Photosynthetica 2014, 52(3):358-370 | DOI: 10.1007/s11099-014-0039-4

Effect of the replacement of a native savanna by an African Brachiaria decumbens pasture on the CO2 exchange in the Orinoco lowlands, Venezuela

J. San José1,*, R. Montes2, N. Nikonova1, J. Grace3, C. Buendía1
1 Ecology Center, Venezuelan Institute for Scientific Research, Caracas, Venezuela
2 Environment Studies Departament, Simón Bolívar University, Caracas, Venezuela
3 School of GeoSciences, The University of Edinburgh, Edinburgh, UK

In the Orinoco lowlands, savannas have been often replaced by pastures composed of the C4 grass, Brachiaria decumbens Stapf. We addressed following questions: (1) How does the replacement of the native vegetation affect CO2 exchange on seasonal and annual scales? (2) How do biophysical constraints change when the landscape is transformed? To assess how these changes affect carbon exchange, we determined simultaneously the CO2 fluxes by eddy covariance, and the soil CO2 efflux by a chamber-based system in B. decumbens and herbaceous savanna stands. Measurements covered a one-year period from the beginning of the dry season (November 2008) to the end of the wet season (November 2009). During the wet season, the net ecosystem CO2 exchange reached maximum values of 23 and 10 μmol(CO2) m-2 s-1 in the B. decumbens field and in the herbaceous savanna stand, respectively. The soil CO2 efflux for both stands followed a temperature variation during the dry and wet seasons, when the soil water content (SWC) increased above 0.087 m3 m-3 in the latter case. Bursts of CO2 emissions were evident when the dry soil experienced rehydration. The carbon source/sink dynamics over the two canopies differed markedly. Annual measurements of the net ecosystem production indicated that the B. decumbens field constituted a strong carbon sink of 216 g(C) m-2 y-1. By contrast, the herbaceous savanna stand was found to be only a weak sink [36 g(C) m-2 y-1]. About 53% of the gross primary production was lost as the ecosystem respiration. Carbon uptake was limited by SWC in the herbaceous savanna stand as evident from the pattern of water-use efficiency (WUE). At the B. decumbens stand, WUE was relatively insensitive to SWC. Although these results were specific to the studied site, the effect of land use changes and the physiological response of the studied stands might be applicable to other savannas.

Additional key words: Eddy covariance; soil CO2 eflux; water-use efficiency

Received: October 18, 2012; Accepted: October 18, 2013; Published: September 1, 2014  Show citation

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San José, J., Montes, R., Nikonova, N., Grace, J., & Buendía, C. (2014). Effect of the replacement of a native savanna by an African Brachiaria decumbens pasture on the CO2 exchange in the Orinoco lowlands, Venezuela. Photosynthetica52(3), 358-370. doi: 10.1007/s11099-014-0039-4
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    References

    1. Alvim, M.J., Botrel, M. de A., Verneque, R.da S., Salvati, J.A.: [Nitrogen application in accessions of Brachiaria. 1. Effect on dry matter production.] - Pasturas Tropicales 12: 2-6, 1990. [In Portuguese]
    2. Aubinet, M., Grelle, A., Ibrom, A., et al.: Estimates of the annual net carbon and water exchange of forests: the EUROFLUX methodology. - Adv. Ecol. Res. 30: 113-175, 2000. Go to original source...
    3. Aubinet, M., Heinesch, B., Longdoz, B.: Estimation of the carbon sequestration by a heterogeneous forest: night flux corrections, heterogeneity of the site and inter-annual variability. - Glob. Change Biol. 8: 1053-1071, 2002. Go to original source...
    4. Aubinet, M., Heinesch, B., Yernaux, M.: Horizontal and vertical CO2 advection in a sloping forest. - Bound-Lay. Meteorol. 108: 397-417, 2003. Go to original source...
