Citizen Science: The Scientific Process & Sampling

Citizen Science:The Scientific Process & Sampling Idaho Master Naturalist Program Shane Roberts Wildlife Biologist Idaho Fish & Game

Overview • Scientific Method • Types of scientific inquiry • Common sampling methods • What are they doing in that helicopter? • Tips for citizen scientists & volunteers

Scientific Method Observation • Volunteers are often involved in one specific part of the process but are also very important to other steps Question Hypothesis Methods Data Collection Data Analysis Conclusion Communication

Observation, Question, & Hypothesis • Question • Whole purpose of the process • Usually begins with an observation • Hypothesis • An educated guess • Must be testable & refutable • Aim is not to “prove”

Research Design • What is the best way to test the hypothesis? • Designs • Observational • Case Study • Correlational • Differential • Experimental • Quasi-experimental

Wildlife Populations • IDFG focuses on populations, not individuals • Exception – rare, endangered species • A population is a collection of inter-breeding organisms of a particular species that share a particular characteristic of interest, most often that of living in a given geographic area • Island Park elk • Can be defined in many ways

Wildlife Populations • Population estimation • BIDE formula Nt+1 = Nt + pop growth Pop growth = birth + immigration – death – emigration • Sampling seeks to provide estimates for these variables

Methods • What exact things do you need to do to carry out the experiment? • Census or sampling? • Census usually impossible in wildlife biology • Sample size • Very important for reliable results • Protocols • Consistency and repeatability

Sample Size • Too large • Waste of time, $$$, resources • Too small • Bias results • Lack of “power” • Law of large numbers

Sample Size • Sample • 0 Adult • 2 Raghorn • 4 Spike • Population • 2 Adult • 6 Raghorn • 10 Spike

Sample Size • Sample • 2 Adult • 1 Raghorn • 1 Spike • Population • 2 Adult • 6 Raghorn • 10 Spike

Sampling • Subset of population used to make inferences about the population • Random • Systematic • Stratified random • Subpopulations within a population • Others

Sampling • Transect sampling • Linear sample taken at numerous starting locations within the survey area • Common in small mammal surveys • Plot sampling • Areas sampled at numerous locations within the survey area • Common in vegetation surveys • Canopy cover, diversity, succession, noxious weeds

Sampling • Vegetation • Robel pole (cover pole) • Vegetation structure and density • Daubenmire frame • Frequency, composition, % cover • 10-pin frame • Species frequency • Clipping • Biomass • Core sampling, fruit traps, and many others

Sampling • Birds • Call & response survey • Presence, relative abundance • Point counts • Diversity, presence, relative abundance • Mist netting (birds & bats) • Diversity, presence, relative abundance • Species specific • Marking, measurements • Nest surveys • Presence, production

Sampling • Fish • Electrofishing • Immobilize fish • Abundance, density, diversity • Species & size dependent • Snorkel surveys • Visual observations • Structure/habitat use • Netting & trapping • Certain species, size classes, behaviors • Structure passage (dam, weir) • Mark-recapture

Sampling • Mammals • Trapping • Relative abundance, mark-recapture, collaring • Track & scat surveys • Snow, tracking medium • Diet analysis • Scent station or hair snare surveys • Secretive carnivores • DNA or marker • Visual surveys • Aerial, ground, spotlight…

Sampling • Human Dimensions • Observations • Resource use • Information board use • Interviews • Telephone surveys • Face-to-face (public meetings, checkstations) • Questionnaires • Hunter report cards • Online reporting forms • Public comment opportunities

Sampling Idaho’s Game Species • Sampling constrained by: • Time • Weather • Logistics (e.g., pilot availability ) • Manpower • $$$ • Participation (checkstations, report cards, etc) • Animal behavior • Seek to maximize accuracy and thoroughness with the resources we have

Model provides an estimate of visibility bias by incorporating environmental factors that the observers can not control: Snow cover Animal behavior Vegetation type Group size And standardizing factors that they can control: Flight speed # of observers Type of aircraft Observer training Sightability Surveys • Aerial survey + model of visibility bias

Sightability Surveys • Stratified sampling scheme • Abundance (habitat) • More time spent in better winter habitat • All portions of the zone/unit likely to harbor wintering deer or elk are sampled • Population estimate and composition • Pop estimate only for mule deer • 4-year rotation

