A. H. Gentry, Tropical forest biodiversity: distributional patterns and their conservational significance. Oikos, pp.19-28, 1992.

R. Condit, Species-area and species-individual relationships for tropical trees: A comparison of three 50-ha plots, Journal of Ecology, vol.84, pp.549-562, 1996.

A. R. Wallace, A narrative of travels on the Amazon and Río Negro, with an account of the native tribes, and observations on the climate, geology, and natural history of the Amazon Valley, p.363, 1853.

R. Spruce, J. Letter, and . Hooker, Hooker's Journal of Botany and Kew Garden Miscellany, vol.6, pp.333-337, 1854.

R. Spruce, Notes on some insect and other migration observed in Equatorial America, Journal of the Linnean Society (Zoology), vol.9, pp.346-267, 1868.

A. Hamilton-rice, The Rio Branco, Uraricuera and Parima, The Geographical Journal, vol.71, pp.345-357, 1928.

J. G. Myers, Savanna and forest vegetation of the Interior Guiana Plateau, Journal of Ecology, vol.24, pp.162-184, 1936.

P. W. Richards, The Tropical Rain Forest: An Ecological Study, 1996.

J. H. Connell and M. D. Lowman, Low-diversity tropical rain forests: some possible mechanisms for their existence, The American Naturalist, vol.134, pp.88-119, 1989.

M. T. Nascimento and J. Proctor, Soil and plant changes across a monodominant rain forest boundary on Maracá Island, Global Ecology and Biogeography Letters, vol.6, 1997.

S. D. Torti, P. D. Coley, and T. A. Kursar, Causes and consequences of monodominance in tropical lowland forests, Am Nat, vol.157, pp.141-153, 2001.

T. W. Davis and P. W. Richards, The vegetation of Moraballi Creek, British Guiana: an ecological study of a limited area of tropical rain forest. Part II, Journal of Ecology, vol.22, pp.106-155, 1934.

B. S. Marimon, J. M. Felfili, and M. Haridasan, Studies in monodominant forests in eastern Mato Grosso, Brazil: I. A forest of Brosimum rubescens Taub, Edinburgh Journal of Botany, vol.58, pp.123-137, 2001.

T. B. Hart, J. A. Hart, and P. G. Murphy, Monodominant and species-rich forests of the humid tropics: causes for their co-occurrence, The American Naturalist, vol.133, pp.613-633, 1989.

K. S. Peh, .. Lewis, S. L. Lloyd, and J. , Mechanisms of monodominance in diverse tropical tree-dominated systems, Journal of Ecology, vol.99, pp.891-898, 2011.

M. Kazmierczak, Monodominance in tropical forests: modelling reveals emerging clusters and phase transitions, Journal of the Royal Society, Interface, vol.13, 2016.

K. S. Peh and .. , The relationship between species diversity and ecosystem function in low-and high-diversity tropical African forests PhD thesis, 2009.

A. Corrales, S. A. Mangan, B. L. Turner, and J. W. Dalling, An ectomycorrhizal nitrogen economy facilitates monodominance in a neotropical forest, Ecology Letters, vol.19, pp.383-392, 2016.

M. T. Nascimento, Is the Peltogyne gracilipes monodominant forest characterised by distinct soils?, Acta Oecologica, vol.85, pp.104-107, 2017.

A. Fayolle, A new insight in the structure, composition and functioning of central African moist forests, Forest Ecology and Management, vol.329, pp.195-205, 2014.

E. Kearsley, Functional community structure of African monodominant Gilbertiodendron dewevrei forest influenced by local environmental filtering, Ecology and Evolution, vol.7, pp.295-304, 2017.

D. Newbery, I. J. Alexander, and J. A. Rother, Phosphorus dynamics in a lowland African rainforest: The influence of ectomycorrhizal trees, Ecological Monographs, vol.67, pp.367-409, 1997.

T. W. Henkel, Monodominance in the ectomycorrhizal Dicymbe corymbosa (Caesalpiniaceae) from Guyana, Journal of Tropical Ecology, vol.19, pp.417-437, 2003.