    5. Baldocchi, D.: A comparative study of mass and energy exchange over a closed (wheat) and an open (corn) canopy: II. Canopy CO2 exchange and water use efficiency. - Agr. Forest Meteorol. 67: 291-321, 1994. Go to original source...
    6. Baldocchi, D., Meyers, T.: On using eco-physiological, micrometeorological and biogeochemical theory to evaluate carbon dioxide, water vapor and gaseous deposition fluxes over vegetation. - Agr. Forest Meteorol. 90: 1-25, 1998. Go to original source...
    7. Bégué, A., Desprat, J.F., Imbernon, J., Baret, F.: Radiation use efficiency of pearl millet in the Sahelian zone. - Agr. Forest Meteorol. 56: 93-110, 1991. Go to original source...
    8. Birch, H.F., Friend, M.T.: Humus decomposition in East African soils. - Nature 178: 500-501, 1956. Go to original source...
    9. Black, C.C.: Photosynthetic carbon fixation in relation to net CO2 uptake. - Ann. Rev. Plant Phys. 24: 253-286, 1973. Go to original source...
    10. Boulain, N., Cappelaere, B., Ramier, D., et al.: Towards an understanding of coupled physical and biological processes in the cultivated Sahel - 2. Vegetation and carbon dynamics. - J. Hydrol. 375: 190-203, 2009. Go to original source...
    11. Bowling, D.R., McDowell, N.G., Bond, B.J., Law, B.E., Ehleringer, J.R.: 13C content of ecosystem respiration is linked to precipitation and vapor pressure deficit. - Oecologia 131: 113-124, 2002. Go to original source...
    12. Brümmer, C., Papen, H., Wassmann, R., Brüggemann, N.: Fluxes of CH4 and CO2 from soil and termite mounds in South-Sudanian savanna of Burkina Faso (W. Africa). - Global Biogeochem. Cy.: doi:10.1029/2008GB003237, 2009. Go to original source...
    13. Burrows, W.H., Henry, B.K., Back, P.V., et al.: Growth and carbon stock change in eucalypt woodlands in northeast Australia: ecological and greenhouse sink implications. - Glob. Change Biol. 8: 769-784, 2002. Go to original source...
    14. Chen, X., Eamus, D., Hutley, L.B.: Seasonal patterns of soil carbon dioxide efflux from a wet-dry tropical savanna of northern Australia. - Aust. J. Bot. 50: 43-51, 2002. Go to original source...
    15. Chen, X., Hutley, L.B., Eamus, D.: Carbon balance of a tropical savanna in northern Australia. - Oecologia 137: 405-416, 2003. Go to original source...
    16. Cox, G.W.: Laboratory Manual of General Ecology. Pp. 272. W.O.C., Iowa 1972.
    17. Craine, J.M., Wedin, D.A., Chapin, F.S.: Predominance of ecophysiological controls on soil CO2 flux in a Minnesota grassland. - Plant Soil 207: 77-86, 1999. Go to original source...
    18. Davidson, E.A., Beck, E., Boone, R.D.: Soil water content and temperature as independent or confound factors controlling soil respiration in a temperature mixed hardwood forest. - Glob. Change Biol. 4: 217-227, 1998. Go to original source...
    19. Du, Y.C., Kawamitsu, Y., Nose, A., et al.: Effects of water stress on carbon exchange rate and activities of photosynthetic enzyme in leaves of sugarcane (Saccharum sp.). - Aust. J. Plant Physiol. 23: 719-726, 1996. Go to original source...
    20. Eamus, D., Hutley, L.B., O'Grady, A.P.: Daily and seasonal patterns of carbon and water fluxes above a north Australian savanna. - Tree Physiol. 21: 977-988, 2001. Go to original source...
    21. Falge, E., Baldocchi, D., Olson, R., et al.: Gap filling strategies for defensible annual sums of net ecosystem exchange. - Agr. Forest Meteorol. 107: 43-69, 2001. Go to original source...
