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introduction to restoration ecology

Why do restoration?. Human impacts threaten integrity, resilience and sustainabilityIntroduced species, structures, and processesAltered disturbance regimesFragmentationChanging climate. What are the goals of restoration?. Make ecosystems more like they once wereReduce need for continual intervention and active managementSustainabilityEcological integrityResilience .

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introduction to restoration ecology

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    1. Introduction to Restoration Ecology What is ecological restoration?

    2. Why do restoration? Human impacts threaten integrity, resilience and sustainability Introduced species, structures, and processes Altered disturbance regimes Fragmentation Changing climate

    3. What are the goals of restoration? Make ecosystems more like they once were Reduce need for continual intervention and active management Sustainability Ecological integrity Resilience

    4. Defining ecological restoration “the process of assisting the recovery and management of ecological integrity. Ecological integrity includes a critical range of variability in biodiversity, ecological processes and structures, regional and historical context and sustainable cultural practices” (Society for Ecological Restoration, http://www.ser.org/definitions.html) Doesn’t say how to Doesn’t say how to

    5. Defining ecological restoration A “broad conceptual framework for helping ecosystems recover more nearly natural structure and function while providing for continued use by humans. For ecological restoration to proceed on sound scientific footing, it must be rooted in the best knowledge available, with carefully reasoned analysis, checked against factual evidence.” http://www.eri.nau.edu/FAQ.htm

    6. Similar terms (Bradshaw 1997, van Diggelen et al. 2001) Reclamation Makes useful, but not necessarily original state Typically focuses on increasing biodiversity Often applied in highly disturbed sites Rehabilitation Reintroduces some ecosystem functions Any improvement from a degraded state Restoration Most ambitious Typically attempts to reconstruct structure, composition and function of an ecosystem

    7. Successful restoration Some of the oldest and most successful restoration projects are in prairies

    8. Restoration includes (Bradshaw 1997, Jackson et al. 1995, Keane and Arno 2001) Assess need for action Inventory and describe Consider humans in an integrated ecological approach Identify goals and objectives Prioritize Design and implement treatments Monitor and evaluate success Maintain Use adaptive management

    9. Choosing references (White and Walker 1997, Landres et al. 1999, Stephenson 1999) References are used in judging when restoration is successful References can be existing conditions in healthy ecosystems, or they may be inferred from historical information and models Historical composition, structure, and disturbance regimes should be guides rather than goals

    10. Assumptions (http://www.ies.wisc.edu/cre/ ) We can recreate historical conditions The physical environment can be manipulated to support the desired plants and animals. Inadequate substrate can be manipulated to sustain native biota. The desired biota (plants & animals) will establish if selected plant species are introduced. Reestablishing natural disturbance regimes is critical to long-term sustainability

    11. Approaches Stephenson (1999) contrasted two: Structure first, then process Process first, then structure Most people implement a hybrid of the two approaches

    12. Opportunities (http://www.ies.wisc.edu/cre/) Produce native seed Support local business and communities with small-scale logging Promote as ecotourism Sequester carbon

    13. Challenges (http://www.ies.wisc.edu/cre/) Fragmented landscapes are dominated by humans Land use restrictions can affect taxes, income generation, and public support Requires interdisciplinary collaboration Long-term maintenance Gaining public support for fire and other restoration programs

    14. Scale Most restoration efforts are small and site-specific Many restoration needs are broader (cover large areas) and long-term

    15. Factors affecting success (Adapted from Jackson et al. 1995)

    16. Literature cited Center for restoration ecology, University of Wisconsin-Madison. Available [Online] < http://www.ies.wisc.edu/cre/ > October 2, 2001. Ecological restoration institute, Northern Arizona University. Available [Online] < http://www.eri.nau.edu/FAQ.htm > October 2, 2001. Jackson, L.L., N. Lopoukhine, D. Hillyard. 1995. Ecological restoration: A definition and comments. Restoration Ecology 3(2): 71-75. Society for Ecological Restoration. 1996. Definition of ecological restoration. Available [Online] < http://www.ser.org > October 2, 2001. Stephenson, N.L. 1999. Reference conditions for giant sequoia forest restoration: structure, process and precision. Ecological Applications 994): 1253-1265. Van Diggelen, R., Ab P. Grootjans and J. A. Harris. 2001. Ecological restoration: state of the art or state of the science? Restoration Ecology 9 (2):115-118. White, P. S., and J. L. Walker. 1997. Approximating nature’s variation: selecting and using reference information in restoration ecology. Restoration Ecology 5:338-349.

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