K. S. Peh, .. Sonké, B. Lloyd, J. Quesada, C. A. Lewis et al., Soil does not explain monodominance in a Central African tropical forest, PLoS One, vol.6, p.16996, 2011.

D. Conway and I. J. Alexander, Soil conditions under monodominant Gilbertiodendron dewevrei and mixed forest Ituri forest reserve, Zaire. Tropical Biology Newsletter, 1992.

M. Lokonda, V. Freycon, S. Gourlet-fleury, and F. Kombele, Are soils under monodominant Gilbertiodendron dewevrei and under adjacent mixed forests similar? A case study in the Democratic Republic of Congo, Journal of Tropical Ecology, vol.34, pp.176-185, 2018.

M. H. Ebenye, Ectomycorrhizal fungi are shared between seedlings and adults in a monodominant Gilbertiodendron dewevrei rain forest in Cameroon, Biotropica, vol.49, pp.256-267, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01483153

L. P. Woolley, T. W. Henkel, and S. C. Sillett, Reiteration in the monodominant tropical tree Dicymbe corymbosa (Caesalpiniaceae) and its potential adaptive significance, Biotropica, vol.40, pp.32-43, 2008.

T. W. Henkel, J. R. Mayor, and L. P. Woolley, Mast fruiting and seedling survival of the ectomycorrhizal, monodominant Dicymbe corymbosa (Caesalpiniaceae) in Guyana, New Phytologist, vol.167, pp.543-556, 2005.

D. M. Newbery, Ectomycorrhizas and mast fruiting in trees: Linked by climate-driven tree resources, New Phytologist, vol.167, pp.324-326, 2005.

T. W. Henkel and J. R. Mayor, Implications of a long-term mast seeding cycle for climatic entrainment, seedling establishment, and persistent monodominance in a Neotropical, ectomycorrhizal canopy tree, Ecological Research, vol.34, pp.472-484, 2019.

H. Ter-steege, Hyperdominance in the Amazonian tree flora, Science, vol.342, 2013.

W. J. Eggeling, Observations on the ecology of the Budongo rain forest, Uganda. Journal of Ecology, vol.34, pp.20-87, 1947.

J. H. Connell, Diversity in tropical rain forests and coral reefs, Science, vol.199, pp.1302-1310, 1978.

D. Sheil and D. F. Burslem, Disturbing hypotheses in tropical forests, Trends in Ecology & Evolution, vol.18, pp.18-26, 2003.

J. F. Molino and D. Sabatier, Tree diversity in tropical rain forests: a validation of the intermediate disturbance hypothesis, Science, vol.294, pp.1702-1704, 2001.

H. Ter-steege and D. S. Hammond, Character convergence, diversity, and disturbance in tropical rain forest in Guyana, Ecology, vol.82, pp.3197-3212, 2001.

F. Bongers, L. Poorter, W. D. Hawthorne, and D. Sheil, The intermediate disturbance hypothesis applies to tropical forests, but disturbance contributes little to tree diversity, Ecology Letters, vol.12, pp.798-805, 2009.

M. D. Swaine and T. C. Whitmore, On the definition of ecological species groups in tropical forests, vol.75, pp.81-86, 1988.

N. E. Martijena, Soil properties and seedling establishment in soils from monodominant and high-diversity stands of the tropical deciduous forests of México, Journal of Biogeography, vol.25, pp.707-719, 1998.

K. D. Gaddis, H. L. Zukin, I. A. Dieterich, E. Braker, and V. L. Sork, Effect of clonal reproduction on genetic structure in Pentaclethra macroloba (Fabaceae: Mimosoideae), Revista de Biología Tropical, vol.62, pp.443-454, 2014.

