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Chapter 10: Population Dynamics. Dispersal. Age Structure. A. B. 13. Survivorship. Metapopulation. D. C. E) Population Growth. N t = N o e rt. Exponential Growth. Logistic Growth. Extreme Population Growth I. 1. 2. ZEBRA MUSSEL Native to the Streams of Southern Russia. 3.
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Chapter 10: Population Dynamics Dispersal Age Structure A B 13 Survivorship Metapopulation D C
E) Population Growth Nt = Noert Exponential Growth Logistic Growth
ZEBRA MUSSEL Native to the Streams of Southern Russia 3
Zebra Mussel Distribution First Detected in US 1988 4
Sea Lamprey Invasion (First Noted in Great Lakes in 1830s) Erie Canal Weiland Canal
Lamprey and Lake Trout Populations Lampricides http://www.nature.com/nchembio/journal/v1/n6/images/nchembio1105-316-F1.gif
Other Invasive Species in North America “Rock Snot” Diatom Didymospehnia geminata Eurasian Collared Dove
Other Invasive Species in North America Salt Cedar (Tamarix sp.) Africanized Honeybee
Extreme Population Growth III (Native Species) 5 Chinch Bug (Blissus leucopterus)
Populations are Dynamic!! What factors contribute to changing population size? 7
Factors that Influence Population Size Nt+1 = Nt + B + I - D - E
N Estimating Rates of Population Change: t N t
Quantifying Rates of Population Change (dN / dt) dN f (b, d, i, e) = dt
“The Wild, Wacky World of Dispersal” Fig. 10.2 in Molles 2008
Dispersal: Explosive 7 8 Zygomycete Fungus: Pilobolus
Measuring Dispersal Rates 22 23 24 2
Measuring Dispersal Rates 26 27 28
Dispersal: Natal 12 11
Dispersal: Natal Eurasian Collared Dove: Spread into Europe from Turkey after 1900 Fig. 10.3 in Molles 2006
Dispersal: Natal 10 11 12
Dispersal in Response to Climate Change North America (~ 20,000 Years Ago) Sugar Maple (Acer saccharum) Eastern Hemlock (Tsuga canadensis) 13 14
Dispersal in Response to Climate Change Fig. 10.8 in Molles 2008
DISPERSAL: Response to Short-Term Changes in Food Abundance European Kestrel (Falcotinnunculus) Voles (Microtis sp.)
NUMERICAL RESPONSE Change in Predator Population Density In Response to Prey Population Density Fig. 10.7 in Molles 2006
Dispersal: Drift Fremont Cottonwood
Dispersal: Drift Why aren’t Populations Depleted? Pacific Ocean Fig. 10.8 in Molles 2008 Nerita latissima
Upstream Movement: Migrating and Stationary Populations Rio Claro River (Costa Rica) Pacific Ocean Fig. 10.9 in Molles 2008
Colonization Cycle Rio Claro River (Costa Rica) Pacific Ocean Fig. 10.9 in Molles 2008 Nerita latissima
Expanding Populations (Anthropogenic Factors) European Starling (Sturnus vulgaris) 12
Expanding Populations (Anthrogenic Factors) European Honeybee Hybrid: Africanized Honey Bee African Honeybee Queen Apis melifera
Expanding Populations (Anthrogenic Factors) Africanized Honey Bee Fig. 10.1 in Molles 2008
Expanding Populations (Anthrogenic Factors) Green Alga Pest: Caulerpa
Expanding Populations (Anthrogenic Factors) Jacques Cousteau Institute (Monaco)
Expanding Populations: Anthropogenic Factors Eurasian Collared Dove: Introduction into Bahamas: mid-1970s 2
Rates of Expansion Fig. 10.5 in Molles 2006
DISPERSAL: Response to Short-Term Changes in Food Abundance European Kestrel (Falcotinnunculus) Voles (Microtis sp.)
NUMERICAL RESPONSE Change in Predator Population Density In Response to Prey Population Density Voles (Microtis sp.) European Kestrel (Falcotinnunculus) Fig. 10.7 in Molles 2006
NUMERICAL RESPONSE MECHANISM: Increased Reproduction OR Increased Dispersal 15 16
Metapopulation (Subpopulations living on Habitat Patches connected by Exchange of Individuals among Patches) 18 Rocky Mountain Parnassian Butterfly (Parnassius smintheus) 19