RESUMEN
Inundations in Amazonian black-water river floodplain result in the selection of different tree lineages, thus promoting coexistence between species. We investigated whether Amazonian tree communities are phylogenetically structured and distributed along a flooding gradient from irregularly flooded forests along streams embedded within upland (terra-firme) forest to seasonally flooded floodplains of large rivers (igapós). Floristic inventories and hydrological monitoring were performed along the Falsino River, a black-water river in the eastern Amazon within the Amapá National Forest. We constructed a presence-and-absence matrix and generated a phylogeny using the vascular plant database available in GenBank. We calculated the standardized values of the metrics of phylogenetic diversity (ses.PD), average phylogenetic distance (ses.MPD), and average nearest-neighbor distance (ses.MNTD) to test whether the history of relationships between species in the community is influenced by inundation. We used the phylogenetic endemism (PE) metric to verify the existence of taxa with restricted distribution. Linear regressions were used to test whether phylogenetic metrics have a significant relationship with the variables: maximum flood height, maximum water table depth, and maximum flood amplitude. The results show that forests subject to prolonged seasonal flooding have reduced taxon richness, low phylogenetic diversity, and random distribution of lineages within communities. On the other hand, terra-firme riparian forests showed higher rates of taxon richness, diversity, and phylogenetic dispersion, in addition to greater phylogenetic endemism. These results indicate that seasonal and predictable soil flooding filters tree lineages along the hydrographic gradient. Different adaptations to root waterlogging are likely requirements for colonization in these environments and may represent an important factor in the diversification of tree lineages in the Amazon biome.
RESUMEN
O presente trabalho foi realizado na Estação Cientifica Ferreira Penna, dentro da Floresta Nacional de Caxiuanã, Melgaço, Pará, Brasil (01º 42" 30"S; 51º 31" 45"W; 60 m altitude). A região é uma floresta de terra firme, com vegetação densa e dossel com altura média de 35 m e árvores emergentes acima de 50 m, densidade de 450 a 550 árvores por hectare. O objetivo foi o de quantificar a precipitação total incidente acima do dossel, precipitação efetiva e precipitação interna, o escoamento da água pelos troncos e interceptação da precipitação pela vegetação no período de março a dezembro de 2004, quando foram realizadas 40 coletas semanais. Na medida da precipitação interna foram utilizados 25 pluviômetros, distribuídos aleatoriamente em um hectare, subdividido em cem parcelas de 10 x 10 m, os escoamentos pelos troncos foram medidos em sete árvores com diâmetros à altura do peito (DAP) representativos para as árvores da área. O estudo revelou uma precipitação efetiva de 905,4 mm e precipitação interna de 885,4 mm, um escoamento pelos troncos de 20 mm e uma interceptação de 248 mm, correspondendo, a 78,5 por cento, 76,8 por cento, 1,7 por cento e 21,5 por cento da precipitação acima do dossel, que foi de 1.153,4 mm, no período de estudo, respectivamente.
The present work was carried out at the Ferreira Penna Scientific Station, in the Caxiuanã National Forest, Melgaço, Pará, Brazil (01º 42" 30"S; 51º 31" 45"W; 60 m a.s.l.). The studied region is an upland forest with closed vegetation and a mean canopy height of 35 m although some trees can be 50 m high. The species density is between 450 and 550 plants per hectare. The aim was to quantify the net precipitation, throughfall, stemflow and rain interception by vegetation, from March to December of 2004. For the throughfall measurements 25 rain gauges were randomly distributed in an one hectare area subdivided in one hundred parcels of 10 x 10 m, while the stemflow was measured on seven trees with a stem diameter at breast height representative of the area. The results showed values of net precipitation of 905.4 mm, throughfall of 885.4 mm, stemflow 20 mm and rain interception of 248 mm,corresponding respectively to 78.5 percent, 76.8 percent, 1.7 percent e 21.5 percent of the total precipitation above the canopy which was 1,153.4 mm for the study period.