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(1999)
Chaves de identificação das espécies vegetais vasculares baseada em caracteres vegetativos para a ARIE Cerrado Pé-de-Gigante (Santa Rita do Passa Quatro, SP)
P. Stott, P. Furley, J. Proctor, J. Ratter (1994)
Nature and Dynamics of Forest-Savanna Boundaries.Journal of Ecology, 82
G. Tyler, U. Falkengren‐Grerup (1998)
Soil Chemistry and Plant Performance — Ecological Considerations
Regina Laforet, Ademar Silva, Claudia Laia, M. Coelho, E. Fidalgo, J. Monteiro, A. Turetta, F. Balieiro, S. Beltrão, L. Andrade, Nilda Sette, M. Camargo (2006)
Sistema Brasileiro de Classificação de Solos.
J.A. Ratter, G.P. Askew, R.F. Montogomery, D.R. Gifford (1977)
IV Simpósio Sobre o Cerrado
P.A. Furley (1976)
Soil-slope-plant relationships in the northern Maya mountains, Belize, Central AmericaJournal of Biogeography, 3
D. Challinor (1968)
Alteration of Surface Soil Characteristics by Four Tree SpeciesEcology, 49
(1948)
Climatologia
A. Oliveira-Filho, N. Curi, E. Vilela, D. Carvalho (1997)
Tree species distribution along soil catenas in a riverside semideciduous forest in southeastern BrazilFlora, 192
J.W. Rouse, R.H. Haas, J.A. Schell, D.W. Defering (1973)
Proceedings of the Third Earth Resources Technology Satellite 1 Symposium no. 3
M. Kellman, K. Miyanishi (1982)
Forest Seedling Establishment in Neotropical Savannas: Observations and Experiments in the Mountain Pine Ridge Savanna, BelizeJournal of Biogeography, 9
Simpósio Cerrado, Mário Ferri (1971)
III Simpósio sôbre o Cerrado
(1978)
O conceito de cerrado
(1983)
Present-day savannas: an overview
M. Kellman (1979)
Soil Enrichment by Neotropical Savanna TreesJournal of Ecology, 67
A. Fitter (1987)
Spatial and temporal separation of activity in plant communities: prerequisite or consequence of coexistence?
R. Goodland, R. Pollard (1973)
THE BRAZILIAN CERRADO VEGETATION: A FERTILITY GRADIENTJournal of Ecology, 61
A.H. Fitter (1987)
Organization of Communities: Past and Present
M. Hill, R. Jongman, C. Braak, O. Tongeren (1987)
Data analysis in community and landscape ecologyJournal of Animal Science
(1984)
Solos sob “ Cerrado ” Características , Pro - priedades e Manejo
S. Ellis, A. Mellor (1995)
Soils and Environment
(1992)
Edaphic changes at the forest-savanna boundary with particular reference to the neotropics
D. Tilman (1985)
The Resource-Ratio Hypothesis of Plant SuccessionThe American Naturalist, 125
P. Furley, J. Ratter (1988)
Soil resources and plant communities of the central Brazilian cerrado and their developmentJournal of Biogeography, 15
(1971)
Soils and soil moisture as factors influencing the distribution of the vegetation formations of the Serra do Roncador, Mato Grosso
(1983)
Comparação da concentração de nutrientes na
J. Rouse, R. Haas, J. Schell, D. Deering (1973)
Monitoring vegetation systems in the great plains with ERTS, 1
(1997)
Cerrado: Bases Para Conservação e uso sustentável das áreas de cerrado do Estado de São Paulo-Série PROBIO/SP
C.T. Rizzini (1997)
Tratado de Fitogeografia do Brasil
G. Tyler, U. Falkengren-Grerup (1998)
Progress in Botany
Bongers, R. Kitching, D. Lieberman, M. Nordin (1985)
Tropical EcologyNature, 189
(1963)
As plantas lenhosas dos campos cerrados como vegetação adaptada às deficiências minerais do solo
(1997)
lowland rain forest: does soil matter? Ecology
C. Braak (1988)
CANOCO - a FORTRAN program for canonical community ordination by [partial] [etrended] [canonical] correspondence analysis, principal components analysis and redundancy analysis (version 2.1)
(1986)
Métodos de análise química e física de solos do Instituto Agronômico do Estado de São Paulo
(1985)
Fitossociologia de tipos fisionômicos de cerrado em Planaltina , D . F
E. Warming (1892)
Lagoa Santa
D. Knight, D. Mueller‐Dombois, H. Ellenberg (1974)
Aims and Methods of Vegetation EcologyBioScience
J.F. Ribeiro (1983)
Comparação da concentração de nutrientes na vegetação arbórea e nos solos de um cerrado e um cerradão no Distrito Federal
P. Furley (1974)
Soil-Slope-Plant Relationships in the Northern Maya Mountains Belize, Central America. I. The Sequence Over Metamorphic Sandstones and ShalesJournal of Biogeography, 1
H. Walter (1986)
Vegetação e Zonas Climáticas
R. Goodland (1971)