E. Fonty, J. F. Molino, M. F. Prévost, and D. Sabatier, A new case of neotropical monodominant forest: Spirotropis longifolia (Leguminosae-Papilionoideae) in French Guiana, Journal of Tropical Ecology, vol.27, pp.641-644, 2011.
URL : https://hal.archives-ouvertes.fr/halsde-00675483

R. Singer and I. J. Araujo, Litter decomposition and ectomycorrhiza in Amazonian forests. 1. A comparison of litter decomposing and ectomycorrhizal basidiomycetes in latosol-terra-firme rain forest and white podzol campinarana, Acta Amazonica, vol.9, pp.25-42, 1979.

S. D. Torti and P. D. Coley, Tropical monodominance: A preliminary test of the ectomycorrhizal hypothesis, Biotropica, vol.31, pp.220-228, 1999.

K. L. Mcguire, Common ectomycorrhizal networks may maintain monodominance in a tropical rain forest, Ecology, vol.88, pp.567-574, 2007.

T. W. Henkel, J. Terborgh, and R. J. Vilgalys, Ectomycorrhizal fungi and their leguminous hosts in the Pakaraima Mountains of Guyana, Mycological Research, vol.106, pp.515-531, 2002.

K. L. Mcguire, S. D. Allison, N. Fierer, and K. K. Treseder, Ectomycorrhizal-dominated boreal and tropical forests have distinct fungal communities, but analogous spatial patterns across soil horizons, PLoS One, vol.8, p.68278, 2013.

A. Corrales, T. W. Henkel, and M. E. Smith, Ectomycorrhizal associations in the tropics -biogeography, diversity patterns and ecosystem roles, New phytologist, vol.220, pp.1076-1091, 2018.

T. Fukami, Geographical variation in community divergence: Insights from tropical forest monodominance by ectomycorrhizal trees, American Naturalist, vol.190, pp.105-122, 2017.

E. A. Hobbie and P. Hogberg, Nitrogen isotopes link mycorrhizal fungi and plants to nitrogen dynamics, New phytologist, vol.196, pp.367-382, 2012.

C. Averill, B. L. Turner, and A. C. Finzi, Mycorrhiza-mediated competition between plants and decomposers drives soil carbon storage, Nature, vol.505, pp.543-545, 2014.

R. P. Phillips, E. Brzostek, and M. G. Midgley, The mycorrhizal-associated nutrient economy: a new framework for predicting carbon-nutrient couplings in temperate forests, New Phytologist, vol.199, pp.41-51, 2013.

S. D. Torti, P. Coley, and D. P. Janos, Vesicular-arbuscular mycorrhizae in two tropical monodominant trees, Journal of Tropical Ecology, vol.13, pp.623-629, 1997.

J. R. Mayor and T. W. Henkel, Do ectomycorrhizas alter leaf-litter decomposition in monodominant tropical forests of Guyana, New Phytologist, vol.169, pp.579-588, 2006.

M. A. Adams, T. L. Turnbull, J. I. Sprent, and N. Buchmann, Legumes are different: Leaf nitrogen, photosynthesis, and water use efficiency, Proceedings of the National Academy of Sciences, vol.113, pp.4098-4103, 2016.

H. Ter-steege, Continental-scale patterns of canopy tree composition and function across Amazonia, Nature, vol.443, pp.444-447, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00106584

M. Gei, Legume abundance along successional and rainfall gradients in Neotropical forests, Nat Ecol Evol, vol.2, pp.1104-1111, 2018.

E. M. Chenery and K. R. Sporne, A note on the evolutionary status of aluminium-accumulators among Dicotyledons, New Phytologist, vol.76, pp.551-554, 1976.

S. Jansen, T. Watanabe, S. Dessein, E. Smets, and E. Robbrecht, A comparative study of metal levels in leaves of some Alaccumulating Rubiaceae, Annals of Botany, vol.91, pp.657-663, 2003.

S. Jansen, T. Watanabe, and E. Smets, Aluminium accumulation in leaves of 127 species in Melastomataceae, with comments on the order Myrtales, Ann Bot, vol.90, pp.53-64, 2002.

M. Haridasan and G. M. De-araújo, Aluminium-accumulating species in two forest communities in the cerrado region of central Brazil, Forest Ecology and Management, vol.24, pp.15-26, 1988.

