The American pika Chris Ray, CU. Ochotona princeps Ochotona princeps...and... habitat specialists herbivorous highly territorial hay-stackers...and...

Slides:

Advertisements

Similar presentations

Factors Influencing Pika Foraging Behavior in North Cascades National Park, Washington Rachel Richardson 1,2 and Jason Bruggeman 1 1--Beartooth Wildlife.

Advertisements

Additional Key Results Pika abundance in talus patches was negatively correlated with the minimum temperature recorded beneath the talus surface during.

Weighing the Added Risk of Climate Change to Population Persistence in Native Trout Jack Williams Amy Haak Helen Neville Warren Colyer.

Univ. of Alberta Climate Change Impacts on Canadian Agriculture R.F. Grant Dept. of Renewable Resources, Univ. of Alberta, Edmonton,Alberta.

Climate Change in the Columbia Basin. Sediment coring in alpine environments.

A statistical method for calculating the impact of climate change on future air quality over the Northeast United States. Collaborators: Cynthia Lin, Katharine.

Translating climate science into urban conservation action Abigail Derby Lewis The Field Museum, Science Action Center Chicago Wilderness, Climate Action.

Climate change predicted to shift wolverine distributions, connectivity, and dispersal corridors K EVIN S. M C K ELVEY 1, J EFFREY P. C OPELAND 1, M ICHAEL.

Group 1 Mobile, Alabama Alana Smith Meredith Karr Charles Edwards Chris Swaim Lindsay Ash.

© Hawkins. PROJECTED TEMPERATURE CHANGES Virtually all climate simulations project warming, but with a wide envelope of temperature change Virtually all.

Temperature ( ) Year Temperature Difference From Normal (°C) 5-year Running Average Annual Average Preponderance.

Climate Change in the Columbia Basin Starting the Dialogue CCRF Workshop Cranbrook BC May 30 th 2007.

The Redwood Empire & Climate Change Duane De Witt Communicative Planning class 08 Urban Foresty & Urban Greening Pin up #3, 1 Feb

A Climate Angle on Uncertainty in Salmon Recovery Scenarios Nate Mantua Ph D Joint Institute for the Study of the Atmosphere and Oceans University of.

Climate Change: Challenges for Fish and Wildlife Conservation Rick Kearney WildlifeProgram Coordinator Wildlife Program Coordinator U.S. Geological Survey.

Alan F. Hamlet Philip W. Mote Martyn Clark Dennis P. Lettenmaier JISAO/SMA Climate Impacts Group and Department of Civil and Environmental Engineering.

What creates different climates in Canada and what impact does climate have on human activity? The Climates of Canada.

Explaining Changes in Extreme U.S. Climate Events Gerald A. Meehl Julie Arblaster, Claudia Tebaldi.

Climate change and conservation (Lec 24-26) FYI – Additional Reading Chapter 10 - Principles of Conservation Biology Vince (2009) Surviving in a warmer.

How is the Climate Changing in the Prairie Provinces? What can we expect in the future? Elaine Wheaton Agriculture and Greenhouse Gas/ Climate Change Workshop.

Climate Change UNIT 3 Chapter 7: Earth’s Climate System

Are Alpine Species Disappearing? The Effects of Climate Change On Alpine Vertebrates In the Rocky Mountains Winter Ecology – Spring 2005 Mountain Research.

ALPINE TUNDRA “The Land Above the Trees”. “Tundra” Russian: “land of no trees” Has great appeal to people…. Why? Everything in miniature: – “Sky the size.

THE MELTING OF THE ICE FLOE SUMMARY : _ Identity card _ Cause of the melting _ Consequences _ Antarctica _ Arctic.

Tonight: Effects of Climate Change on the Fish and Fisheries of the Great Lakes Basin Brian Shuter Research Scientist, Ontario Ministry of Natural Resources.

