Landscape-scale forest cover drives the predictability of forest regeneration across the Neotropics.

Abandonment of agricultural lands promotes the global expansion of secondary forests, which are critical for preserving biodiversity and ecosystem functions and services. Such roles largely depend, however, on two essential successional attributes, trajectory and recovery rate, which are expected to depend on landscape-scale forest cover in nonlinear ways. Using a multi-scale approach and a large vegetation dataset (843 plots, 3511 tree species) from 22 secondary forest chronosequences distributed across the Neotropics, we show that successional trajectories of woody plant species richness, stem density and basal area are less predictable in landscapes (4 km radius) with intermediate (40-60%) forest cover than in landscapes with high (greater than 60%) forest cover. This supports theory suggesting that high spatial and environmental heterogeneity in intermediately deforested landscapes can increase the variation of key ecological factors for forest recovery (e.g. seed dispersal and seedling recruitment), increasing the uncertainty of successional trajectories. Regarding the recovery rate, only species richness is positively related to forest cover in relatively small (1 km radius) landscapes. These findings highlight the importance of using a spatially explicit landscape approach in restoration initiatives and suggest that these initiatives can be more effective in more forested landscapes, especially if implemented across spatial extents of 1-4 km radius.

Human impacts as the main driver of tropical forest carbon.

Understanding the mechanisms controlling forest carbon storage is crucial to support "nature-based" solutions for climate change mitigation. We used a dataset of 892 Atlantic Forest inventories to assess the direct and indirect effects of environmental conditions, human impacts, tree community proprieties, and sampling methods on tree above-ground carbon stocks. We showed that the widely accepted drivers of carbon stocks, such as climate, soil, topography, and forest fragmentation, have a much smaller role than the forest disturbance history and functional proprieties of the Atlantic Forest. Specifically, within-forest disturbance level was the most important driver, with effect at least 30% higher than any of the environmental conditions individually. Thus, our findings suggest that the conservation of tropical carbon stocks may be dependable on, principally, avoiding forest degradation and that conservation policies focusing only on carbon may fail to protect tropical biodiversity.

Host tree traits in pasture areas affect forest and pasture specialist epiphyte species differently.

PREMISE: Epiphytes have commensal relationships with their host trees. Besides the influence of tree traits, little has been discussed concerning the ecology of epiphytes in disturbed habitats (e.g., pasture). We herein tested whether the occurrences of pasture and forest specialist epiphytes in pastures are affected differently by tree traits. We hypothesized that (H1) the richness and abundance of generalist epiphytes would be positively associated with area availability; (H2) the richness and abundance of forest epiphyte species would be associated both with (H2.a) area availability and (H2.b) tree traits related to higher seed adherence, and/or (H2.c) less severe habitat (e.g., high humidity and more shade). METHODS: We sampled 9567 epiphyte individuals from 16 species on 759 scattered remnant trees. The epiphyte species were divided into two ecological groups: forest specialists and pasture specialists. We evaluated four host tree traits: two related to tree size (crown area and trunk diameter) and two related to habitat type (crown leaf density and bark rugosity). RESULTS: The richness and abundance of both pasture and forest specialists were positively related with tree size. However, the abundance of pasture specialists was negatively related with crown leaf density, whereas richness of forest epiphytes was positively related with bark rugosity. CONCLUSIONS: Large scattered trees tend to present higher richness and abundance of both pasture and forest specialist epiphytes compared to the smaller trees. However, high crown leaf density limits abundance of pasture specialist epiphytes, whereas rugose bark increases the richness of forest epiphytes.

Climate and evolutionary history define the phylogenetic diversity of vegetation types in the central region of South America.

In South America the biogeographic history has produced different biomes with different vegetation types and distinct floras. As these vegetation types may diverge in evolutionary histories, we analysed how alpha and beta phylogenetic diversity vary across them and determine the main drivers of variation in phylogenetic diversity. To this end, we compiled a list of 205 sites and 1222 tree species spread over four biomes and eight vegetation types in central South America. For each site we evaluated six measures of evolutionary alpha diversity (species richness, phylogenetic diversity sensu stricto and the standardized effect size of phylogenetic diversity, mean phylogenetic distance and mean nearest taxon distance) and beta diversity (phylogenetic Sorensen's similarity). We checked the influence of spatial and environmental variables using generalized least squares models. The greatest phylogenetic differentiation was found between west and east of central South America, mainly between the Chaco communities and the other vegetation types, suggesting that species found in this biome come from different lineages, comparing with the others vegetation types. Our results also showed a clustered phylogenetic structure for the Dry Chaco woodlands, which may be associated with harsh environmental conditions. In addition to historical process, climatic conditions are the main drivers shaping phylogenetic patterns among the distinct vegetation types. Understanding patterns of phylogenetic diversity and distribution can greatly improve conservation planning and management since it allows the conservation of unique biome characteristics.

