MODULE 13 Effects of Road Disturbance on Arthropod Diversity SEE-U 2001Biosphere 2 Center, AZ Professors: Danoff-Burg, James Kittel, Tim TA: Erika Geiger.

Slides:

Advertisements

Similar presentations

Winter Invertebrate Composition as a Function of Elevation How does invertebrate richness, diversity, and abundance change throughout an elevational gradient?

Advertisements

Investigating the relationship between species richness and wilderness in the coastal temperate rainforest of Southeast Alaska. This poster represents.

BABY GOT BACK!. Introduction Does biome affect liquid foraging rates of Crazy Ants {Paratrechina longicornis}? Does biome affect the number of engorged.

Bachelor Reserve vs. Oxford’s “Mile Square”. Introduction  Purpose - To study insect diversity in the Bachelor Reserve and the "Mile Square“ to see whether.

3.2 Communities (Page 95-99) Homework: Page 99 # 1, 4, 5 Key Concepts: (Page 99)

 Simpson's Diversity Index is a measure of diversity. In ecology, it is often used to quantify the biodiversity of a habitat. It takes into account the.

Module 3: Local Environmental Gradients Introduction Individuals of populations are adapting to survive. How are ecological gradients defined? An ecological.

COMMUNITY ECOLOGY I: BIODIVERSITY Community: Any assemblage of populations [of plants and/or animals] in a given area or habitat.

CHAPTER 53 COMMUNITY ECOLOGY Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings Section D: Biogeographic Factors Affecting the Biodiversity.

Communities: Quantifying community structure. Mary E. Allen Hartwick College.

Clermont College Ecology Michelle Beebe Ashley Callahan Kati O'Rourke Professor Janet Stein-Carter.

Plant diversity and land use under organic and conventional agriculture: a whole- farm approach Paper by: R. H. GIBSON, S. PEARCE, R. J. MORRIS, W. O.

Decomposers: The end and the beginning James Danoff-Burg SEE-U Columbia University.

Unit 5 Lesson 1 What Is an Ecosystem?

Native Bees Along Elevation Gradients as Bioindicators of Climate Change Scott Daniels 1, Dave Smith 2, Neil Cobb 3 1. Cesar Chavez High School, Laveen,

Module 9: The Effects of Elevation on Forest Microclimate,Flora and Insect Life SEE-U 2001 Biosphere 2 Center, AZ Professor Tim Kittel, TA Erika Geiger.

 DIVERSITY  RELATIONSHIP OF DIVERSITY & STABILITY  DIVERSITY INDEX  MICROCLIMATES  USING QUADRANTS.

Global Environments By Emily Burns.

Effect of a Tropical Storm in a Urban Secondary Forest in Humacao, Puerto Rico Cintrón Sol Taína 1,, Carmen Zayas 1, Natalia Piñeiro 1, Joel Soto 2 y Denny.

Biodiversity – Chapter 22. Biodiversity Species richness – the total number of species in an area –Simplest measure of biodiversity Heterogeneity - higher.

Scientific Method in Action – Group Task Group members : Mabandi Mnisi Moses Shitlhelani Christopher Shai.

Patterns in Communities & Succession. Species Richness Species richness: number of species in a community Species evenness: relative abundance of species.

Exotic Herbivore Species Grazing Effect On Plant Life Module 5 SEE-U 2001 Biosphere 2 Center, AZ Adam Nix Eli Pristoop J.C. Sylvan Yuko Chitani Mei Ying.

Reintroduction of Species It’s the right thing to do “and you know this, Man!”-- Smokey SEE-U 2001, Biosphere 2 Center, AZ Professor Tim Kittel, TA Erika.

1 UK Climate Projections 2009 Regional Data – West Midlands.

Introduction In this exercise we attempted to determine the area one has to sample before adequately representing the community of plants and arthropods.

Chapter 3 Opener. Figure 3.1 The current extent of tropical forests and the areas that have been cleared of tropical forests.