M. T. Nascimento and C. N. Cunha, Estrutura e composição florística de um cambarazal no pantanal de Poconé-MT, Acta Botanica Brasilica, vol.3, pp.3-23, 1989.

P. V. Fine, I. Mesones, and P. D. Coley, Herbivores promote habitat specialization by trees in Amazonian forests, Science, vol.305, pp.663-665, 2004.

R. Herrera, C. F. Jordan, H. Klinge, and E. Medina, Amazon ecosystems. Their structure and functioning with particular emphasis on nutrients, Interciencia, vol.3, pp.223-231, 1978.

M. L. Rosenzweig, Species Diversity in Space and Time, 1995.

H. Ter-steege, An analysis of the floristic composition and diversity of Amazonian forests including those of the Guiana Shield, Journal of Tropical Ecology, vol.16, pp.801-828, 2000.

P. V. Fine, Ecological and evolutionary drivers of geographic variation in species diversity, Evolution, and Systematics, vol.46, pp.369-392, 2015.

J. Stropp, P. V. Sleen, P. A. Assunção, A. L. Silva, and H. T. Steege, Tree communities of white-sand and terra-firme forests of the upper Rio Negro, Acta Amazonica, vol.41, pp.521-544, 2011.

C. Levis, Persistent effects of pre-Columbian plant domestication on Amazonian forest composition, Science, vol.355, pp.925-931, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02191535

H. Ter-steege, Towards a dynamic list of Amazonian tree species, Sci Rep, vol.9, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02141863

O. S. Bánki, Does neutral theory explain community composition in the Guiana Shield forests?, 2010.

M. E. Smith, The ectomycorrhizal fungal community in a neotropical forest dominated by the endemic dipterocarp Pakaraimaea dipterocarpacea, PLoS One, vol.8, 2013.

R. J. Zagt, Pre-dispersal and early post-dispersal demography, and reproductive litter production, in the tropical tree Dicymbe altsonii in Guyana, Journal of Tropical Ecology, vol.13, pp.511-526, 1997.

B. Moyersoen, Pakaraimaea dipterocarpacea is ectomycorrhizal, indicating an ancient Gondwanaland origin for the ectomycorrhizal habit in Dipterocarpaceae, New Phytologist, vol.172, pp.753-762, 2006.

K. L. Mcguire, Dual mycorrhizal colonization of forest-dominating tropical trees and the mycorrhizal status of non-dominant tree and liana species, Mycorrhiza, vol.18, pp.217-222, 2008.

M. E. Smith, T. W. Henkel, M. Catherine-aime, A. K. Fremier, and R. Vilgalys, Ectomycorrhizal fungal diversity and community structure on three co-occurring leguminous canopy tree species in a Neotropical rainforest, The New phytologist, vol.192, pp.699-712, 2011.

B. Moyersoen, Ectomicorrizas y micorrizas vesículo-arbusculares en Caatinga Amazónica del Sur de Venezuela, Scientia Guaianae, vol.3, pp.1-82, 1993.

S. F. Mardegan, G. B. Nardoto, N. Higuchi, M. Z. Moreira, and L. A. Martinelli, Nitrogen availability patterns in white-sand vegetations of Central Brazilian Amazon, Trees Structure and Function, vol.23, pp.479-488, 2009.

F. C. Draper, Peatland forests are the least diverse tree communities documented in Amazonia, but contribute to high regional beta-diversity, Ecography, vol.41, pp.1256-1269, 2018.

R. S. Degagne, T. W. Henkel, S. J. Steinberg, and L. Fox-iii, Identifying Dicymbe corymbosa monodominant forests in Guyana using satellite imagery, Biotropica, vol.41, pp.7-15, 2009.

H. Ter-steege, Mapping Forest vegetation in Guyana at Regional and National Level. (Guyana Forestry Commission, 2001.

M. O. Huber, In Flora of the Venezulean Guyana, vol.1, pp.97-160, 1995.

, Scientific RepoRtS |, vol.9, p.13822, 2019.

