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Brazilian Cerrado

Laabs V, Amelung W, Pinto A, Altstaedt A, Zech W (2000) Leaching and degradation of com and soybean pesticides in an oxisol of the Brazilian Cerrados. Chemosphere 41 1441-1449... [Pg.196]

Figure 16.45. SOM humification degree obtained through LIF spectroscopy (//LIF) as affected by land use and soil management system in the experiment at Brazilian Cerrado (Milori et al., 2006). Figure 16.45. SOM humification degree obtained through LIF spectroscopy (//LIF) as affected by land use and soil management system in the experiment at Brazilian Cerrado (Milori et al., 2006).
Bayer, C., Martin-Neto, L., Mielniczuk, J., Pavinato, A., and Dieckow, J. (2006b). Carbon sequestration in two Brazilian Cerrado soils under no-till. Soil Till. Res. 86, 237-245. [Pg.717]

In the more arid savanna regions of the Amazon basin and Brazilian Cerrado, the problem of nutrient depleted soils is compounded by seasonal water shortages. As discussed by M. Haridasan in chapter 5, savanna vegetation is thus of greatly reduced... [Pg.6]

Castro, E. A. 1995. Biomass, nutrient pools and response to fire in the Brazilian cerrado. Master s thesis. Oregon State University. Corvallis. [Pg.81]

Furley, P. A., andj. A. Ratter. 1988. Soil resources and plant communities of the central Brazilian cerrado and their development. Journal of Biogeography 15 97-108. [Pg.82]

Kauffman, J. B., D. L. Cummings, and D. E. Ward. 1994. Relationships of fire, biomass and nutrient dynamics along a vegetation gradient in the Brazilian cerrado. Journal of Ecology. 82 519-531. [Pg.82]

Miranda, A. C., H. S. Miranda, J. Lloyd, J. Grace, R. J. Francey, J. A. McIntyre, P. Riggan, R. Lockwood, and J. Brass. 1996b. Fluxes of carbon, water and energy over Brazilian cerrado An analysis of eddy covariation and stable isotope. Plant Cell and Environment. [Pg.82]

Ratter, J. A., S. Bridgewater, R. Atkinson, and J. F. Ribeiro. 1996. Analysis of the floristic composition of the Brazilian cerrado vegetation. II Comparison of the wood) "Jgetation of 98 areas. Edinburgh Journal of Botany. 53 153-180. [Pg.83]

Miranda A. C., Miranda H. S., Lloyd J., Grace J., Francey R. J., McIntyre J. A., Meir P., Riggan P., Lockwood R., and Brass J. (1997) Fluxes of carbon, water, and energy over Brazilian Cerrado an analysis using eddy covariance and stable isotopes. Plant Cell Environ. 20(3), 315-328. [Pg.2121]

De Castro, E. A. and Kauffman, J. B. (1998). Ecosystem structure in the Brazilian Cerrado a vegetation gradient of aboveground biomass, root mass and consumption by fire. /. Trap. Ecol. 14, 263-283. [Pg.132]

Renz, T.E., Neufeldt, H., Ayarza, M., da Silva, j.E. and Zech, W. (1999) Acid monophosphatase an indicator of phosphorus mineralization or of microbial activity A case study from the Brazilian Cerrados. In Thomas, R.J. and Ayarza, M. (eds) Sustainable Land Management for the Oxisols of the Latin American Savannas. CIAT, Cali, Columbia, pp. 1 73-1 86. [Pg.267]

Pequi tree Caryocar brasiliensis Camb.) is a member of the Central and South American family Caryocaraceae [66, 67]. It stands out by high occiurence in Brazilian Cerrado and extensive period of fiiiit production, which can be collected from September to February in Cerrado of Goias (Brazil) [68]. It is a Brazilian oleaginous ftnit, rich in A, E, C and B2 vitamins in both edible parts pulp and kernel [69, 70]. [Pg.75]

Araujo, FD. A review of Caryocar brasiliense (Caryocaceae) an economically valuable species of the central Brazilian cerrados. Econ Bot, 1995 49 40-8. [Pg.97]

Draw a resonance structure of the compound below, which was isolated from the fruits of Ocotea corymbosa, a native plant of the Brazilian Cerrado. [Pg.78]

The next three chapters of this book (by Ratter et al., Durigan et al., and Felflli et al.) are detailed studies of the Brazilian Cerrado Biome. They are interrelated and deal with distribution patterns... [Pg.12]

It is clear that much of the woody element of neotropical savannas outside of the Brazilian cerrados comprises widespread cerrado species. How these species have achieved their distributions and reached areas as isolated as some of the Andean valleys is an intriguing biogeographical question that has received far less recent attention than the same question for broadly distributed SDTF species. [Pg.13]

While there are more lines of palaeontological evidence for the origin of neotropical savannas, they do not produce an entirely clear picture, especially for the Brazilian cerrados, partly because it seems that virtually none of the fossil deposits (reviewed by Jacobs et al. [1999]) come from this area. It seems that neotropical savanna is unlikely to be older than the mid-Miocene, but the South American herbivore fossil evidence does not rule out an Oligocene origin. Nevertheless,... [Pg.20]

Goodland, R.J. and Pollard, R., The Brazilian cerrado vegetation a fertility gradient. J. EcoL, 61, 219, 1973. [Pg.27]

Lacerda, D.R. et al.. Genetic diversity and structure of natural populations of Plathymenia reticulata (Mimosoideae), a tropical tree from the Brazilian Cerrado, Mol. Ecol., 1143, 2001. [Pg.28]

O Biodiversity Patterns of the Woody Vegetation of the Brazilian Cerrado... [Pg.31]


See other pages where Brazilian Cerrado is mentioned: [Pg.186]    [Pg.47]    [Pg.81]    [Pg.81]    [Pg.283]    [Pg.232]    [Pg.116]    [Pg.134]    [Pg.260]    [Pg.6]    [Pg.9]    [Pg.9]    [Pg.10]    [Pg.13]    [Pg.13]    [Pg.22]    [Pg.23]    [Pg.29]    [Pg.29]    [Pg.32]    [Pg.33]    [Pg.35]   
See also in sourсe #XX -- [ Pg.116 ]




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