Presentation is loading. Please wait.

Presentation is loading. Please wait.

Population Dispersion of Spider Webs

Published byGlenna Santoso Modified over 5 years ago

Similar presentations

Presentation on theme: "Population Dispersion of Spider Webs"— Presentation transcript:

1 Population Dispersion of Spider Webs

2 Spiders Spinnerets Webs to catch food Draglines Webs vs. Burrows
Ballooning Living conditions Common Names Nesting Eggs Life cycle

3 Spider Species Sheet-web weavers Orb Weavers

4 Data Collection Jewell Moore Nature Reserve
Random directions from central point 1 meter radius circles Limited to Forest Count # of webs in trees

5 Data Mean= 1.233 Variance=1.840 SD=1.357
Number of Cobwebs Frequency of cobwebs Observed P(x) Poisson 11 0.367 0.301 1 10 0.333 0.361 2 3 0.1 0.217 4 0.133 0.087 0.033 0.026 5 0.006 6 0.001 Table 1

6 Results In the Jewell Nature Reserve we surveyed thirty plots and found 37 spider webs, averaging 1.23 webs per plot. We expected 4 plots to contain 0 spider webs, but found 11 (see Table 1). The chi-square value, 43.28, suggests a borderline random, contagious dispersion pattern (refer to Figure 4C.6 in lab manual). Our variance to mean ratio, 1.46, is somewhat close to 1 which suggest random dispersion, but it is also above one which suggest contagious dispersion. This is consistent with our chi-square value. The number of individuals found in all the plots were close to the number of individuals predicted by Poisson which suggest random dispersion (see Table 1 and Figure 1).

7 Figure 1

8 Conclusion Why might our data be borderline between random and contagious? Old webs Different species

9 Conclusion Main Hypothesis:
1. The spider webs will be randomly dispersed because of food competition. Alternative Hypothesis: 2. Randomly dispersion occurs to prevent cannibalism. (see text page 253)

Download ppt "Population Dispersion of Spider Webs"

Similar presentations

Chi Square Your report 2. Intro Describe your trait you selected – What is the dominant and recessive trait – How did you collect the data? – What is.

Chi Square Your report 2. Intro Describe your trait you selected – What is the dominant and recessive trait – How did you collect the data? – What is.
Associations Let’s do the  2  dance It’s a question of frequency.

Associations Let’s do the  2  dance It’s a question of frequency.
Christopher Contreras. Variance is a value is used in statistics to describe how far away your data is from the mean. The mean is the average.

Christopher Contreras. Variance is a value is used in statistics to describe how far away your data is from the mean. The mean is the average.
© 2008 Prentice Hall, Inc.S6 – 1 Operations Management Supplement 6 – Statistical Process Control PowerPoint presentation to accompany Heizer/Render Principles.

© 2008 Prentice Hall, Inc.S6 – 1 Operations Management Supplement 6 – Statistical Process Control PowerPoint presentation to accompany Heizer/Render Principles.
Naked mole rats are a burrowing rodent

Naked mole rats are a burrowing rodent
SPIDER WEBS.  You know there are many kinds of spiders, but did you know there are many kinds of spider webs?  The spider web is a big clue to the kind.

SPIDER WEBS.  You know there are many kinds of spiders, but did you know there are many kinds of spider webs?  The spider web is a big clue to the kind.
CHAPTER 8 Basic Data Analysis for Quantitative Research ESSENTIALS OF MARKETING RESEARCH Hair/Wolfinbarger/Ortinau/Bush.

CHAPTER 8 Basic Data Analysis for Quantitative Research ESSENTIALS OF MARKETING RESEARCH Hair/Wolfinbarger/Ortinau/Bush.
APPENDIX B Data Preparation and Univariate Statistics How are computer used in data collection and analysis? How are collected data prepared for statistical.

APPENDIX B Data Preparation and Univariate Statistics How are computer used in data collection and analysis? How are collected data prepared for statistical.
Worked examples and exercises are in the text STROUD (Prog. 28 in 7 th Ed) PROGRAMME 27 STATISTICS.

Worked examples and exercises are in the text STROUD (Prog. 28 in 7 th Ed) PROGRAMME 27 STATISTICS.
Statistics 1 Measures of central tendency and measures of spread.

Statistics 1 Measures of central tendency and measures of spread.
Worked examples and exercises are in the text STROUD PROGRAMME 27 STATISTICS.

Worked examples and exercises are in the text STROUD PROGRAMME 27 STATISTICS.
McGraw-Hill/IrwinCopyright © 2009 by The McGraw-Hill Companies, Inc. All Rights Reserved. Chapter 3 Descriptive Statistics: Numerical Methods.

McGraw-Hill/IrwinCopyright © 2009 by The McGraw-Hill Companies, Inc. All Rights Reserved. Chapter 3 Descriptive Statistics: Numerical Methods.
Business Statistics Outline Dealing with decision problem when the face of uncertainty are important. Descriptive Statistics Sampling and Sampling Distributions.

Business Statistics Outline Dealing with decision problem when the face of uncertainty are important. Descriptive Statistics Sampling and Sampling Distributions.
Lumbricus terrestris: Dispersion Patterns at the UCA Nature Preserve Introduction Introduction As a group, we decided to study Lumbricus terrestris—the.

Lumbricus terrestris: Dispersion Patterns at the UCA Nature Preserve Introduction Introduction As a group, we decided to study Lumbricus terrestris—the.
Moss Diversity in the Kohala Forest By: Aolani Peiper, Brianna Vallente, and Madelyn Mumbert.

Moss Diversity in the Kohala Forest By: Aolani Peiper, Brianna Vallente, and Madelyn Mumbert.
Copyright © 2010 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin Chapter 5 Discrete Random Variables.

Copyright © 2010 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin Chapter 5 Discrete Random Variables.
PCB 3043L - General Ecology Data Analysis. OUTLINE Organizing an ecological study Basic sampling terminology Statistical analysis of data –Why use statistics?

PCB 3043L - General Ecology Data Analysis. OUTLINE Organizing an ecological study Basic sampling terminology Statistical analysis of data –Why use statistics?
Do Now: List 2 things you learned about Ecological Succession. Or How will an ecosystem change after a natural disaster over the years? Objective: Understand.

Do Now: List 2 things you learned about Ecological Succession. Or How will an ecosystem change after a natural disaster over the years? Objective: Understand.
The Pink Wild Bean (Strophostyles umbellata) Julie E. Moore Nature Reserve.

The Pink Wild Bean (Strophostyles umbellata) Julie E. Moore Nature Reserve.
PCB 3043L - General Ecology Data Analysis.

PCB 3043L - General Ecology Data Analysis.

Similar presentations

Ads by Google