Climate Change in the Great Lakes By: Colleen Nagel

Climate Change Impacts in the United States Third National Climate Assessment [Name] [Date] Great Plains.

Atmospheric Research Climate Hazards & Risk Assessment Roger N. Jones AIACC Kickoff Meeting Nairobi February

Outline Further Reading: Detailed Notes Posted on Class Web Sites Natural Environments: The Atmosphere GE 101 – Spring 2007 Boston University Myneni L30:

What’s the Difference?.  Weather: refers to the day-to-day conditions in the Earth’s atmospheres  We check measurements, such as temperature, precipitation,

Carbon Dioxide (CO 2 ) Recent CO 2 Changes IPCC Reports.

Read & Explain Evidence Activity Students divided into groups. There are 8 different evidence cards (ppt slides). First, read it. What’s it say? Then,

Biological Status Review for the Gray Wolf in Oregon and Evaluation of Delisting Criteria April 24, 2015 Russ Morgan Oregon Dept. of Fish & Wildlife.

Changes in Floods and Droughts in an Elevated CO 2 Climate Anthony M. DeAngelis Dr. Anthony J. Broccoli.

Slides for GGR 314, Global Warming Chapter 7: Heat and Water Stress, Terrestrial Species Extinctions Course taught by Danny Harvey Department of Geography.

Section 1 The ozone layer is located in the _______. Stratosphere.

Why are there more kinds of species here compared to there? Theoretical FocusConservation Focus – Latitudinal Gradients – Energy Theory – Climate Attributes.

Modern Climate Change Darryn Waugh OES Summer Course, July 2015.

Climate of North America 101 What are the major controls on North American climate? What is the dominant flow pattern across North America in winter? How.

15.1 Life in the Earth System KEY CONCEPT The biosphere is one of Earth’s four interconnected systems.

American Pika The American Pika is a small mammal closely related to the rabbit. Pikas are cold temperature-dependant and thrive on rocky, alpine slopes.

Climate and Climate Change Environmental Science Spring 2011.

Climate Effects on Species

Niches, Interactions and Movements. Calculating a Species Distribution Range Jorge Soberon M. A. Townsend Peterson.

Arctic Sea Ice – Now and in the Future. J. Stroeve National Snow and Ice Data Center (NSIDC), Cooperative Institute for Research in Environmental Sciences.

Photo Credit: Brian Crawford Photography American Pika Perils Climate Change Endangered Species.

Weather of the Prairies Sarah Marsden. Weather Patterns Over the course of a year, the temperature is typically around -3°F to 73°F and is near never.

Goal: to understand carbon dynamics in montane forest regions by developing new methods for estimating carbon exchange at local to regional scales. Activities:

The role of climate in sugar maple health: Historical relationships and future projections.

Factors that Affect Climate Weather is the short term (day to day) conditions of the atmosphere which include: Temperature Temperature Precipitation.

“Rogue Valley Climate Trends & Projections” How Climate is affecting the Applegate Alan Journet Ph.D

Chapter 3: Air Temperature Daily Temperature Variations  Maximum temperature recorded late afternoon  Minimum temperature recorded just before sunrise.

If so, how can we prove it? Why should we care? Is Colorado’s Climate Changing?

The effects of climate change on the grasshoppers of the southern Rocky Mountains of Colorado.

Unit 4: Climate Change Earth’s Climate System. Introduction Atmosphere: layer of gases that surrounds a planet or moon Without the atmosphere, days would.

Climate change, forests and fire in the Sierra Nevada, California: implications for current and future resource management Hugh Safford Regional Ecologist.

The Biogeography of Global Warming. Shows the predicted warming over the 21st century due to business as usual greenhouse gas emissions as reported.

Petition to List the American Pika (Ochotona princeps) as Threatened in California Scott Osborn and Daniel Applebee Dept. of Fish and Game - Wildlife Branch.

3.3 Theory of Climate Change 3.4 Observations

Which physical region is Missouri located in?

