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Transcript
Ecological Restoration (BIO 409) Dr. McEwan Restoration Theory and Practice Concept review. Keystone Species Keystone... Concept review. Keystone species have a disproportionately large influence on ecosystem structure and function. Remove the species, the whole ecosystem can change Management/Restoration of keystone species (particularly predators) is often an important goal of restoration. Concept review. Umbrella species are those that have habitat requirements such that managing for that species will de facto protect a much broader suite of species. This is also called a “spillover effect” (see Box 5.1 in Falk et al) Mussels are the classic umbrella species in our part of the world. Require cold, clean, streams…not a lot of those left http://fw.ky.gov/pdf/t&ebook.pdf A tiny fraction of federal funds goes to species such as mussels, or plants or insects, or obscure animals. Most funding to charismatic megafauna Concept review. Flagship species are those that are especially inspirational, thus stand as a representative of a particular ecosystem. These species may be ancillary from an ecological perspective, but they draw attention to the system. Regional Processes Filter 1) Composition of the species pool and what is the mechanism of species moving into local ecosystems? -lottery model = “more tickets better chance” but still random. -core & satellite = bimodal, many dominant some rare. 2) Dispersal and colonization processes. -priority effects Local Environmental Filter Restoration relies on creating environmental conditions sufficient to maintain/perpetuate the species assembly desired in the restoration target community. -Abiotic conditions: light levels, soil pH, water availability, in wetlands hydroperiod; in streams, things like depth and sinuosity. One of the first goals in restoration is to create the appropriate environmental template. -Disturbance regimes: fire, flooding, grazing and other perturbations are critical to the maintenance of some ecosystems. These non-equilibrium processes can reduce competition and create appropriate environmental conditions for restoration success (eg, create exposed soil for seed germination). Can also have a major influence on ecosystem processes. -Habitat complexity: In many cases, restoration seeks to restore some degree of environmental/habitat complexity to systems that have been simplified. Adding sinuosity to streams is an example. Biotic Filter Abiotic processes, mutualism, competition, etc., are important in regulating ecological community structure and function. Restorationists must understand (and often manipulate) these processes. -Competition: i) Resource competition. ii) Top-down vs. Bottom-up processes. iii) Invasive species have “changed the game” in many systems. -Food-web/Trophic interactions: Need to understand how target species may be interacting or depending upon other organisms. Will discuss this later in detail (chapter 8) -Mutualism: Grossly underappreciated. Could “make or break” a restoration activity. Questions at the end of chapter 5 1) “Commerce” to and from communities? 2) Role of hidden players? 3) Disturbance vs. biodiversity theory in driving/explaining ecosystem function. 4) New theory for urban ecosystems? 5) Multiple-functions?