Sightability Survey Video

Mule Deer Composition Surveys • Antler drop precludes pop estimate and comp simultaneously • Less detailed data, more frequent • 500-1000 total animals • Used to assess: • Composition of the population • Ratios – Males:Females:Young • Classes of males • Population direction • Effects of management

Other Aerial Surveys • Mountain Goats • Trend survey of known occupied habitat • Geographically restricted • Bighorn Sheep • Trend survey, working on sightability • Canada Geese, Swans, Waterfowl • Pair counts, mid-winter waterfowl • Assess reproduction and population trend • Grizzly Bears • Distribution & abundance • Sage-grouse • Lek surveys, wintering locations

Other Methods • Some species: • Aerial surveys inefficient • Difficult to see, low density, solitary • Funding not available • Moose • Aerial incidentals • Analysis of harvest success, antler spread, age • Black Bear & Mountain Lion • Analysis of harvest success, age • Scent station/post surveys • Snow track, hair snare surveys

Other Methods • Bighorn Sheep • Aerial incidentals • Assessment of reproduction • Radio-collared subset • Disease monitoring • White-tailed Deer • Incidental aerials • Harvest data trends

Other Methods • Pronghorn • Aerial incidentals • Harvest data analysis, horn measurements • Sage & Sharp-tailed Grouse • Lek route surveys • Harvest data • Checkstations • Wing data • Other upland game birds • Harvest data • Banding

Other Methods • Waterfowl • Federally controlled • Harvest data analysis • Guidelines set by USFWS • Banding • Wolves • Extensively monitored (until relisting) • Population estimated from known packs, pack size, lone wolves • Future may move to a patch occupancy method • Tracks, scat, howling

Sampling • Age • Tooth wear and replacement, cementum annuli, sexual development, size, coloration, plumage… • Population reconstruction • Reproduction • Sexual development, lactation, reproductive tracts • Size & Condition • Reproduction, survival, habitat, seasonal influence

Marking Animals • Radio transmitters • Survival, cause-specific mortality, movements, habitat use, behavior, etc • Collars, glue-ons, tail tags, eartags, backpacks, internal • Bands (leg & neck) or tags • Harvest mortality • Movements • Physical marking • Paint, tatoo, PIT tag, eartag, fin clips, etc. • Chemical marking • Tetracycline

VHF collars Manual tracking, labor intensive “Beeps” on a certain frequency & pulse rate Mortality sensor Accuracy depends on terrain & data quality depends on effort Cheap GPS collars Automatic tracking Accurate locations Frequent relocation (vegetation influence) Expensive Less labor Remote programming & download Many types… Marking Animals

Marking Animals • Used for: • Mark-recapture population estimation • Population modeling • Harvest estimation • Life history, ecology, and behavior studies • Response to disturbances • Development and fine tuning of other, non-marking population estimation techniques • And many others…

Data Collection • Follow previously determined methods and protocol • Consistency helps validity and reliability • Thoroughness • Fill in all information • Blanks can be confusing • “0 is a number”, N/A, — • Notes/comments can be very helpful

Data Analysis & Conclusions • Data analysis • Database development • Statistical analysis • Mapping • Conclusions • Disproving a hypothesis can be just as useful as supporting it • Often leads to additional research ideas • Can make science frustrating to some!

Communication • Very important step! • Lack of communication leads to: • Unnecessary replication • Inefficient research & management • Confusion, misinformation • Professional literature, agency reports, online, newspaper, etc. • Volunteers important • Spread the word from personal experiences

Being a Good Citizen Scientist & Volunteer • Detailed documentation!!!! • Numbers, dates, weather… • If in doubt, write it down • Ask questions before, during (depending on situation), and after the operation • Equipment, duration, dangers… • Some operations are time & noise sensitive • Let someone know where, when, what • Good attitude & patience

Global Positioning System (GPS) • Extremely useful tool! • Take waypoints (“Mark” or pushpin button) • Label appropriately • Mark important locations • Truck or departure point • Track your progress • Many newer models track automatically • Learn how to use the “GOTO” tool • Ask for help!

Questions?

Citizen Science: The Scientific Process & Sampling