A Physiognomic Analysis of the `Cerrado' Vegetation of Central BrasilJournal of Ecology, 59
(1977)
Observações adicionais sobre o cerradão de solos mesotróficos no Brasil Central
(1990)
SOIL SURVEY STAFF 1990. Keys to Soil Taxonomy
Vânia Pivello, Marisa Bitencourt, W. Mantovani, Marco Batalha, Cláudia Shida (1998)
PROPOSTA de Zoneamento Ecológico para a RESERVA DE Cerrado Pé-de-Gigante (Santa Rita do Passa Quatro, SP)
G. Sparovek, O.A. Camargo (1997)
Sampling strategies for tropical forest nutrient cycling studies: a case study in São Paulo, BrazilVer. Bras. Ci. Solo, 21
(1987)
Relações entre parâmetros do solo e da vegetação de cerrado na Estação Florestal de Experimentação de Paraopeba , MG
A. Oliveira-Filho, G. Shepherd, F. Martins, W. Stubblebine (1989)
Environmental factors affecting physiognomic and floristic variation in an area of cerrado in central BrazilJournal of Tropical Ecology, 5
P. Furley (1976)
Soil-Slope-Plant Relationships in the Northern Maya Mountains, Belize, Central America. III. Variations in the Properties of Soil ProfilesJournal of Biogeography, 3
(1992)
Observations on soils , foliar nutrients concentrations and floristic composition of cerrado sensu stricto and cerradão communities in central Brazil
(1982)
Solos da região dos cerrados e suas in - terpretações ( revisão de literatura )
P. Sollins (1998)
FACTORS INFLUENCING SPECIES COMPOSITION IN TROPICAL LOWLAND RAIN FOREST: DOES SOIL MATTER?Ecology, 79
P. Gibbs, H. Filho, G. Shepherd (1983)
Floristic Composition and Community Structure in an Area of Cerrado in SE BrazilFlora, 173
B. van Raij, J.A. Quaggio, H. Cantarella, M.E. Ferreira, A.S. Lopes, O.C. Bataglia (1987)
Análise Química de Solos Para Fins de Fertilidade
(1990)
Keys to Soil Taxonomy
C. Braak (1986)
Canonical Correspondence Analysis: A New Eigenvector Technique for Multivariate Direct Gradient AnalysisEcology, 67
(1952)
El suelo como factor ecológico en el desarrolo de la vegetación en el centro-oeste del Brasil
M. Haridasan (1982)
Aluminium accumulation by some cerrado native species of central BrazilPlant and Soil, 65
F. Bourlière, M. Hadley (1983)
Tropical Savannas
(1986)
Vegetação e Zonas Climáticas. EPU, São Paulo
A. Reatto, J.R. Correia, S.T. Spera (1998)
Cerrado: Ambiente e Flora
G. Sparovek, O. Camargo (1997)
Sampling strategies for tropical forest nutrient cycling studies: a case study in São Paulo, BrazilRevista Brasileira De Ciencia Do Solo, 21
P. Furley, M. Anderson, S. Brooks (1996)
The influence of slope on the nature and distribution of soils and plant communities in the Central Brazilian cerrado.
(1987)
Solos dos Cerrados
Several studies pointed out soil properties as the prime determinant ofcerrado (the Brazilian savanna) physiognomies, and a gradient from “campocerrado” (a shrub savanna) to “cerradão” (a tallwoodland) has been correlated with a soil fertility gradient. Based on thishypothesis, we investigated soil-vegetation relationships in thePé-de-Gigante Reserve (São Paulo State,SoutheasternBrazil). We randomly distributed 10 quadrats (10 × 10 m) oneach ofthe following physiognomies: “campo cerrado”, “cerradosensu stricto”, “cerradão”, andseasonal semideciduous forest, previously defined by the analysis of satelliteimages (LANDSAT-5). We sampled the woody individuals with stem diameter> 3 cm at soil level, identifying their species. In each quadrat, wecollectedsoil samples at the depths of 0–5, 5–25, 40–60, and80–100 cm, and determined pH, K, Ca, Mg, P, Al, H + Al, basesaturation, aluminium saturation, cation exchange capacity, and percentage ofsand, clay and loam. Obtained data were submitted to a canonical correspondenceanalysis (CCA) and to a detrended correspondence analysis (DCA). Our resultsshowed a clear distinction between semideciduous forest and the cerradophysiognomies, based in soil parameters. The former was related to higherconcentrations of cations and clay in the soil, while the latter was related tohigher concentrations of exchangeable aluminium in the soil surface. The threecerrado physiognomies – “campo cerrado”, “cerradosensu stricto”, and “cerradão”– could not be distinguished considering plant density and the analysedsoil features.
Plant Ecology – Springer Journals
Published: Oct 13, 2004
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