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Transcript
Lotic Communities • What is a community? A) The Dictionary A term applied to any grouping of populations of organisms found living together in a particular environment; essentially, the biotic component of an ecosystem. The organisms interact (by competition, predation, mutualism, etc.) and give the community a structure. B) The Ideal All species that interact over a spatial scale that includes the lifetime range of the widest ranging species and the temporal scale of the longest-lived species C) The Fanciful “Co-occurring species about which it’s interesting to think, talk and experiment.” (Robert MacArthur) D) The Pragmatic: “Assemblage” A group of interacting species defined by the investigator at a particular spatial and temporal scale. (e.g., the assmeblage of macroinvertebrates in a riffle) Community “structure” • The organization of a biological assemblage based on the numbers of individuals within different taxonomic groups. – We expect similar community structure where environmental conditions are similar. • Some measures of structure: – Number of species – Relative abundances of species (common to rare) – Functional roles of species [Fig. 6.14] Important underlying processes: • Abiotic environmental conditions (esp. disturbance) • Biotic interactions (competition, predation) A goal of community ecology: • To understand and “predict” community structure – Are communities repeatable in space? • Do they show same structure under similar environments? • Or are they “randomly” vary in response to chance events and dispersal – Are communities persistent through time? • Our perception of a community will change with scale. That scale may be… – Taxonomic • e.g., algae, inverts or fish – Spatial • e.g., cobble, riffle, reach, etc. -- within stream or among streams – Temporal • e.g., snapshot, seasonal, annual, etc. Important aspects of community structure • (1) Taxonomic perspective: Diversity – Taxonomic Diversity incorporates 3 aspects of organization: • (1) Richness (# species) • (2) Abundance of species • (3) Evenness of species abundance – Converse of evenness is dominance – A formal measure of diversity • e.g., the Shannon-Wiener Index: S H' = - S [(n /N) * log (n /N)] i e i i=1 S = # species ni = abundance of species “i” N = total abundance H' = - S [(n /N) * log i e (ni/N)] Species I.D. Comm. 1 Comm. 2 Comm. 3 1 2 3 4 5 50 15 27 5 3 20 20 20 20 20 96 1 1 1 1 Diversity (HХ): 1.24 1.61 0.22 Evenness: high very low low 20 species with 5 each, H’ = 3.00 What gives highest diversity? ---> High Richness and High Evenness Low diversity and High dominance characterize polluted or naturally stressful habitats. Some rules about community diversity & richness • 1) Most species are rare [Fig. 11.3] Remaining 20% of individuals comprised of 133 species (which are thus rare). 15 species comprise 80% of all individuals Most abundant species, 12% of all individuals Germany’s Breitenbach has >1000 described species (Table 10.1) • 2) Species richness increases with … Different streams have different maximum species richness. Why? – sampling intensity • Number individuals sampled (Fig. 10.4a) • Number of samples (Fig. 10.4b shows 4 different streams) – area sampled • Species-area relationship (Figs. 11.2, 11.5) Mussel richness increases with river size. Area ~ size, complexity But note variation among rivers of similar size (refer to Fig. 11.1b) Fish richness increases with basin area. • 3) Evolutionary History matters! Biogeogrpahy – Some regions much more speciose (Fig. 10.2) – Local communities are potentially more diverse in regionally diverse areas – “Keystone”/Dominant species often have limited ranges Region Native fish species Tropical S.A. 3000 Europe 250 North America 700 - So. Appalach. 250 - Alaska 180 - California < 50 Connecting Global to Local Richness (Tonn’s “filtering” concept) World fish fauna Gross physiological filter Freshwater fauna Gross geographic filter Continental fauna Fine geographic filter Regional fauna Climate filter Local fauna Local evolution Fine physiological filter Community fauna Both historical and contemporary factors influence distributions of lotic species Zoogeography, Regional conditions Local conditions, -Temperature -Habitat complexity -Biotic interactions Local community composition can change over time because species move. Species can use habitat at multiple scales For example, fish move to meet needs at different life stages or to find refugia (Fig. 2). Fausch et al., BioScience 52:483 (2002) So, what factors regulate Community Structure? • Via dispersal, species spread throughout stream networks and among drainages – Many barriers to dispersal • Natural - waterfalls (fish), steep drainage divides (insects) • Human - e.g., dams • Assuming arrival, flourish where conditions are good • Two dominant processes that influence “suitability” and thus regulate … – biotic interactions – abiotic factors and chance Field study showing interplay of spatial and temporal and biotic and abiotic factors: David Hart (1992, Oecologia) Augusta Creek, MI Observation: Filamentous alga, Cladophora, important habitat structure, and it occurs along velocity gradient. - Figure 2 Types of invert communities varies with Cladophora cover - Table 1 shows positive/negative associations Crayfish forage on Cladophora, but not > 50 cm/s, because … ? Caging experiments show crayfish controls Cladophora biomass (Fig. 3) Other grazers (like Leucotrichia) can also control Cladophora (Fig. 4) ... but how? Why might there be less algae in “enclosure” vs. “open” treatment? Priority Effect: They must arrive on bare substrates first and get established before Cladophora attains a “size refuge”. (Weed the Cladophora?) • What creates bare patches? DISTURBANCE! • Who gets there first? CHANCE! Current Velocity < 50 cm/s, crayfish present > 50 cm/s, crayfish absent Initial Colonization of space by: Sparse Cladophora on streambed Insect Grazers Sparse Cladophora on streambed Cladophora Dense Cladophora on streambed What maintains heterogeneity of