INTRODUCTION Changes in land use in basin areas, including conversion of previously forested areas into agricultural pastureland, can often have negative.

The Road Not Taken: The Effect of Road Intensity on Carrion Beetle Diversity Heather Graham-Alexander, Bubu Bennett, Kim Charlie Ellen Creveling, James.

Biomes of the World. Two major Types of Biomes 1. Terrestrial Biome – Those biomes found on land, mainly characterized by plant life. 2. Aquatic Biome.

Eric Kortenhoeven Mentor: Dr. Neil Cobb Hooper Undergraduate Research Award (HURA)

Introduction Plants use solar energy, carbon dioxide, and water to create energy in the form of carbohydrates—primarily glucose, a sugar made in the chloroplasts.

Comparison of Hymenopterans of Three Forest Types in Morro do Diabo, Sao Paulo State, Brazil Crystal Begin Brazilian Atlantic Forest SEE-U 2000.

Module 14: Exotic Species Introduction Cameron, Barney, Puja, Nate, Crystal, Rachael Atlantic Forest, Brazil SEE-U 2000.

Student: Lily Liew SEE-U 2001, Biosphere 2 Professor James Danoff-Burg Professor Tim Kittel T.A. Erika Geiger Impact of Human Activity on Birds Observed.

Subnivean Access in Forests of Varying Density Patrick Ellsworth Winter Ecology, Spring 2013 Mountain Research Station.

Rainforests A rainforest is a biome ( an area with similar climate). Climate - based on temperature and amount of rainfall Most rainforests are in South.

Measuring Biodiversity Biodiversity The number and variety of life forms found within a specific region. In order for biodiversity to remain high, diverse.

Unit 7 Vocabulary. biotic Organisms living or that had once lived in the environment (i.e., mouse, clover, dead tree)

AP Environmental Science

Chapter 6 Biomes. A large region characterized by a specific type of climate and certain types of plants and animal communities. Biome Why are biomes.

Thursday Sept 12/Friday Sept 13 AGENDA Stamp and review homework Activity: Interactions Among Organisms Notes: Populations in Ecosystems HOMEWORK Read.

A Study of Factors Affecting Biological Diversity Based On The Auburn Forest and Nokomis Forest Auburn Nokomis Collin Li, Eric Tom, Benjamin Park, Cindy.

BiomesSection 1 DAY ONE Chapter 6: Biomes Section 1: What is a Biome?

1 st Quarter Test Questions Weren’t here first quarter? Foolishly threw away your 1 st Quarter Test? Here are the questions you tossed! You’ll have to.

Effects of fire, extreme weather, and anthropogenic disturbance on avian biodiversity in the United States Anna M. Pidgeon1, Chad Rittenhouse1, Thomas.

Unit 5 – Study Guide KEY The Biosphere. Vocabulary Know the following words: population niche communityabiotic bioticbiodiversity ecosystemecology carrying.

The Effect of Fuel Treatments on the Invasion of Nonnative Plants Kyle E. Merriam 1, Jon E. Keeley 1, and Jan L. Beyers 2. [1] USGS Western Ecological.

Core Case Study: Different Climates Support Different Life Forms Climate -- long-term temperature and precipitation patterns – determines which plants.

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

ALEX CAVACAS, BRANDON CHATFIELD, KEVIN CHEN, AND STEVEN MEIGS The Effect of Berberis.

WARM UP 1.Describe why a keystone species is important. 2.Give one example of a top-down keystone species and one example of a bottom-up keystone species.

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

Objective Two classic theories attempt to explain how natural communities assemble: Gleason’s Individualistic model and Clements’ Organismic model. To.

Ecosystems of the World AP Study Review. Naming Ecosystems Terrestrial Ecosystems = Biomes – Separated based upon their climate, which involves average.

Leaf Litter Diversity: Influences on Arthropod Diversity Taylor Patterson Individual Research Project SEE-U B2C.

