Sampling Strategies and Quadrats

Slides:

Advertisements

Similar presentations

Advertisements

SAMPLING. Point Sampling DescriptionAdvantagesDisadvantages Individual points chosen on a map (either random or grid reference) are sampled Distribution.

Chi Square Test X2.

1.2 Investigating Populations. Learning Objectives Recap yesterday. Elaborate on a few things. Study the different ecological techniques used to study.

Ecology Sampling Methods. What are they? Biologists need to collect data ‘in the field” This data needs to be collected in a standardised way. (why?)

Sampling Techniques Quadrats. Sampling The best way to get information about a particular ecosystem would be to count every individual of every species.

Sampling Techniques To know how to use different sampling techniques Wednesday, May 06, 2015.

SBI4U Population Dynamics

2.7 Measuring changes in the system

Measuring biotic components of a system

Quantitative Study of plants (and animals) of a sample area of the selected ecosystem Transfer Results to Diagrams Graphs Tables Histograms Other relevant.

You would not go and count every single flower

To carry out an investigation of plant species in a local habitat using quantitative survey.

© SSER Ltd.. Ecological Techniques A variety of universal practical approaches exist for investigating the biotic and abiotic components of ecosystems.

The Biosphere Sub topic (a) Investigating an Ecosystem NameTeacher.

Ecology Calculations Dominican College, Griffith Ave.

Ecosystem Measurement If you know WHY you’re measuring, then you’ll know WHAT to measure.

Planning and Data Collection

Populations & Sampling. Population The number of species living in a particular place and a particular time Population ecology looks at knowing the dynamics.

2.3.2 Abundance of organisms.. Methods for Estimating Population Size 1. Quadrats 2. Capture/Mark/Release/Recapture (Lincoln Index)

The Diversity of 2 Fields No sheep Sheep. What we will study 1.Difference between the diversity of vegetation in the 2 fields 2.Differences between the.

How did you estimate the number of daisies? Did you try to count them all? Or did you use another method? See if this will help…

Aims for today To carry out a belt transect To learn how to measure abiotic factors To assess percentage cover of plant species To present this data in.

Sampling Techniques To know how to use different sampling techniques.

POPULATION STUDIES. Growth of populations FACTORS INCREASING POPULATION FACTORS DECREASING POPULATION BIRTH IMMIGRATION DEATH EMIGRATION.

Sampling  When we want to study populations.  We don’t need to count the whole population.  We take a sample that will REPRESENT the whole population.

Ecological Investigations 1 Counting Plants

© SSER Ltd. How can we investigate populations?. Ecological Techniques A variety of universal practical approaches exist for investigating the biotic.

Ecological Techniques Quadrats, Transects and Measuring Abiotic Factors.

Populations & Sampling. Population The number of individuals of a species living in a particular place and a particular time Population ecology looks.

Identify techniques for estimating various populations (quadrats, transects, mark- recapture) Understand the carrying capacity of ecosystems; factors.

POPULATIONS LESSON 2 - SAMPLING A critical appreciation of some of the ways in which the numbers and distribution of organisms may be investigated. Random.

Unit 3 Investigative Biology. SQA Success Criteria  Explain the difference between random sampling, systematic sampling and stratified sampling.

Our data suggests that the Habitat Diversity Theory better explains species richness of woody plants on islands in the BWCAW than the Equilibrium Theory.

Module 4 – Biodiversity By Ms Cullen. Terminology Try and define the following terms used when studying the environment.

Week 9: IB Biology Monday: G.4.: Conservation of Biodiversity ‘Explain the use of biotic indices and indicator species in monitoring environmental change’

Sheltered rocky shore briefing SM 08. Sheltered Rocky Shore Investigation Aim: To investigate the distribution and abundance of species on a sheltered.

Biodiversity Recall the definition of SPECIES from the topic Classification Write the key ideas in bullet points on white boards.

From last lesson….

Quadrat Sampling Chi-squared Test

C5 Population Ecology National geographic celebrates 7 billionth person on October 31, 2011 Need 1.5 Earths to support current growing population 19th.

Using a light microscope to observe and record animal and plant cells.

2.3 Measuring Biotic Components of the system

Biolody Field work Practical ecology

Organisms in their environment

Studying Ecosystems.

SEPTEMBER 28, 2016 BIOLOGY 10 DM MRS. HAUGHTON

Sampling Strategies and Quadrats

Sampling methods.

Unit 3 Science Investigation Skills

National Forest Inventory for Great Britain

Measuring biotic components of a system

Estimate the # of objects in each jar

Topic Quadrats and random sampling techniques Level

Unit 3- Investigative Biology Topic 2- Experimentation

Using a light microscope to observe and record animal and plant cells.

2.7 Measuring changes in the system

Local Habitat Sampling

Quadrat sampling & the Chi-squared test

Quadrat sampling & the Chi-squared test

Investigating distribution

Required Practical 9: Key term What is a quadrat?

Investigating Populations

Presentation transcript:

Sampling Strategies and Quadrats An introduction (or a reminder?)

Practical application? Sampling strategies Random Comparing two different areas that are managed in a different way / have differing environmental conditions / differing human impacts… Practical application?

Practical application? Sampling strategies Or Looking at changes across a habitat i.e. away from a tree / river, up a shore, down a stream… Systematic Practical application?

Either of these could be continuous Transects Line transect Or a belt transect Considerations: Length of transect, width of belt, intervals, number of samples Either of these could be continuous Or interrupted

Practical application? Sampling strategies Stratified Often used in conjunction with random or systematic sampling. Considerations: sizes of areas / environments, access, health and safety. Practical application?

Sutton’s Sortosquarus regulatus A comparison and evaluation of different methods of measuring abundance of species.

Count the number of individual plants within the open quadrat. Density Count the number of individual plants within the open quadrat. = 21 in 0.5m2 Could scale up i.e. 84 per m2

Estimate of % Cover Within the open quadrat estimate the percentage of the area that is being covered by the plant.

Abundance scales ACFOR Scale: A = Abundant 80% + C = Common 60 – 79% F = Frequent 40 – 59% O = Occassional 20 – 39% R = Rare 0 – 19% DOMIN Scale: 1 < 4%, with few individuals 2 < 4%, with several individuals 3 < 4%, with many individuals 4 4% - 10 % cover 5 11% - 25 % cover 6 26% - 33 % cover 7 34% - 50 % cover 8 51% - 75 % cover 9 76% - 90 % cover 10 91% - 100% cover Choose an appropriate category for the area that the plant is covering within the open quadrat.

% Frequency Record if the species is present or absent. Take a 10cm x 10cm quadrat and a random number table. Using the random numbers as co-ordinates, place the quadrats with the bottom left hand corner at the co-ordinate. Record if the species is present or absent. Repeat to collect 25 samples. % Frequency = Number present x 100 25

What about having even smaller grids? % Frequency This time, count how many of the squares within the 5cm x 5cm gridded quadrat contain a plant. Again, record presence / absence; count if any part of the plant is in the square. How does this compare to that of the 25 randomly placed 10cm x 10cm quadrats? What about having even smaller grids?

% Frequency This uses a method called POINT SAMPLING. In every intersection of each square in the 5cm x 5cm square gridded quadrat, use a pencil to see if a plant is present. If it is, count it as a hit, repeat for each square and the total will be a percentage cover of the plant for that quadrat. % Frequency = Total plants hit x 100 Points dropped

Now fit together the pieces to form a square and measure it. How does the true value compare to the techniques demonstrated?