Jeremy deWaard - Museum Harvesting
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Transcript of Jeremy deWaard - Museum Harvesting
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Museum HarvestingJeremy deWaard
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Outline
• Deciding which collections to use
• Deciding which specimens/samples to use
• Destructive vs. non-destructive handling
• Voucher recovery protocols
• Biological material transfer policies
• Case study: Australian National Insect Collection 2010/2011 ‘barcode blitz’
* can download presentation (with links) at jeremydewaard.com Home institutions: BIO and
Royal BC Museum; pet group: looper moths
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Main theme
• work with the directors/curators/collection managers at every step
Entomological museum colleagues: John Brown, Don Lafontaine, Rob Cannings, J.F. Landry, John LaSalle, Karen Needham
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Deciding which collections to use
• contact the directors/curators/collection managers • generally glad to highlight the advantages of their collection
• often have to defend the value of their collection for continued funding/support/existence
ANIC, NHM, NMNH
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Deciding which collections to use
• several factors to consider:
1)one or more steps completed i.e. databased, imaged, sub-sampled (e.g. dragonflies at Royal BC Museum)
2)collection database online (e.g. Entomological collection at Strickland)
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Deciding which collections to use
• several factors to consider:
3)actively researched, recently curated or visited by taxonomic expert (e.g. Axel Hausmann at ZSM)
4)permanence of collection (e.g. fire at Instituto Butantan)
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Deciding which collections to use
• several factors to consider:
5)serving data to Global Biodiversity Information Facility (GBIF) or other biodiversity initiatives (e.g. 141 collections providing data on Atlas of Living Australia)
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Deciding which collections to use
• several factors to consider:
6)access to DNA or frozen tissue archive
e.g. Ambrose Monell Collection for Molecular and Microbial Research at the American Museum of Natural History
e.g. Alcohol Tubes of Lepidoptera (ATOLep) collection at the University of Maryland
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Deciding which collections to use
• several factors to consider:
7)infrastructure and space for various steps: arraying, data basing, labelling, imaging, and/or sub-sampling
8)registered collections (i.e. Registry of Biological Repositories: www.biorepositories.org)
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Deciding which specimens/samples to use
• discuss factors, organization, and limits with the directors/curators/collection managers
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Deciding which specimens/samples to use
• several factors to consider:
1)date of collection
2)preservation method
3)collector (may be tied to killing & preservation)
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Deciding which specimens/samples to use
• several factors to consider:
4)locality (ideal to sample across species range, near type locality)
5)authoritatively identified (i.e. well organized, det labels)
6)value-added specimens (e.g. genitalia/wing mounts, rearing records, figured in literature, voucher for survey, status report or other study)
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Deciding which specimens/samples to use
• several factors to consider:
7)individual specimens (that don't have to be removed from lots and/or prepared)
8)outliers e.g. different subspecies, habitats, elevations, collection dates
9)unsorted and partially sorted material (i.e. ‘pro tem’, accessions) and operational taxonomic units
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Destructive vs. non-destructive handling
• work with the directors/curators/collection managers to devise sampling or sub-sampling strategy
• generally will be destructive
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Destructive vs. non-destructive handling
• protocols exist for non-destructive sampling, but generally not conducive to high-throughput…
e.g. Knolke, S. et al 2005. Insect Systematics and Evolution 35: 401-409.
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Voucher recovery protocols
• an exception is the voucher recovery protocol used at BIO for small arthropods e.g. Porco et al 2010:
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Voucher recovery protocols
1. Incubate overnight in a lysis buffer
2. Apply lysate to 350 µl PALL plate with 0.45 µm GHP membrane sitting on top of collection plate with PALL collar
3. Centrifuge at 3000×g for 2 min
4. Use clarified lysate for extraction
5. Add 95% EtOH to lysis and PALL plates
6. Collect vouchers under microscope
• an exception is the voucher recovery protocol used at BIO for small arthropods e.g. Porco et al 2010:
• see also Natalia Ivanova’s poster (B70) for another protocol
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Biological material transfer policies
• discuss collection-specific material and data transfer/rights/strategies with directors/curators/collection managers• iBOL agreements and policy documents can be found at http://ibol.org/get-involved/for-scientists/
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Case Study - ANIC 2010/2011
• Australian National Insect Collection (ANIC) 2010/2011 ‘barcode blitz’ • don’t miss this talk by this guy
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Case Study - ANIC 2010/2011
• selected ANIC because: • it is the largest collection of Australian Lepidoptera (to maximize barcode recovery of new species)
• the average specimen age is relatively young (mean year of collection sampled was 1987)
• has had an excellent level of curation and authoritative identification
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Case Study - ANIC 2010/2011
• 3 visits of 5 weeks each by 4 - 6 BIO staff members
• ‘picker’, photographer, databaser, sampler
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Case Study - ANIC 2010/2011
• selecting specimens involved:
• picking ~3 specimens per species, more for an extensive range
• picking specimens < 40 years old, except in special circumstances • a preference for specimens linked to genitalic slides, wing mounts and rearing records
• avoiding troublesome collectors (e.g. J. Stockard – formalin vapour?)