Biodiversity Variety of life

Biodiversity Variety of life

3.1 Measuring Biodiversity (Page 89-94)

Terrestrial Biomes Biomes are defined as the world's major communities, classified according to the predominant vegetation and characterized by adaptations.

Species Biodiversity Effects of Road Development on Habitat Fragmentation Saguaro National Forest SEE-U 2000 B2C.

Populations in Ecosystems

22-1: Community properties

Species Diversity Comparison North and South Slopes

Communities An association of interacting populations

Simpson’s Diversity Lab

Measuring biodiversity

The effects of Canopy Cover on Herbaceous Vegetation

Presentation transcript:

MODULE 13 Effects of Road Disturbance on Arthropod Diversity SEE-U 2001Biosphere 2 Center, AZ Professors: Danoff-Burg, James Kittel, Tim TA: Erika Geiger Yuko Chitani Mei Ying Lai Lily Liew Asma Madad Adam Nix Eli Pristoop J.C. Sylvan

Introduction Hypothesis: Arthropod morphospecies richness and abundance are more reduced along a high intensity road than a low intensity road in a desert environment. Primary Questions: How are arthropod morphospecies richness and abundance affected by road intensity in a desert environment?

Methods We sampled three transects in two treatments: one along a high intensity road (Treatment A), and one along a low intensity road (Treatment B). Each transect ran 50 meters perpendicular to the road. Along each transect, we sampled at three points 3m, 10m, and 50m. This was the basis for our distance gradient. At each point, we sampled using quadrat design using a beat sheet and a single aspirator. We labeled specimens according to sampling points. At the lab we catalogued the arthropod morphotaxa.

Results The statistical analysis does not support our initial hypothesis. Instead, the two 2-way ANOVA test reveals the following: Abundance - Arthropod abundance was greater along a high intensity road than a low intensity road in a desert environment. (Distance, F 2,12 = , S; Road, F 1,12 = 6.566, S) Species Richness - Arthropod richness was also greater along a high intensity road than a low intensity road in a desert environment. (Distance, F 2,12 = , S; Road, F 1,12 = 4.167,NS) Our graphs in Excel (figures 1, and 2) demonstrate the following trends.

Discussion Hypothetically, the impact of roads on biodiversity in desert environments should be less severe than in the denser habitats like a temperate forests, because: Desert environments have more bare ground and no tree canopy. Arthropod species may be more adapted to openings; fragmentation of their habitats like road cuts may not affect them. There should be little or no significant change in species richness along roads. However, both richness and abundance decreases with distance from the road regardless of road intensity. In both treatments, arthropod morphospecies richness increases along a 50 meter distance gradient approaching the road. In both treatments, the abundance of arthropods also increases along a 50 meter distance gradient approaching the road. While we found more samples and in a greater variety along the higher intensity road than the lower one, the difference in abundance and richness taken together is not great enough to be statistically significant. We have a few hypotheses to explain this trend: Vehicles introduce new species to the areas surrounding roads. Climatic factors such as temperature, wind, and humidity can create a suitable environment for exotic species. Our sampling method may have introduced biases: We sampled only creosote trees. We did not account for changes in topography. To improve our study: We need to include more samples.

Conclusion Species richness is not significantly affected by road intensity. However, it is significantly affected by distance from road. Abundance is not significantly affected by road intensity. However, it is significantly affected by distance from road. Effects of fragmentation are not restricted to dense forests.

References Floyd Werner and Carl Olson Insects of the Southwest. Fisher Books. Tucson. Robert L. Smith. Venomous Animals of Arizona. College of Agriculture, University of Arizona. Tucson.. Lorus J. Milne and Margery Milne National Audubon Society Field Guide to North American Insects and Spiders. Alfred A. Knopf. New York. Darryl P. Saunders. A Pictorial Key to the Orders of Adult Insects. Purdue University. West Lafayette, IN. Donald J. Borror and Richard E. White A Field Guide to Insects: America North of Mexico. Houghton Mifflin. New York.