    22. Frouin, R., Pinker, R.T.: Estimating photosynthetically Active Radiation (PAR) at the Earth's surface from satellite observations. - Remote Sens. Environ. 51: 98-107, 1995. Go to original source...
    23. Grace, J., Lloyd, J., Miranda, A.C., Miranda, H., Gash, J.H.C.: Fluxes of carbon and water vapour over a C4 pasture in southwestern Amazonia (Brazil). - Aust. J. Plant Physiol. 25: 519-530, 1998. Go to original source...
    24. Grace, J., Malhi, Y., Lloyd, J., et al.: The use of eddy covariance to infer the net carbon dioxide uptake of Brazilian rain forest. - Glob. Change Biol. 2: 209-217, 1996. Go to original source...
    25. Griffiths, E., Birch, H.F.: Microbiological changes in freshly moistened soil. - Nature 189: 424, 1961. Go to original source...
    26. Hanan, N.P., Kabat, P., Dolman, A.J., Elbers, J.A.: Photosynthesis and carbon balance of a Sahelian fallow savanna. - Glob. Change Biol. 4: 523-538, 1998. Go to original source...
    27. Hanson, P.J., Wullschleger, S.D., Bohlman, S.A., Todd, D.E.: Seasonal and topographic patterns of forest floor CO2 efflux from an upland oak forest. - Tree Physiol. 13: 1-15, 1993. Go to original source...
    28. Hedges, J.I., Clark, W.A., Quay, P.D., et al.: Compositions and fluxes of particulate organic material in the Amazon River. - Limnol. Oceanogr. 31: 717-738, 1986. Go to original source...
    29. Hipps, L.E., Asrar, G., Kanemasu, E.T.: Assessing the interception of photosynthetically active radiation in winter wheat. - Agr. Meteorol. 28: 253-259, 1983. Go to original source...
    30. Hunt, J.E., Kelliher, F.M., McSeveny, T.M., Byers, J.N.: Evaporation and carbon dioxide exchange between the atmosphere and a tussock grassland during a summer drought. - Agr. Forest Meteorol. 111: 65-82, 2002. Go to original source...
    31. IPCC: Climate change: the IPCC Scientific Assessment. - In: Houghton, J.T., Jenkins, G.J., Ephraums, J.J. (ed.): Report by Working Group I Pp. 410. Cambridge University Press, Cambridge, New York, and Melbourne 1990.
    32. IPCC: Intergovermental panel on climate change. climate change 2001. - In: Watson, R.T. and the Core Writing Team (ed.): Synthesis Report. Third Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge Univ. Press, New York 2001.
    33. Jackson, M.L.: Soil Chemical Analysis. Pp. 380. Prentice, New York 1958.
    34. Jackson, R.B., Jobbagy, E.G., Avissar, R., et al.: Trading water for carbon with biological carbon sequestration. - Science 310: 1944-1947, 2005. Go to original source...
    35. Kaimal, J.C., Finnigan, J.J.: Atmospheric Boundary Layer Flows. Their Structure and Measurement. Pp. 289. Oxford University Press, Oxford 1994. Go to original source...
    36. Kruijt, B., Elbers. J.A., von Randow, C., et al.: The robustness of eddy correlation fluxes for Amazon rain forest conditions. - Ecol. Appl. 14: S101-S113, 2004. Go to original source...
    37. Lal, A., Edwards, G.E.: Analysis of inhibition of photosynthesis under water stress in the C4 species Amaranthus cruentus and Zea mays: electron transport, CO2 fixation and carboxylation capacity. - Funct. Plant Biol. 23: 403-412, 1996. Go to original source...
    38. Lapointe, S.L., Miles, J.W.: Germplasm case study: Brachiaria species. - In: Miles, J.W., Maass, B.L., do Valle, C.B., Kumble, V. (ed.): CIAT Pastures for the Tropical Lowlands: CIAT?s Contribution. Pp 43-55. CIAT, Cali, Colombia, 1992.