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Case Study - ANIC 2010/2011
• project demonstrates the potential of museum harvesting:
• over 41,000 specimens sampled (~2500 per week for work force of 4)
• 5816 of 10675 on Lepidoptera of Australia checklist now barcoded (~55%), with analysis of 12K specimens still pending
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Extra thoughts and tips
• make it clear what the collection stands to gain (e.g. digitization, organization, accessioning, species lists)
• contribute even more when you’re visiting (e.g. by giving a seminar, providing plates, or sampling in researchers' pet groups) • go with a plan (e.g. list of species not barcoded on BOLD)
• respect for collection and specimens should be first priority
• enjoy the 'collection-sphere'!
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Case Study - ANIC 2010/2011
• to ensure species recovery, might need to alter how many specimens are sampled
• values are % of ANIC species that were successfully barcoded (500bp+) e.g. 75% of species that had 5 specimens sampled from the 1960s or earlier were successfully barcoded
• the average collection date (most recent per species) for ANIC is ~1987; based on 10,021 'species'
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Case Study - ANIC 2010/2011
Trip breakdown:
ANIC-1 (Oct 2010)12031 specimens4334 species
ANIC-2 (April 2011)16351 specimens5253 species
ANIC-3 (Oct 2011)12635 specimens4721 species
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DNA-friendly sources:•Arthropod legs•Muscle•Brain•Gonad (not in insects)
Discouraged sources:•Guts•Liver & internal organs
Main features of a barcode-friendly tissue source:•Mitochondria-rich•Low enzymatic activity•Easy lysis (but not autolysis)•Low risk of foreign contaminants
Avoid cross-contamination!
DNA-friendly Sampling: Tissue Source
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DNA preservation (or degradation) starts during collection (killing method, exposure to elements, etc.) Chris Meyer: “Get rid of water & shut down nucleases”
DNA-friendly killing/fixation methods:•Non-chemical methods (Freezing)•Ethanol (aquatic, pitfalls and malaise traps)•Chloroform, Cyanide, Ammonia (insects)•Isoflurane, carbon dioxide (vertebrates)
DISCOURAGED killing/fixation methods:•Formalin (marine)•Ethyl acetate (insects)•Diluted propylene glycol (malaise traps, pitfalls)•Most histological solutions
NB! Ensure timely preservation adequate for material
DNA-friendly Collecting: Specimen Fixation
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Non-chemical preservation:•Freezing – ideal, but expensive and logistically difficult•Drying – good, but sensitive to storage environment
NB! Do not change from one fixative to another!
Chemical preservation (fluid fixation):•Ethanol – good, common, but has issues•DMSO, EDTA, SDS – good for DNA, but not morphology
All methods are sensitive to a wide range of factors:•Nature and quality of tissue •Quality of fixative/preservative•Fixation procedure•Storage conditions
Making Collections DNA-friendly: Preservation
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Example: Ethanol Specimen•Quality (e.g., acidity and additives)•Reagent concentration (water content)•Tissue/Ethanol volume ratio•Relative surface area of sample•Storage temperature•Exposure to light•Fixative evaporation
Example: Dry Specimen•Drying conditions•Pretreatment (skin tanning, insect relaxing)•Ambient humidity•Storage temperature•Exposure to sunlight•Fumigants and preservatives used (PDB, arsenic)
Making Collections DNA-friendly: Other Factors