Michigan State University

Steelhead Viability: Where are we now and where are we going?

Climate Change and the Midwest: Issues and Impacts

Introduction to Ecology

Exam review: study guide

Impacts in Western Mountains

Introduction to Ecology

“The Land Above the Trees”

Climate Change in Scotland / UK / N. Europe

Extension Climate Science Team

Presentation transcript:

the American pika Chris Ray, CU

Ochotona princeps Ochotona princeps...and... habitat specialists herbivorous highly territorial hay-stackers...and... habitat specialists herbivorous highly territorial hay-stackers pikas are... related to rabbits as big as your fist non-hibernating highly vocal pikas are... related to rabbits as big as your fist non-hibernating highly vocal

Outline Motivation for an individual-based study of climatic stressors Preliminary results from a long-term study in Montana Preliminary results from a comparative study of MT & CO pikas Outline Motivation for an individual-based study of climatic stressors Preliminary results from a long-term study in Montana Preliminary results from a comparative study of MT & CO pikas

Summer heat-stress Grinnell 1917 MacArthur & Wang 1973, 1974 Smith 1974 Hafner 1993, 1994 Hafner & Sullivan 1995 Verts & Carraway 1998 Li et al Simpson 2001 Beever et al. 2003, 2010 Summer heat-stress Grinnell 1917 MacArthur & Wang 1973, 1974 Smith 1974 Hafner 1993, 1994 Hafner & Sullivan 1995 Verts & Carraway 1998 Li et al Simpson 2001 Beever et al. 2003, 2010 Winter cold-stress Tapper 1973 Smith 1978 Morrison and Hik 2007 Beever et al & in prep. Winter cold-stress Tapper 1973 Smith 1978 Morrison and Hik 2007 Beever et al & in prep.

Shrinking distribution of the American pika

25 historical populations recorded (average date = 1933) 6 extinct by 1999 (►) 10 by 2008 (◄) Extinction rate is rising 25 historical populations recorded (average date = 1933) 6 extinct by 1999 (►) 10 by 2008 (◄) Extinction rate is rising

1999: 2,474 m 2008: 2,566 m 1933: 2,374 m >1 m/yr >10 m/yr Rising mean minimum elevation of 25 historical pika populations in the Great Basin Rising mean minimum elevation of 25 historical pika populations in the Great Basin Similar patterns in the Sierra Nevada (Moritz 2007) Similar patterns in the Sierra Nevada (Moritz 2007)

Habitat size/structure Human impacts Species interactions Thermal stress Habitat size/structure Human impacts Species interactions Thermal stress What predicts extinction? Beever et al. in press: Habitat area Accessibility Livestock grazing Acute heat-stress Chronic heat-stress Acute cold-stress Climatic refugium Beever et al. in press: Habitat area Accessibility Livestock grazing Acute heat-stress Chronic heat-stress Acute cold-stress Climatic refugium

Defining local extinction Persisting Transitional but persisting 200 m Extinct 3 km N = 11 N = 10 N = 4

“Habitat area” – amount within 0.8 km, or entire mtn range Candidate predictors of extinction: “Refuge” – elevation of highest habitat within 3 km 3 km

Candidate predictors of extinction (continued): “Accessibility” – distance to nearest non-4WD road “Grazing” – long-term use of the site by livestock “Acute heat stress” – number of days above 28°C/82°F “Chronic heat stress” – average summer temperature “Acute cold stress” – number of days below -10°C/14°F

Hourly haypile temperatures Joyce Gellhorn Temperature (C) Date (Month-Year)

3 stress metricsData usedHindcasts Acute heat-stress# days > 28 °C Σ >28, Δ >28, τ >28 Chronic heat-stressSummer mean T Σ μS, Δ μS, τ μS Acute cold-stress# days < -10* °C Σ <-10, Δ <-10, τ <-10 Hindcasting metrics of stress 3 data sets: Σ = long-term, Δ = climate change, τ = recent Study site T (°C)

