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Snow/Wolf/Elk Interactions in Yellowstone National Park Craig Anderson Institute of Arctic and Alpine Research Department of Geography University of Colorado-Boulder.

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Presentation on theme: "Snow/Wolf/Elk Interactions in Yellowstone National Park Craig Anderson Institute of Arctic and Alpine Research Department of Geography University of Colorado-Boulder."— Presentation transcript:

1 Snow/Wolf/Elk Interactions in Yellowstone National Park Craig Anderson Institute of Arctic and Alpine Research Department of Geography University of Colorado-Boulder Boulder, Colorado

2 Overview Introduction Background –History –Winter Mortality –Index of Winter Severity Current Research My Research Summary

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4 Introduction Reintroduction of grey wolves (Canis lupus) into Yellowstone National Park 1995 Provided new opportunities to study several aspects of wolf predation –Effects of winter severity on predation patterns –Specifically elk (Cervus elaphus)

5 Introduction Previous studies focused on long-extant wolf-prey systems Reintroduction allowed for studies focusing on mutual development of learned wolf and elk behavior simultaneously

6 Possible Questions 1.How would the winter severity affect wolf predation on a previously wolf-free elk herd? 2.Would introduced wolves tend to take older, malnourished or otherwise vulnerable elk? 3.What is the kill rate and amount of prey consumed?

7 Possible Questions 4.Would reintroduced wolves find predation so easy that they would eat small amounts from each kill? 5.Finally, and perhaps most importantly, how would these relationships be affected by winter severity? Other questions ???

8 Background Northern Rocky Mountain wolves native to Yellowstone in 1872 Predator control prominent in late 1800s and early 1900s Between at least 136 wolves killed

9 Background Yellowstone wolves believed to be extinct by 1940 Wolves persistent in lower 48 states only in Minnesota and on Isle Royal in Michigan Early 1980s, wolves began to reestablish near Glacier National Park in northern Montana By 1996, estimated 75 wolves inhabited Montana

10 Background Wolves are listed as endangered throughout its historic range in lower 48 except Minnesota where it is threatened NPS policy calls for restoring native species under certain circumstances: a)Sufficient habitat exists b)Management can prevent threats to outside interests c)Restored species resembles extirpated species d)Extirpation resulted from human activities

11 Background October 1991 EIS begun on restoring wolves to Yellowstone and central Idaho Several years of study and near record number of public comments Finally, two wolf packs released in 1995 and 1996

12 Background USFS and Canadian wildlife biologists captured the wolves in Canada The release was successful and wolves seen preying on elk shortly thereafter

13 Winter Mortality The primary prey for wolves in YNP is ungulates, specifically elk Until reintroduction, mortality of most ungulates in winter due to malnutrition

14 Winter Mortality At reintroduction, the YNP elk herd was near or at ecological carrying capacity Herd contained high numbers of old and vulnerable individuals Herd #s estimated between 14,000-20,000

15 Winter Severity Widely accepted that severe winter conditions are the primary cause of elk mortality in YNP Heavy snowpack, cold temperatures, and inadequate forage contribute to significant mortality

16 Winter Severity Large ungulates can travel and forage in deep snow, but it also limits their mobility and increases overall energy expenditures Predation, locomotion, browsing strategies, thermodynamic regulation and herd distribution all affected by winter snowpacks Snowpack properties can play a significant role: density, hardness, depth, stratigraphy, SWE

17 Winter Severity However, lacking a substantive definition of winter severity Yet to be adequately quantified Its like porn, you cant define it, but you know it when you see it

18 Current Research Index of Winter Severity (Farnes et al., 1999) Snowpack Distribution Across Yellowstone National Park –IWS intended to estimate animals response to climatic and vegetative conditions on the winter range –Obtained by combining snow water equivalent (SWE), cumulative minimum temperatures below the effective critical temperature and forage availability on the winter range

19 Index of Winter Severity (IWS) Snow Water Equivalent (SWE) –Amount of water produced by melting snowpack –Snow depth x (snow density/water density) –Obtained from SNOTEL, snow courses and CLIM stations –As SWE increases: Foraging area decreases Energy expended in locomotion and foraging increases Competition for forage increase

20 Index of Winter Severity (IWS) Effective Critical Temperatures (ECT) –When air temps are below the threshold ECT, elk must increase basal metabolic rate to maintain body temperature –Must utilize energy from fat reserves to maintain adequate body temps –Cumulative losses thru the winter –Calculated by subtracting ECT from minimum temperature and accumulated over the winter

21 Index of Winter Severity (IWS) Forage production –Production of summer forage critical to winter survival –Amount produced usually a function of available spring moisture and temperature –Uses Keetch-Byram Drought Index (KBDI) to determine amount of annual forage produced

22 Index of Winter Severity (IWS) Combination of these three variables produces an IWS for elk Values range from -4 to +4 Variables weighted as: –SWE = 45% –ECT = 35% –KBDI = 20%