T. R. , Consistent, small effects of treefall disturbances on the composition and diversity of four Amazonian forests, Journal of Ecology, vol.104, pp.497-506, 2016.

S. Guitet, Disturbance regimes drive the diversity of regional floristic pools across Guianan rainforest landscapes, Sci Rep, vol.8, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02171805

D. Sabatier and M. F. Prévost, Une forêt a cacaoyers sauvages sur le haut-camopi, 1987.

H. Ter-steege and G. Zondervan, Plant diversity in Guyana. with recommendations for a National Protected Area Strategy, pp.35-54, 2000.

R. J. Zagt, Tree demography in the tropical rainforest of Guyana PhD thesis, 1997.

S. E. Smith and D. J. Read, Mycorrhizal Symbiosis, 2010.
URL : https://hal.archives-ouvertes.fr/hal-01268065

K. L. Mcguire, D. R. Zak, I. P. Edwards, C. B. Blackwood, and R. Upchurch, Slowed decomposition is biotically mediated in an ectomycorrhizal, tropical rain forest, Oecologia, vol.164, pp.785-795, 2010.

D. M. Newbery, I. J. Alexander, D. W. Thomas, and J. S. Gartlan, Ectomycorrhizal rain-forest legumes and soil phosphorus in Korup National Park, Cameroon, New Phytologist, vol.109, pp.433-450, 1988.

N. E. De-lima, M. S. Lima-ribeiro, C. F. Tinoco, L. C. Terribile, and R. G. Collevatti, Phylogeography and ecological niche modelling, coupled with the fossil pollen record, unravel the demographic history of a Neotropical swamp palm through the Quaternary, Journal of Biogeography, vol.41, pp.673-686, 2014.

V. Rull, Biogeographical and evolutionary considerations of Mauritia (Arecaceae), based on palynological evidence, Review of Palaeobotany and Palynology, vol.100, pp.109-122, 1998.

J. Stropp, H. Ter-steege, Y. Malhi, and . Atdn-&-rainfor, Disentangling regional and local tree diversity in the Amazon, Ecography, vol.32, pp.46-54, 2009.
URL : https://hal.archives-ouvertes.fr/halsde-00419767

R. R. Macarthur and E. O. Wilson, The theory of Island Biogeography, 1967.

S. P. Hubbell, The Unified Neutral Theory of Biodiversity and Biogeography, 2001.

T. B. Hart, Seed, seedling and sub-canopy survival in monodominant and mixed forests of the Ituri Forest, Africa. Journal of Tropical Ecology, vol.11, pp.443-459, 2009.

, R: A language and environment for statistical computing (R Foundation for Statistical Computing, 2017.

E. Rödig, M. Cuntz, J. Heinke, A. Rammig, and A. Huth, The importance of forest structure for carbon flux estimates in the Amazon rainforest, Environmental Research Letters, vol.26, pp.1292-1302, 2018.

H. Ter-steege, I. Welch, and R. J. Zagt, Long-term effect of timber harvesting in the Bartica Triangle, Central Guyana. Forest Ecology and Management, vol.170, pp.127-144, 2002.

P. A. Keddy, Assembly and response rules: two goals for predictive community ecology, Journal of Vegetation Science, vol.3, pp.157-164, 1992.

L. Tedersoo and M. Brundrett, Biogeography of Mycorrhizal Symbiosis, pp.407-467, 2017.

J. I. Sprent, Nodulation in Legumes, 2001.

P. S. Soltis, D. E. Soltis, and M. W. Chase, Angiosperm phylogeny inferred from multiple genes as a tool for comparative biology, Nature, vol.402, pp.402-404, 1999.

C. A. Quesada, Soils of Amazonia with particular reference to the RAINFOR sites, Biogeosciences, vol.8, pp.1415-1440, 2011.

W. J. Junk, A classification of major naturally-occurring Amazonian lowland wetlands, Wetlands, vol.31, pp.623-640, 2011.

S. E. Page, J. O. Rieley, and C. J. Banks, Global and regional importance of the tropical peatland carbon pool, Global Change Biology, vol.17, pp.798-818, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00599518