Keyword: DNA barcoding and its application

Mehrdad Hajibabaei

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Our work spans three research themes:
1) DNA metasystematics: We gather biodiversity data through the analysis of marker genes from bulk samples (water, soil, and sediments). We pioneered this technique for benthic macroinvertebrates, used widely as bioindicators of aquatic ecosystems.
2) Biodiversity transcriptomics: We develop comparative transcritpome-based approaches for non-model organisms to gain insights on evolution of transcriptomes and understand molecular responses at ecological scale.
3) Bioinformatic approaches for biodiversity genomics data: We develop and test taxonomic assignment approaches for many taxonomic groups and marker genes, and develop tools to enhance analysis of metabarcoding and biodiversity genomic data through machine-learning methods and refined analysis.

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Paul Hebert

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Morphological studies have provided an outline of biodiversity, but are incapable of surveying, managing and protecting it on a planetary scale. By exploiting two technologies that are gaining power exponentially – DNA sequencing and computational capacity – my research promises an ever-accelerating capacity to monitor and know life. In particular, I aim to automate species identification and discovery, and to employ this capacity to answer longstanding scientific questions. Automation is possible because sequence diversity in short, standardized gene regions (DNA barcodes) enables fast, cheap, and accurate species discrimination. New instruments can inexpensively gather millions of DNA sequences, enabling surveys of organismal diversity at speeds and scales that have been impossible.

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Robert Hanner

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Molecular biodiversity research and highly qualified personnel training are lab focal points. Using field and lab-based methods together with bioinformatic tools and statistical modelling approaches, we study the patterns and drivers of species habitat occupancy, community assembly and food web ecology. This information is central to addressing a variety of questions pertaining to biodiversity conservation, environmental effects monitoring and food security. We also contribute to the development of standard methods and best practices necessary to enhance receptor uptake capacity for a variety of partners including indigenous peoples, industry, governmental as well as non-governmental organizations, and other citizen science initiatives.

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Brian Husband

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My research program investigates the ecological and evolutionary processes operating in plant populations, both wild and domesticated. Much of our work is conducted through the lens of plant reproductive systems, which control the quantity and quality of sperm and eggs, patterns of mating, and ultimately the transmission of genetic variation from one generation to the next. Current research projects include: 1) mating system variation and evolution, 2) polyploid speciation, 3) genetic and phenotypic consequences of whole genome duplication; 4) biology of small populations, and 5) impacts of hybridization between introduced species and endangered congeners. We work on a variety of study systems, including Arabidopsis, apple, strawberry, fireweed, American chestnut, and mulberry.

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Karl Cottenie

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In the next 5 years, I will shift my research strategy by consolidating 4 streams of my past research: temporal dynamics, host-symbiont interactions, small mammal metacommunity dynamics, and DNA-based species identification and bioinformatics. I will focus on a study system that combines my past strengths in metacommunity ecology at multiple scales, but will apply them to a novel system: microbial metacommunities nested within a matrix of metacommunity of different host species.

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Elizabeth Boulding

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The current rates of environmental change experienced by animal populations are higher than have been experienced over much of fossil record. My laboratory investigates the factors that determine whether a population will adapt to a change in the environment without going extinct. Our current projects are:
1) Invasion biology, comparing scales of local genetic adaptation to exotic predators by prey with high and low dispersal potential.
2) Genomic selection and genome wide association analysis of growth, shape, pathogen resistant and life history traits in Atlantic salmon populations.
3) Assessing heritable variation in biological control of the salmon louse by two species of cleaner fish and co-operative behaviour by their client, Atlantic salmon.

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M. Alex Smith

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In this lab, we work to better understand the contemporary distribution of hyperdiverse, and often cryptic, species of insects across major ecological gradients in tropical and temperate environments. Our research is built upon projects designed to explore the causes and consequences of biodiversity across elevational, latitudinal and disturbance gradients and builds on long-term collections using phylogenetic, functional and physiological measures. I am committed to teaching, and learning from, diverse individuals and scientists, participating in outreach, improving how we communicate science, and publishing accessible research and data.

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Kevin McCann

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Generally speaking, we are interested in understanding how biological structure, broadly defined to include structure of all biological forms, mitigates the stability and functioning of ecosystems. This question naturally leads to understanding how human impacts alter biological structure and so also how impacts may potentially alter the stability and functioning of whole ecosystems. This latter aspect of human impacts brings has our empirically motivated interests in developing practical biomonitoring techniques that span the ecological hierarchy. Our work is theoretical, empirical and experimental, and most often in aquatic ecosystems like streams, lakes and coastal oceans. We are highly collaborative and have worked globally on different ecosystems.

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