23 Current Research Winter Severity and Wolf Predation on a Formerly Wolf- Free Elk Herd (Mech et al., 2001) Studied wolf predation on elk in YNP in during severe and mild winter seasons Examined carcasses for age, sex, estimated amount eaten Collected bone marrow samples and mandibles Concluded that the effect of wolves on elk herd numbers is related to the magnitude of winter severity

24 Current Research Others: –Density dependence modeling (Lora Ballinger 1999) –Bioenergetics/Spatial modeling (Dr. Monica Turner – University of Wisconsin at Madison –Several others

25 My Research Complexity Across Boundaries – Coupled Human and Natural Systems in the Yellowstone Northern Elk Winter Range –NSF funded under Biocomplexity program –Develop a Multi-Agent Simulation Model (MAS) that explores NEWR vulnerability to environmental stressors –Understanding ecological systems where humans are significant factors –http://gis.iowa.uiowa.edu/private/yellowstone/http://gis.iowa.uiowa.edu/private/yellowstone/

26 Biocomplexity Website

27 Objectives Investigate snow/elk interactions while focusing on snow component by characterizing spatial and temporal distribution of snowpack properties Use a combination field data, model evaluation and model development to make contributions in snow hydrology and ecology To provide snowpack properties as input into the elk bioenergetics model

28 Questions Which snow parameters are significant with respect to elk bioenergetics? –Depth, density,SWE, hardness –Snowfall and snowmelt magnitude and timing Which elk energetic expenditures are significant components? –Forage, locomotion, winter survival What is winter severity? Model Resolution? –Spatial and temporal What level of complexity is needed for most robust model? –Parameter selection and estimation Deterministic and Stochastic modeling approaches

29 Site Description Spans ~80,000 hectares Lands managed by NPS, USFS, MFWP, private ownership, others Contentious land management issues Characterized by elevation, precipitation and temperature gradients Inverse relationship b/t precip and forage

30 Evaluation of NREL Yellowstone Snow Model Snow Model for Yellowstone National Park developed by Francis Singer, Gary Wockner, Mike Coughenour of the Natural Resource Ecology Lab (NREL) and Phil Farnes of Snowcap Hydrology in 2001 Purpose: To produce prediction maps of snow water equivalence (SWE) in Yellowstone National Park (YNP) Snowpack influences the feeding habitat, locomotion, migration timing, vulnerability to predation and overall energy expenditures of elk

31 Field Work to Date Field Methods: Snow Probe –snow depth measurements at 50-m grid spacing –GPS point location Snow Pits –Depth, density, temperature, hardness, grain size, grain shape and stratigraphy –GPS point location

32 Yellowstone National Park NEWR Crystal Creek Drainage Field Work to Date

33 Crystal Creek Snow Survey April 1-4, GPS depths 6 reference snow pits Crystal Creek Snow Survey January 15-17, GPS depths 21 reference snow pits

34 Field Work to Date Sample snow pit profile from Crystal Creek April 03 crusts

35 Additional Field Data (YERC) Lamar Valley - 31 additional snowpits dug early and late season 03 Blacktail Plateau – 30 additional snowpits dug early and late season 03

36 Evaluation –NREL model evaluation and validation –Running model for days with corresponding field data –24 days/119 snow pits –Measured vs. Modeled Current Status

37 SNTHERM Overview Process driven, one-dimensional energy and mass balance model Developed by Rachel Jordan at CRREL in 1991 Models changes in snowpack properties through time Model driven by first principles not empirical relationships

38 SNTHERM Overview Explicitly distributes energy, mass and momentum on a layer- by-layer basis throughout the snowpack 14 constant parameters –Elevation, slope, aspect, surface roughness, etc. 20 state variables –Snow density, temperature, depth, grain size, SWE, etc. Driving Variables –Air temp, relative humidity, wind speed, incoming/outgoing shortwave radiation and incoming longwave radiation

39 Geostatistical Overview Understanding spatial distribution of snowpack properties challenging problem in snow hydrology Past and current spatially distributed snow models differ in the process representation they involve Use geostatistical techniques to spatially distribute measured snowpack properties

40 Summary Reintroduction of wolves in YNP contentious issue Provides the opportunity to study the effects of wolves on a previously wolf-free elk herd What are the effects of winter severity on elk/wolf/snow relationships?

41 Summary What is winter severity and what role does it play in elk-wolf interactions? Current research efforts –Index of Winter Severity (Farnes et al) intended to estimate animals response to climatic and vegetative conditions on the winter range SWE, ECT and KBDI –Winter Severity and Wolf Predation on a Formerly Wolf-Free Elk Herd (Mech et al., 2001)

42 Summary Mech et al –Concluded that the effect of wolves on elk herd numbers is related to the magnitude of winter severity Complexity Across Boundaries – Coupled Human and Natural Systems in the Yellowstone Northern Elk Winter Range – Develop a Multi-Agent Simulation Model (MAS) that explores NEWR vulnerability to environmental stressors

43 Summary Biocomplexity continued –Understanding ecological systems where humans are significant factors –Investigate snow/elk interactions while focusing on snow component by characterizing spatial and temporal distribution of snowpack properties –Use a combination field data, model evaluation and model development to make contributions in snow hydrology and ecology


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