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Comprehensive assessment of carbon cycling in Amazonian forest stands Yadvinder Malhi Luiz Aragao, Cecile Girardin, Dam Metcalfe, Javier Silva Espejo,

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Presentation on theme: "Comprehensive assessment of carbon cycling in Amazonian forest stands Yadvinder Malhi Luiz Aragao, Cecile Girardin, Dam Metcalfe, Javier Silva Espejo,"— Presentation transcript:

1 Comprehensive assessment of carbon cycling in Amazonian forest stands Yadvinder Malhi Luiz Aragao, Cecile Girardin, Dam Metcalfe, Javier Silva Espejo, Antonio Lola da Costa, Samuel Almeida....

2 Malhi et al (2004), The above-ground coarse wood productivity of 104 Neotropical forest plots, Global Change Biology Above-ground wood productivity

3

4 Photosynthesis 100% Wood respiration Leaf production Above-ground biomass production Below-ground biomass production Fine-root production The Carbon Allocation of Tropical Forests Leaf respiration Root respiration Volatile production Dissolved organic matter Autotrophic respiration Net primary production

5 GPP = 30.4 Manaus R leaf = 10.0±4.0 R stem = 4.2±1.0 R CWD = 2.5±0.3 R Total = 29.3±4.7 R Aut = 19.8±4.6 R Het = 9.6±1.2 NPP Total = 10.1±1.4 NPP Ag = 7.3±1.3 NPP Bg = 2.8±0.7 F doc = 0.19±0.07 D Fine litterfall = 3.6±0.7 D CWD = 3.58±1.0 R roots = 5.6±2.0 Predicted R soil = 12.6±2.3 Measured R soil = 12.1±1.7 D Root = 2.8±0.7 R soil het. = 7.1±1.1 NPP coarse roots = 0.8±0.2 NPP fine roots = 2.1±0.7 NPP stem = 2.58±0.06 NPP VOC = 0.13±0.06 NPP leaves,flowers,fruit = 3.6±0.7 NPP branch turnover = 1.0±1.0

6 Some Results

7 Manaus Tapajos Caxiuana Tambopata

8 Components of net primary productivity, N p Malhi et al., Global Change Biology, in press

9 Components of net primary productivity, N p Malhi et al., Global Change Biology, in press

10 Aragao et al., in prep

11 GPP = 30.4 Manaus R leaf = 10.0±4.0 R stem = 4.2±1.0 R CWD = 2.5±0.3 R Total = 29.3±4.7 R Aut = 19.8±4.6 R Het = 9.6±1.2 NPP Total = 10.1±1.4 NPP Ag = 7.3±1.3 NPP Bg = 2.8±0.7 F doc = 0.19±0.07 D Fine litterfall = 3.6±0.7 D CWD = 3.58±1.0 R roots = 5.6±2.0 Predicted R soil = 12.6±2.3 Measured R soil = 12.1±1.7 D Root = 2.8±0.7 R soil het. = 7.1±1.1 NPP coarse roots = 0.8±0.2 NPP fine roots = 2.1±0.7 NPP stem = 2.58±0.06 NPP VOC = 0.13±0.06 NPP leaves,flowers,fruit = 3.6±0.7 NPP branch turnover = 1.0±1.0

12 Contributing terms to soil respiration

13 Comparison against direct soil respiration measurements

14 GPP = 30.4 Manaus R leaf = 10.0±4.0 R stem = 4.2±1.0 R CWD = 2.5±0.3 R Total = 29.3±4.7 R Aut = 19.8±4.6 R Het = 9.6±1.2 NPP Total = 10.1±1.4 NPP Ag = 7.3±1.3 NPP Bg = 2.8±0.7 F doc = 0.19±0.07 D Fine litterfall = 3.6±0.7 D CWD = 3.58±1.0 R roots = 5.6±2.0 Predicted R soil = 12.6±2.3 Measured R soil = 12.1±1.7 D Root = 2.8±0.7 R soil het. = 7.1±1.1 NPP coarse roots = 0.8±0.2 NPP fine roots = 2.1±0.7 NPP stem = 2.58±0.06 NPP VOC = 0.13±0.06 NPP leaves,flowers,fruit = 3.6±0.7 NPP branch turnover = 1.0±1.0

15 Components of plant respiration

16

17 G p = N p + R autotrophic Bottom-up estimations of gross primary production, G p

18 CO 2 Flux Time of day Gross Primary Production Ecosystem Respiration Net Ecosystem Exchange Top-down estimations of gross primary production, G p

19 Calculation of gross primary production and comparison with flux towers

20

21 CUE = N p / G p = N p / (G p + R autotrophic ) Estimations of carbon use efficiency, CUE

22 Carbon use efficiencies

23

24

25 Malhi et al (2004), The above-ground coarse wood productivity of 104 Neotropical forest plots, Global Change Biology Above-ground wood productivity

26 3450m 3250m 3000m 2750m 2500m 2000m 2250m 1750m Trocha Union, Kosnipata Ridge, Manu Peru Andes Biodiversity and Ecosystem Research Group: www.aberg.org 1500m 1250m 1000m 200m

27 8.5 o C 9.2 o C 10.5 o C 11.9 o C 13.3 o C 15.3 o C 14.8 o C 16.7 o C Trocha Union, Kosnipata Ridge, Manu Peru Andes Biodiversity and Ecosystem Research Group: 19 o C 21 o C 22.1 o C 26.4 o C

28 Trocha Union (3000 m elevation), Peru

29 San Pedro (1500 m elevation), Peru

30

31 NPP Variation with Elevation

32 GPP Variation with Elevation

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