogenomics and sensory systems evolution in silkmoths and relatives

Grant Award

Principal Investigator:: Dr IJ Kitching, The Natural History Museum, Life Sciences
Grant held at:: The Natural History Museum, Life Sciences

Science Area:: Terrestrial
Overall Classification:: Panel E

Science Classification details

ENRIs:: Biodiversity
Science Topics:: Systematics & Taxonomy; Gene action & regulation; Population Genetics/Evolution; Transcriptomics

Abstract:: This study proposes to produce a comprehensive phylogeny of a model insect group, silkmoths and relatives (Bombycoidea) and use it to study the evolution of two principal sensory systems: vision and olfaction. The 5-year project will develop a US-UK Collaborative Partnership to cross pollinate PIs and students among 5 institutions to carry out the following objectives: 1) generate a 1000-taxon, 700-gene phylogeny of Bombycoidea to build a robust evolutionary framework; 2) quantify sensory morphology of 2 key organs (eye and antenna) that are central to insect vision and olfaction; and 3) reconstruct the evolutionary history of genes in the visual and olfactory transduction networks to test whether sensory morphology and selection on relevant genes changes between species that are active during the day or night. Nearly all animals utilize vision or olfaction as a primary sensory system. It has been presumed that species' shifts between being active in light or dark environments drives sensory organ morphology and selection on relevant genes. However, this central hypothesis remains largely untested, because a comprehensive evolutionary framework and comparative data have been largely lacking. Bombycoidea are one of the most conspicuous groups of Lepidoptera. They provide an excellent opportunity to study how 2 potentially complementary sensory systems, vision and olfaction, have evolved at day/night transitions, because species in the group have distinct activity times, diverse eye and antennal morphologies and advanced sensory gene networks. The superfamily includes many model organisms (e.g. Bombyx mori, Manduca sexta) that serve pivotal roles in studies on genetics, physiology and development. They are also economically important and are frequently used as educational tools because of their large size, charisma, and ease in rearing. The availability of several whole-genome bombycoid sequences provides a unique opportunity to target sensory gene families that cannot be studied in many other invertebrate groups. Despite their central role in science and outreach, Bombycoidea still lacks a robust phylogeny. With our collaborative research teams in the US and UK, we will assemble the largest molecular dataset for this superfamily and construct a phylogeny of 1000 species. Our 700-gene anchored enrichment probe set has been designed and tested for both ethanol and recently-collected dry specimens, and can be applied broadly across the order with high success, thereby making this tool useful to the broader phylogenetics community. The broader impacts have 3 goals: (1) Provide data and tools for the enhancement of science. The molecular data and the new phylogeny will open the door to extensive comparative character and gene-evolution analyses of a major model group within one of the largest diversifications of holometabolous insects. Our ODORS toolkit, designed to search for olfactory genes, is the first of its kind for non-model organisms, and will be extremely valuable to the scientific community. Data and results will be broadly disseminated to the scientific community via online aggregates and databases. (2) Promote interest and train students at all levels and diverse backgrounds. We will train 2 postdocs, 2 grad students, 11 undergrads, and dozens of school students. We will enhance scientific literacy in STEM programs by targeting minority students and by integrating younger students who are still developing concepts about the natural world. We will also conduct workshops on phylogenomics, imaging, and gene evolution. (3) Educate the broader community through museum-based outreach. We will: (a) Hold an annual 'Moth Sort' event at FLMNH; (b) Develop a museum exhibit focused on bombycoid diversity and sensory systems at UF, BYU and NHM; and (c) Create a "night at the museum" experience by opening the McGuire Center's Butterfly Rainforest at night to allow visitors with headlamps to see large bombycoid moths in flight.

Period of Award:: 1 Sep 2016 - 31 Aug 2022
Value:: £240,777

(FY details)

Authorised funds only

NERC Reference:: NE/P003915/1
Grant Stage:: Completed
Scheme:: Standard Grant FEC
Grant Status:: Closed
Programme:: Lead Agency Grant

This grant award has a total value of £240,777

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FDAB - Financial Details (Award breakdown by headings)

DI - Other Costs	Indirect - Indirect Costs	DA - Investigators	DA - Estate Costs	DI - Staff	DI - T&S	DA - Other Directly Allocated
£12,909	£82,741	£20,095	£21,391	£86,449	£3,710	£13,483

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