What predicts extinction? Cold days (last 60 yrs) Cold days (last 60 yrs) Refuge (upslope habitat) Refuge (upslope habitat) Habitat area (w/in 0.8 km) Habitat area (w/in 0.8 km) Hot summer (recent mean) Hot summer (recent mean) Habitat area (w/in range) Habitat area (w/in range) Grazing Given the many factors that may be responsible for pika extinctions, perhaps the only reason our list of predictors looks like this is because we haven’t yet had the opportunity to consider other (perhaps better) predictors, and data from other regions.

Erb, Ray & Guralnick study, in prep. Of 69 historically occupied sites in the southern Rockies, only 4 are no longer occupied The 4 local extinctions are explained by moisture issues: pikas are missing only from the driest sites

How might climate cause extinction?

Outline Motivation for an individual-based study of climatic stressors Preliminary results from a long-term study in Montana Preliminary results from a comparative study of MT & CO pikas Outline Motivation for an individual-based study of climatic stressors Preliminary results from a long-term study in Montana Preliminary results from a comparative study of MT & CO pikas

Gallatin Range Demographic Study Montana Ray

Gallatin Range Demographic Study Montana Ray

Gallatin Range Demographic Study Montana Ray

Gallatin Range Demographic Study Montana Ray

Gallatin Range Demographic Study Montana Ray

Outline Motivation for an individual-based study of climatic stressors Preliminary results from a long-term study in Montana Preliminary results from a comparative study of MT & CO pikas Outline Motivation for an individual-based study of climatic stressors Preliminary results from a long-term study in Montana Preliminary results from a comparative study of MT & CO pikas

Bob Rapp Stress and survival study Gallatin Range, MT & Niwot Ridge, CO Ray et al.,

Stress and survival study Gallatin Range, MT & Niwot Ridge, CO Ray et al.,

Stress and survival study Gallatin Range, MT & Niwot Ridge, CO Ray et al.,

Stress and survival study Gallatin Range, MT & Niwot Ridge, CO Ray et al.,

Stress and survival study Gallatin Range, MT & Niwot Ridge, CO Ray et al.,

How might climate cause extinction? ? ? ? ? ? ?

How might climate cause extinction? Summer heat-stress Heat avoidance behavior Reduced foraging activity Smaller or inferior haypiles Winter cold-stress

How might climate cause extinction? Summer heat-stress Heat avoidance behavior Reduced foraging activity Smaller or inferior haypiles Winter cold-stress Smaller or inferior haypiles

Pika Haypile

How might climate cause extinction? Community interactions

Morning Late morning Noon Afternoon Automated camera at a marmot den Automated camera at a marmot den

How might climate cause extinction? Predation

How might climate cause extinction? Disease

What does the future hold? Manuscript in review, by Scott Loarie et al.* models local extinction probability according to climate for 97 resurveyed pika sites *S. Loarie, C. Field, C. Ray, E. Beever, P. Duffy, K. Hayhoe, J. Wilkening and J. Clark Mean annual temperature Decade (20 th century) I. Sierra II. Cascade III. Great Basin IV. Rocky Mtns

What does the future hold? Manuscript in review, by Scott Loarie et al.* models local extinction probability according to climate for 97 resurveyed pika sites *S. Loarie, C. Field, C. Ray, E. Beever, P. Duffy, K. Hayhoe, J. Wilkening and J. Clark Mean annual temperature Decade (20 th century) I. Sierra II. Cascade III. Great Basin IV. Rocky Mtns Mean annual temperature Projected Observed Mid-high emission scenarios Lower emission scenarios Moderate emission scenarios

Over 50% extinct by 2100? Probability of local extinction *S. Loarie, C. Field, C. Ray, E. Beever, P. Duffy, K. Hayhoe, J. Wilkening and J. Clark Predictions were conservative for the Great Basin

The End