1. Human Energy Systems Unit Activity 4.4: The Seasonal Cycle
Carbon: Transformations in Matter and Energy
Environmental Literacy Project Michigan State University
Human Energy Systems Unit Activity 4.4: The Seasonal Cycle

2. Explaining the seasonal cycle
The Keeling Curve
Explaining the seasonal cycle

3. Watch a video about seasonal changes
Amount of plant growth

4. How does this help explain the Keeling Curve seasonal cycle?
February
July

5. Why do carbon dioxide concentrations GO DOWN during the spring and summer?
Let's use carbon transforming processes--photosynthesis and cellular respiration--and global carbon pools to explain.

6. Make predictions Atmosphere Inorganic Carbon Pool
Biomass Organic Carbon Pool
Atmosphere
Fossil Fuels Organic Carbon Pool
Soil Organic Carbon
Pool
Fossil Fuels
Soil Carbon

7. Instructions Begin at one pool. On the poster, write your ideas about
where carbon atoms could go after they are in this pool, and
what causes them to go there.
For example, if you are in the biomass pool, you might write “carbon goes to soil pool” because “leaves fall off a tree and decompose.” Write down as many ideas as you can (it’s ok if they are wrong). Then, move to the next poster. Revise and edit the ideas in the next pool. Keep moving until you return to your original pool.

8. Fluxes of carbon change during seasons
Photosynthesis moves carbon atoms from the atmosphere to biomass.
Plants do photosynthesis and grow!!
Living things die and begin to decompose.
Decomposers do cellular respiration.
Plants and animals do cellular respiration.
SPRING & SUMMER:
Plants are growing
Lots of photosynthesis
400
570
560
540
580
550
620
610
530
600
590
470
450
440
430
460
630
510
490
480
520
680
770
760
750
780
790
820
810
800
740
730
670
660
650
420
690
720
710
700
640
500
410
800
670
680
700
660
650
620
630
640
710
730
780
790
390
380
770
760
610
740
750
720
690
410
400
470
480
600
420
430
440
450
490
460
550
500
560
570
590
580
530
540
510
520
Biomass
Atmosphere
Cellular respiration moves carbon atoms from biomass to the atmosphere.
Cellular respiration moves carbon atoms from soil organic carbon to the atmosphere.
Death and defecation move carbon atoms from biomass to soil organic carbon
1010
1000
1020
940
970
980
990
960
950
920
900
930
910
Soil Carbon
Fossil Fuels

9. Beginning of spring (April) End of summer (October)
Compare: What is the overall movement of carbon atoms among pools during the spring and summer?
Beginning of spring (April)
End of summer (October)
Soil Carbon
Atmosphere
Fossil Fuels
Biomass
800
400
1000
Soil Carbon
Atmosphere
Fossil Fuels
Biomass
900
600
700

10. Why do carbon dioxide concentrations INCREASE during the fall and winter?
Let's use carbon transforming processes--cellular respiration--and global carbon pools to explain.

11. Fluxes of carbon change during seasons
Cellular respiration moves carbon atoms from biomass to the atmosphere.
Plants and animals still do cellular respiration.
Leaves fall and annual plants die and enter the soil pool.
Living things die and begin to decompose.
FALL & WINTER:
Most plants stop growing
Less photosynthesis
400
540
530
550
580
520
570
480
470
590
490
500
510
630
670
680
690
700
660
650
610
620
460
640
600
560
410
420
450
430
440
800
730
710
750
720
780
790
700
770
760
740
610
640
630
690
650
600
680
670
660
620
Biomass
Atmosphere
Cellular respiration moves carbon atoms from soil organic carbon to the atmosphere.
Death and defecation move carbon atoms from biomass to soil organic carbon
1000
1040
1020
1030
1010
1060
1100
1090
1080
1070
1050
980
960
970
990
900
950
910
920
940
930
Soil Carbon
Fossil Fuels

12. Beginning of fall (October)
Compare: What is the overall movement of carbon atoms among pools during the fall and winter?
Beginning of fall (October)
End of winter (April)
Soil Carbon
Atmosphere
Fossil Fuels
Biomass
600
700
900
Soil Carbon
Atmosphere
Fossil Fuels
Biomass
800
400
1000

13. Three Questions at the Large-Scale
The Carbon Pools Question. Where are the carbon pools in our environment?
The Carbon Movement Question: How are carbon atoms cycling among pools?
The Energy Question: How does energy flow through Earth systems?