Ecology Midterm

Descrição

(Fall 2013) FlashCards sobre Ecology Midterm, criado por j_sunga em 10-10-2013.
j_sunga
FlashCards por j_sunga, atualizado more than 1 year ago
j_sunga
Criado por j_sunga aproximadamente 11 anos atrás
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Resumo de Recurso

Questão Responda
Ecology interdisciplinary study of response of organisms to the environment
hypothesis proposed explanation for observed pattern
prediction specific implication of hypothesis (if/then statement)
sampling subset of larger population being studied, indicative when unbiased
sampling methods (3) haphazard/convenience sampling, random sampling, systematic sampling
Experimental Studies manipulate biotic and abiotic environment
Biome way of characterizing dominant plant life in an area
reason for latitudinal climate variation earth is curved, more direct sun (energy/m^2) at equator
Primary factor in seasonal variation earth's tilt, if completely perpendicular - still mild seasons due to elliptical orbit
ITCZ inter-tropical convergence zone - point where hadley cells come together
effect of Ocean Currents different biomes at same latitudes
PET potential evapotranspiration - potential amount of water that can be lost from a biome (pull on plant to transpire) = 2 x temperature
Actual evapotranspiration cannot transpire more water than available
use of thermal performance curves find tolerance limits, predict response to global climate change
Acclimation short term physiological adjustment that occurs in response to change in environment (not always reversible)
adaptation evolution via natural selection of traits that increase performance (reversible over large time scale)
Common Garden Experiment adaptation vs. acclimation test. if acclimation, differences will not be maintained
Heat balance equation Hnet=Har+Hmet-Hrr +/- Hcond +/- Hconv - He
Water Balance Equation Water balance = Wd + Wf + Wa - We - Ws
Factors affecting population size (4) natality, mortality, immigration, emigration
Life history collection of age or stage specific traits that directly affect reproductive success
Important Life History traits (6) # of reproductive events, # of offspring/event, age at first reproduction, length of stages, investment/offspring, probability of death at each stage
Cohort Life Table follow cohort of individuals from birth to death (accurate but time consuming)
Static Life Table cross-section of population (easier to collect but must assume birth and death rates)
Age distribution proportion of organisms at each age class (large base = rapid growth)
lx proportion of organisms surviving from start to age x, = nx/no
Types of survivorship curves (3) 1 - high early survivorship (mammals), 2 - mortality constant (reptiles) , 3 - high infant mortality (fish)
mx # of female offspring produced per female in each age interval (must replace self)
R0 net reproductive rate (R0=∑lxmx), related to 1
T Generation time, affects rate of population growth (smaller T = increased r), T=∑lxmxx(age)/R0
r intrinsic rate of increase, related to 0 (should indicate same as R0), r=lnR0/T
Non-overlapping generations parents and offspring live at different times (geometric growth)
overlapping generations parents and offspring live at same time (exponential growth)
Geometric growth model Nt=N0גּt
Exponential Growth model Nt = N0ert
per capita growth rate dN/dtN
population growth rate dN/dt = rN
Logistic growth model dN/dt =rN (1-N/K), K is carrying capacity
density dependant - dN/dt greatest when... N/K = 1/2
density dependant - dN/dtN decreases as... N increases - increased competition
Metapopulation collection of spatially distinct subpopulations of the same species connected by dispersal
metapopulation growth rate equation dP/dt = cP(1-P) - eP

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