1. Populations and ecosystem management

2. Species concepts Policy/debate centers on species. Consider six categories currently used.

3. Species Categories Keystone species: effect greater than biomass. Beavers Indicator species: Indicative of conditions good or bad: stoneflies, diptera larve Umbrella species: If secure, provide habitat for many: Grizzly bear.

4. Species Categories Flagship species: Elicits emotional feelings: Whales, tigers, koala Vulnerable species: susceptible to extinction: Black-footed ferrets. Economically important species: positive or negative consequences: elk zebra mussels.

5. Species categories A species can be in more than one. Used in debates over species conservation. Use to prioritize.

6. Species management Single species management

7. Metapopulations Most survival models, e.g. PVA and MVP, good for overall assessment. Fail to incorporate spatial population complexity that can affect survival Metapopulation model tries to incorporate spatial complexity.

8. What is it? Not all populations homogeneous. Subdivided into semi discreet clusters or subpopulations. Size and distance among them varies Probability of extinction related to subpopulation size. Probability of re-colonization related to distance.

9. Structure Small populations tend to go extinct more often (deaths > births): SINKS Larger ones tend to persist AND provide emigrates (births > deaths): SOURCES Rescue effect

10. Structure

11. Metapopulation Model Size important for source vs sink Distance and juxtaposition important for rescue. Conceptual but does not include much about matrix in which they exist. Dispersal (essential for maintenance) mediated by habitat quality so distance is not only factor.

12. Landscape-level Issues. Logical extension upward from species/population considerations. Dealing with real organisms living in real space in real time. Must live within landscapes. Landscapes determine health of species populations.

13. Landscape issues So what are some of the landscape issues? Basically issues that affect species persistence 1) Habitat loss 2) Habitat Fragmentation* 3) Matrix quality

14. Habitat fragmentation - Conversion of contiguous area of native vegetation into pattern of remnant patches within matrix of altered habitat.

15. Example

16. Example?? Is this fragmentation?? Natural vs Man-made?? Key is altered!

17. Process Different forms Perforation: - isolated altered patches. Internal: - Roads - Gradual process. 1 2 3

18. Process How does it happen? Example

19. Edge effects One of the major results of fragmentation. Principle quite simple: Use in chemistry! Smaller the fragments, greater the edge area. Why important?

20. Impacts of edge Many species evolved within large unfragmented habitat (edge sensitive). Conditions along edges. Abiotic. - Sharp change in: temperature, relative humidity, sunlight, etc. Affect conditions for energy capture of species not adapted to these changes.

21. Impact of edges Biotic factors. - increased predation by edge generalists - Crows, brown-headed cow birds, blue jays, etc. Buffer effects. -edge effect not just a pencil line around patch.

22. Buffers Hostile conditions will extend into patch. Distance depends on variety of factors: - vegetation, aspect, etc., species. - Functional fragment size determined by fragment shape.

23. Examples

24. Example

25. Increased Isolation As Fragment habitat, fragments can become more separated.

26. Increased Isolation How does it affect? Create metapopulation structure If dispersal-sensitive, can be problems. How dispersal-sensitive? - Morphology: seed dispersal, tortoises. - Physiological: Heat stress - Behavioral: Not used to open areas,

27. Landscape Mosaic Spatial characteristics of all natural and human-created aspects of environment. Shape Size Type Juxtaposition. Etc.

28. Landscape Mosaic How all elements are embedded in real space. Two points important: 1) Mosaic not static, can change: 2) components not isolated: interconnected.

29. Landscape Matrix Most extensive, most connected or most influential landscape element in an area. Can be man-made or natural Influences ecological processes Helps manager determine conservation issues.

30. A tale of two matrices

31. Real Life Examples

32. Managing biodiversity across landscapes Most effective way to protect diversity is in-situ. Reasons: - Cost of ex-situ - Lose of natural selection - remains part of natural landscape

33. How to protect biodiversity? Historically via protected areas. - can be well planned to represent ecosystems. - most cases represent “popular” ones. Tall Grass Prairie National Park? Can we protect enough? - 5% of land mass in US is fully protected - 5 % under some type of protection.

34. How do we protect the “unprotected’? What ecosystem management is about. Integrate conservation with sustainable development (ecotourism, grazing, forestry practices, etc.) Blend need of biodiversity and humans.

35. Considerations: Protected areas. Starting point: Given we want to protect a species or an ecosystem within a protected area, what do we focus on? Area, Shape, and Isolation important.

36. Area Area: matter of scale again. - Larger the better: know that! - Larger the area, harder to agree on protecting! - Usually size of area we can protect: Doubt if we can set aside another Yellowstone Park!

37. Example Mapimi Core or Nuclear area. Differing levels of Use.

38. Shape Shape is important How use in protected area scheme? 1) avoid long narrow areas (buffer and edge effect). Amount of edge important: 2) Strive to reduce edge

39. Example Changing use patterns of an area.

40. Isolation So few protected areas, often separated by large distances. Review reasons why isolation important How reduce this isolation? Main tool is Corridors

41. Corridors What is a Corridor? Are there different types of corridors? Does it have to be linear? Will all wildlife use a corridor?

42. What are corridors? Strips of ecosystem that facilitate movement of species between larger landscape patches. What kinds of movements? 1) Natal dispersal 2) Density-dependent dispersal. 3) Seasonal migrations

43. Today 4:00 Illick 5 The ecology of Fear: A unifying paradigm in ecology?? Dr. John W. Laundré

44. Types of corridors Book initially had “linear” strips of …. Idea that corridors are usually linear in shape. Many are: riparian habitat. Some habitat remnants: fence lines Some are “waste land” Unusable for human purposes. Some are actually planned!!

45. Types of Corridors Corridors can also be viewed as spatially discrete habitat patches - ie stepping stones along a migratory pathway

46. Example: planned, why? Many for roads. Roads fragment Roads isolate Roads kill Loading... Loading...

47. Roads Impact all but amphibians and reptiles affected the most.

48. Do they work? Fig. 3. Wolf paths through the study area one winter prior to (left) and two winters following (right) corridor restoration

49. Do they work? The answer is Yes! Most times! What makes a good \ corridor? here

50. Developing corridors How to begin? Select species of concern. - Limits focus to manageable level. Identify sites you want to connect. - Sources/sinks Map corridor and evaluate features. - Identify ownerships, human elements. Design and implement monitoring system. - Opportunity to learn

51. Rules of thumb? Some considerations of features. 1) Gaps -- Limited by species ability to cross -- Day use vs night use 2) Width 3) Length

52. Corridor Width Width depends on. 1)Surrounding land. More similar/narrower 2)Scaled with corridor length: longer/wider - average width of home range 3) Habitat quality in corridor

53. Home range width Varies with body mass Larger species = wider corridors.

54. Considerations: How mobile Human domination Corridor length

55. Depends on mobility: 1)More mobile animals can move through longer corridors 2) How will function: just day travel, multiple days, generational movements.

56. Potential Disadvantages of Corridors -Most corridors are linear edge habitat, some species will not utilize and subject to increased mortality risk. -Don’t fully understand what species do and do not utilize corridors -Use as a band-aid approach to a larger problem.

57. Potential Disadvantages of Corridors Dispersal of invasive species Ironically, success of movement of invasive species indicates that corridors CAN be successful! Filtering becomes important.

58. Summary Corridors have their place Well planned ones seem to work Indeed may be band-aides but necessary others