    39. Le Roux, X., Mordelet, P.: Leaf and canopy CO2 assimilation in a West African humid savanna during the early growing season. - J. Trop. Ecol. 11: 529-545, 1995. Go to original source...
    40. Leuning, R., Cleugh, H.A., Zegelin, S.J., Hughes, D.: Carbon and water fluxes over a temperate Eucalyptus forest and a tropical wet/dry savanna in Australia: measurements and comparison with MODIS remote sensing estimates. - Agr. Forest Meteorol. 129: 151-173, 2005. Go to original source...
    41. Lira, M.D., Farias, I., Fernandes, A.D.M., Soares, L.M., Dubeux, J.C.B.: Response stability of signal grass (Brachiaria decumbens Stapf.) with increasing nitrogen and phosphorus levels. - Pesqui. Agropecu. Bras. 29: 1151-1157, 1994.
    42. Liski, J., Ilvesniemi, H., Mäkelä, A., Westman, C.J.: CO2 emissions from soil in response to climate warming are overestimated. The decomposition of old soil organic matter is tolerant of temperature. - Ambio 28: 171-174, 1999.
    43. Liu, X.Z., Wan, S.Q., Su, B., Hui, D.F., Luo, Y.Q.: Response of soil CO2 efflux to water manipulation in a tallgrass prairie ecosystem. - Plant Soil 240: 213-223, 2002. Go to original source...
    44. Lloyd, C.R.: The CO2 dependence of photosynthesis, plant growth responses to elevated CO2 concentrations and their interaction with soil nutrient status, II. Temperate and boreal forest productivity and the combined effects of increasing CO2 concentrations and increased nitrogen deposition at a global scale. - Funct. Ecol. 13: 439-459, 1999. Go to original source...
    45. Lloyd, J., Taylor, J.A.: On the temperature dependence of soil respiration. - Funct. Ecol. 8: 315-323, 1994. Go to original source...
    46. Luo, Y.Q., Jackson, R.B., Field, C.B., Mooney, H.A.: Elevated CO2 increases belowground respiration in California grasslands. - Oecologia 108: 130-137, 1996. Go to original source...
    47. McKell, C.M., Wilson, A.M., Jones, M.B.: A flotational method for easy separation of roots from soil samples. - Agron. J. 53: 56-57, 1961. Go to original source...
    48. Meir, P., Grace, J., Lloyd, J., Miranda, A.C.: Soil respiration in a rain forest in Amazonia, and in cerrado in Central Brazil. - In: Gash, J.H.C., Nobre, C.A., Roberts, J.M., Victoria, R.L. (ed.): Amazonian Deforestation and Climate. Pp. 319-329. John Wiley & Sons, UK 1996.
    49. Meyers, T.P.: A comparison of summertime water and CO2 fluxes over rangeland for well watered and drought conditions. - Agr. Forest Meteorol. 106: 205-214, 2001. Go to original source...
    50. Miles, J.W., Lapointe S.L.: Regional germplasm evaluation: A portfolio of germplasm options for the major ecosystems of tropical America. - In: Miles, J.W., Maass, B.L., do Valle, C.B., Kumble, V. (ed.): Pastures for the Tropical Lowlands: CIAT?s Contribution. Pp 43-55. CIAT, Cali, Colombia, 1992.
    51. Miles, J.W., Maass, B.L., do Valle, C.B., Kumble, V.: [Brachiaria: Biology, Agronomy and Improvement.]. Pp. 312. CIAT-EMBRAPA, Colombia 1998. [In Spanish]
    52. Miranda, A.C., Miranda, H.S., Lloyd, J., et al..: Fluxes of carbon, water and energy over Brazilian cerrado: an analysis using eddy covariance and stable isotopes. - Plant Cell Environ. 20: 315-328, 1997. Go to original source...
