Energy Flow through ecosystems
Photosynthesis equation
6CO2 + 12H2O --> C6H12O6 + 6O2 + 6H2O
A meat-based diet requires
7-times more land than a plant based diet
Miami Model
89% of variation in NPP on a global scale can be explained by precipitation and temperature alone
About how much energy is lost in each trophic level?
90%
secondary production
Amount of chemical energy in consumers' food that is converted to new biomass.
Conservation of Energy
Energy cannot be created or destroyed
Net Secondary Productivity (NSP)
Energy converted to consumer biomass (assimilated energy left after respiration)
Net Primary Productivity (NPP)
Energy converted to producer biomass what is left after respiration
assimilated energy
Energy that consumer digests and absorbs (consumed-pooped energy) AKA gross secondary production
CHange in producer biomass
Estimate NPP by harvesting plants to determine mass of growth over period of time.
biomass pyramids often inverted in ____________ systems?
aquatic, because primary producers may be eaten as quickly as they grow
assimilation efficiency
assimilation/consumption
Energy is lost
at each level
Detritivores and decomposers
break down wastes and dead organisms Important for nutrient cycling
Some energy is not
consumed (creating a green world)
consumption efficiency equation
consumed energy/net production energy of the next lower trophic level
ecological efficiency equation
(Net Production energy of a trophic level)/Net production energy of the next lower trophic level 5-20%, 10% is a rule of thumb
Units of Energy
1 kcal=1000 cal 1 joule= 0.239
Why is photosynthesis not efficient?
1% of the solar energy striking the producers is captured by photosynthesis +(GPP), 60% is lost during respiration, 40% of GPP supports the growth and reproduction of producers (NPP). 99% of solar energy reflected by plants, because the sunlight is largely in a wavelength form that plants cannot absorb
estimating primary production
1. Change in producer biomass 2. CO2 exchange 3. Remote-sensing
Remote Sensing to estimate NPP
1. MEasure absorption of blue and red light and reflection of green light from satelite images 2. Calculate indices indicating vegetation biomass
Using that donut example, if 108 donuts, or 40,000 kcal is used in primary prodction, how much is the consumption energy?
10,000 kcal, or 27 donuts
How much donuts are used by primary consumers?
1970 kcal used in growth and reproduction by primary consumers; 5 donuts
gross vs net primary production
60% of the 1% absorbed is respired; 40% of the 1% absorbed is used for growth; this is the net primary productivity
What is the approximate ecological efficiency of the primary consumers in our example? Given Numbers: Photosynthetic efficiency = 0.01 100,000 Net primary production efficiency = 0.4 40,000 Consumption efficiency = 0.25 10,000 Assimilation efficiency = 0.48 4,800 Net production efficiency = 0.41 2,000 Is the Answer: A. 5% B. 10% C. 15% D. 20%
A 5% Net Production Efficiency =2000 Net Primary Production efficiency = 40,000 2000/40000 = 0.05 or 5%
Great Oxygenation event
A time about 2.5 billion years ago, when a significant amount of oxygen appeared in the atmosphere caused by photosynthetic cyanobacteria, causing an extinction of most Earth's species at the time
Assuming ecological efficiencies for herbivores = 20% and for carnivores = 5% Chimpanzees can eat both plant and animal material. Given a finite amount of energy (NPP of 100 Kcal for example), how many times more chimps could be supported on an herbivorous diet than on a carnivorous diet? A. 4 times greater B. 10 times greater C. 20 times greater D. the same E. actually, lower
C. 20 Herbivores: 100 kcal * 0.20 = 20 kcal for herbivores Carnivores: 100 kcal * 0.2* 0.05 1 kcal So in this example, herbivores have 20x more energy available to them
GPP equation
GPP = NPP + R
NPE is lower for ___________ than ________________
Homeothermic and mobile animals; poikilothermic and sedentary ones
trophic pyramid
Illustrate distribution of energy or biomass among trophic groups in an ecosystem. Number of trophic levels is limited: Energy runs out Aquatic has 5 levels, terrestrail has 3/4
Co2 Uptake experiments
Light vs Dark bottle.
Primary consumers have _____________ assimilation efficiencies than secondary consumers
Lower, since plant matter is less digestible Leads to assimilation efficiency of 0.48, of 4800 kcal or 13 donuts
In light bottle
Measure net CO2 upttake, since you can measure: CO2 used in photosynthesis - co2 released by respiration
NPP equation
NPP = GPP - R
NSP equation
NSP = GSP - R (Food Eaten-Energy in faeces) - respiration
NPE equation
Net Production Energy/Assimilated Energy
Ecological efficiency (food chain efficiency)
Net Production from one trophic level compared to the next lower level Incorporates consumption, assimilation, net production efficiencies
net production efficiency (NPE)
Of Food Assimilated, some is used for growth and reproduction, rest is lost through respiration
Some energy is not assimilated
Pooped Out
Some energy is used for
Respiraton, not growth or reproduction
Why is it that high precipitation does not mean increased NPP?
Too much water, leads to fungal growth
Gross Primary Productivity (GPP)
Total Energy acquired via photosynthesis (or chemosynthesis)
Respiration
Uses oxygen to release chemical energy to drive cellular processes
How much energy is recycled back through decomposers?
Very Small Amount, bout the same as the Seattle Seahawk's Playoff Chances (written 11/30/2021, when they have a 1% chance of making the playoffs)
In dark Bottle
You can measure CO2 released by respiration
Brown Food Web
detritus based food web
Food Chains Descrive
energy transfer
In decomposers, energy is released as
heat
Possible underestimations of NPP due to
herbivory, below-ground biomass, mutualstic exchanges
Energy transfer efficiency (in donuts)
if 10,000,000 kcal of light comes in (27,030 donuts) comes in, photosynthesis uses only 100,000 kcal (270 donuts), and the NPP is 40,000 (108 donuts)
Changes in spectral reflectances over time give
information on seasonal and annual variation
energy in each trophic level
is less than the one below B
Productivity varies with
latitude and across biomes Warmer areas may see more Net primary Productivity, and when you have a moderate amount of rainfall, you see a high amount of net primary productivity
Most energy enters the biosphere via
photosynthesis. Exception is chemosynthesis near deep ocean vents
Energy flows from
producers through successive trophic levels
primary productivity
rate at which energy is captured and converted into chemical bonds by photosynthesis of chemosynthesis
Energy is the
the ability to do work
Net Primary production is
the amount that can be passed up the food chain
The Higher an individual eats on the food chain
the more energy that is needed to support its diet
Amount of energy lost depends on
transfer efficienct