    53. Moncrieff, J.B., Monteny, B., Verhoef, A., et al.: Spatial and temporal variations in net carbon flux during HAPEX-Sahel. - J. Hydrol. 189: 563-588, 1997. Go to original source...
    54. Monteiro, J.M.: [CO2 fluxes in a cerrado sensu stricto.] - Master Dissertation, Univ. Brasilia, Brasilia 1995. [In Portuguese]
    55. Monteny, B.A., Lhomme, J.P., Chehbouni, A., et al.: The role of the Sahelian biosphere on the water and the CO2 cycle during the HAPEX-Sahel Experiment. - J. Hydrol. 189: 516-535, 1997. Go to original source...
    56. Mullenax, C.: [Adequacy and management of natural grasslands in the high plains of the Eastern Plains of Colombia.] - Carta Agraria 278: 2, 1979. [In Spanish]
    57. Parsons, J.J.: Spread of African grasses to the American tropics. - J. Range Manage. 25: 12-17, 1972. Go to original source...
    58. Pla Sentís, I.: [Methodology for the physical characterization to diagnose problems in management and conservation of soils in tropical conditions.] - Graduate course in Soil Science, UCV. Pp 112. Maracay 1977. [In Spanish]
    59. Raich, J.W., Schlesinger, W.H.: The global carbon dioxide flux in soil respiration and its relationship to vegetation and climate. - Tellus B 44: 81-99, 1992. Go to original source...
    60. Rao, I.M., Kerridge, P.C., Macedo, M.C.M.: [Nutritional requirements and adaptation to acid soils Brachiaria species.] - In: Miles, J.W., Maass, B.L., do Valle, C.B., Kumble, V. (ed.): [Brachiaria: Biology, Agronomy and Improvement]. Pp. 58-78. CIAT, EMBRAPA, Colombia 1998. [In Spanish]
    61. Reichstein, M., Falge, E., Baldocchi, D., et al.: On the separation of net ecosystem exchange into assimilation and ecosystem respiration: review and improved algorithm. - Glob. Change Biol. 11: 1424-1439, 2005. Go to original source...
    62. Ribeiro, J.P., Walter, B.M.: [Vegetation physiognomies of the Cerrado biome]. - In: Sano, S.M., de Almeida, S.P. (ed.): [Cerrado: Environment and Flora.] Pp. 89-168. EMBRAPACPAC, Planaltina, Brazil 1998. [In Portuguese]
    63. Ruimy, A., Jarvis, P.G., Baldocchi, D.D., Saugier, B.: CO2 fluxes over plant canopies and solar radiation: a review. - Adv. Ecol. Res. 26: 1-68, 1995. Go to original source...
    64. San José, J.J.: Mass and energy transfer within and between burned and unburned savanna environments.- Int. J. Wildland Fire 2: 153-160, 1992. Go to original source...
    65. San José, J.J.: Contribution of rangelands to animal production in the tropics. - In: Sotomayor-Rios, A., Pitman, W.D. (ed.): Tropical Forage Plants: Development and Use. Pp. 269-294. CRC Press, New York 2001. Go to original source...
    66. San José, J.J., Bracho, R., Montes, R., Nikonova, N.: Comparative energy exchange from cowpeas [Vigna unguiculata (L.) Walp cvs. TC-9-6 and M-28-6-6] with differences in canopy architectures and growth durations at the Orinoco llanos. - Agr. Forest Meteorol. 116: 197-219, 2003. Go to original source...
    67. San José, J.J., Montes, R.: Resource apportionment and net primary production outcome across the Orinoco savanna-woodland continuum. - Acta Oecol. 32: 243-253, 2007. Go to original source...
    68. San José, J.J., Montes, R., Grace, J., Nikonova, N.: Land-use changes alter CO2 flux patterns of a tall-grass Andropogon field and a savanna-woodland continuum in the Orinoco lowlands. - Tree Physiol. 28: 437-450, 2008. Go to original source...
    69. Santos, A.J.B.: [Fluxes of energy, carbon and water in a vegetation of campo sujo.] - Master Dissertation, Univ. Brasilia, Brasilia 1999. [In Portuguese]
    70. Santos, A.J.B., Da Silva, G.T., Miranda, H.S., Miranda, A.C., Lloyd, J.: Effects of fire on surface carbon, energy and water vapour fluxes over campo sujo savanna in Central Brazil. - Funct. Ecol. 17: 711-719, 2003. Go to original source...
    71. Santos, A.J.B., Quesada, C.A., Da Silva, et al.: High rates of net ecosystem carbón assimilation by Brachiaria pasture in the Brazilian cerrado. - Glob. Change Biol. 10: 877-885, 2004. Go to original source...
    72. Schuepp, P.H., Leclerc, M.Y., MacPherson, J.I., Desjardin, R.L.: Footprint prediction of scalar fluxes from analytical solutions of the diffusion equation. - Bound.-Lay. Meteorol. 50: 353-373, 1990. Go to original source...
    73. Sotta, E.D., Meir, P., Malhi, Y., Nobre, A.D., Hodnett, M.: Soil CO2 efflux in a tropical forest in the central Amazon. - Glob. Change Biol. 10: 601-617, 2004. Go to original source...
    74. Stewart, W.M.: Balanced fertilization increases water use efficiency. News and views. A regional newsletter published by Potash & Phosphate Institute (PPI). Pp. 2, www.ppi-far.org. Lubbocks, Texas 2001.
    75. Tohmé, J., Palacios, N., Lenis, S., Roca, W.: [Applications of biotechnology to Brachiaria genus.] - In: Miles, J.W., Maass, B.L., do Valle, C.B., Kumble, V. (ed.): [Brachiaria: Biology, Agronomy and Improvement.] Pp. 216-225. CIATEMBRAPA, Cali, Colombia 1998. [In Spanish]
    76. Veenendaal, E.M., Kolle, O., Lloyd, J.: Seasonal variation in energy fluxes and carbon dioxide exchange for a broad-leaved semi-arid savanna (Mopane woodland) in Southern Africa. - Glob. Change Biol. 10: 318-328, 2004. Go to original source...
    77. Veenendaal, E.M., Shuschu, D.D., Scurlock, J.M.O.: Responses to shading of seedling of savanna grasses (with different C4 photosynthetic pathway) in Botswana. - J. Trop. Ecol. 9: 213-229, 1993. Go to original source...
    78. Verhoef, A., Allen, S.J., Lloyd, C.R.: Seasonal variation of surface energy balances over two Sahelian surfaces. - Int. J. Climatol. 19: 1267-1277, 1999. Go to original source...
    79. Vourlitis, G., Priante, N., Hayashi, M.M.S., et al.: Seasonal variations in the net ecosystem CO2 exchange of a mature Amazonian transitional tropical forest (cerradao). - Funct. Ecol. 15: 388-395, 2001. Go to original source...
    80. Walkley, A.: A critical examination of a rapid method for determining organic carbon in soils-effect of variations in digestion conditions and of inorganic soil constituents. - Soil Sci. 63: 251-264, 1947. Go to original source...
    81. Williams, C.A., Albertson, J.D.: Soil moisture controls on canopy-scale and carbon fluxes in an African savanna. - Water Resour. Res. doi:10.1029/2004WR003208, 2004. Go to original source...
    82. Wilsey, B.: Clonal plants in a spatially heterogeneous environment: effects of integration on Serengeti grassland response to defoliation and urine-hits from grazing mammals. - Plant Ecol. 159: 15-22, 2002. Go to original source...
    83. Zepp, R.G., Miller, W.L., Burke, R.A., Parsons, D.A.B., Scholes, M.C.: Effects of moisture and burning on soil-atmosphere exchange of trace carbon gases in a southern African savanna. - J. Geophys. Res.-Atmos. 101: 23699-23706, 1996. Go to original source...

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