Phylogenetic classification of the world's tropical forests.

Knowledge about the biogeographic affinities of the world's tropical forests helps to better understand regional differences in forest structure, diversity, composition, and dynamics. Such understanding will enable anticipation of region-specific responses to global environmental change. Modern phylogenies, in combination with broad coverage of species inventory data, now allow for global biogeographic analyses that take species evolutionary distance into account. Here we present a classification of the world's tropical forests based on their phylogenetic similarity. We identify five principal floristic regions and their floristic relationships: (i) Indo-Pacific, (ii) Subtropical, (iii) African, (iv) American, and (v) Dry forests. Our results do not support the traditional neo- versus paleotropical forest division but instead separate the combined American and African forests from their Indo-Pacific counterparts. We also find indications for the existence of a global dry forest region, with representatives in America, Africa, Madagascar, and India. Additionally, a northern-hemisphere Subtropical forest region was identified with representatives in Asia and America, providing support for a link between Asian and American northern-hemisphere forests.

An estimate of the number of tropical tree species.

The high species richness of tropical forests has long been recognized, yet there remains substantial uncertainty regarding the actual number of tropical tree species. Using a pantropical tree inventory database from closed canopy forests, consisting of 657,630 trees belonging to 11,371 species, we use a fitted value of Fisher's alpha and an approximate pantropical stem total to estimate the minimum number of tropical forest tree species to fall between ∼ 40,000 and ∼ 53,000, i.e., at the high end of previous estimates. Contrary to common assumption, the Indo-Pacific region was found to be as species-rich as the Neotropics, with both regions having a minimum of ∼ 19,000-25,000 tree species. Continental Africa is relatively depauperate with a minimum of ∼ 4,500-6,000 tree species. Very few species are shared among the African, American, and the Indo-Pacific regions. We provide a methodological framework for estimating species richness in trees that may help refine species richness estimates of tree-dependent taxa.

Metapopulation dynamics of the mistletoe and its host in savanna areas with different fire occurrence.

Mistletoes are aerial hemiparasitic plants which occupy patches of favorable habitat (host trees) surrounded by unfavorable habitat and may be possibly modeled as a metapopulation. A metapopulation is defined as a subdivided population that persists due to the balance between colonization and extinction in discrete habitat patches. Our aim was to evaluate the dynamics of the mistletoe Psittacanthus robustus and its host Vochysia thyrsoidea in three Brazilian savanna areas using a metapopulation approach. We also evaluated how the differences in terms of fire occurrence affected the dynamic of those populations (two areas burned during the study and one was fire protected). We monitored the populations at six-month intervals. P. robustus population structure and dynamics met the expected criteria for a metapopulation: i) the suitable habitats for the mistletoe occur in discrete patches; (ii) local populations went extinct during the study and (iii) colonization of previously non-occupied patches occurred. The ratio of occupied patches decreased in all areas with time. Local mistletoe populations went extinct due to two different causes: patch extinction in area with no fire and fire killing in the burned areas. In a burned area, the largest decrease of occupied patch ratios occurred due to a fire event that killed the parasites without, however, killing the host trees. The greatest mortality of V. thyrsoidea occurred in the area without fire. In this area, all the dead trees supported mistletoe individuals and no mortality was observed for parasite-free trees. Because P. robustus is a fire sensitive species and V. thyrsoidea is fire tolerant, P. robustus seems to increase host mortality, but its effect is lessened by periodic burning that reduces the parasite loads.

Caracterização florística e fitofisionômica da Serra do Condado, Minas Gerais, Brasil / Floristic and phytophysiognomies characterization of the Serra do Condado, Minas Gerais, Brazil

O complexo serrano do Espinhaço Sul é ainda floristicamente desconhecido e a conservação destas serras está ameaçada em função de sua exclusiva riqueza mineral. A Serra do Condado, localizada no município de Serro, MG (18° 37' 30" S e 43° 22' 30" W) é um bom exemplo de como as atividades de mineração estão distantes da conservação destes ecossitemas e por tal razão o presente estudo teve como objetivo a caracterização florística e fitofisionômica desta serra. As campanhas de campo foram quinzenais e ocorreram entre os meses de maio/2006 a maio/2007. Foram coletados apenas os materiais botânicos em estágio fenológico reprodutivo. Os mesmos foram incorporados aos acervos dos herbários CESJ, RB e ESAL. O valor em área de cada fisionomia na constituição da paisagem foi feito através do software ArGis 9.0 e a similaridade florística entre as fisionomias foi realizada mediante cálculo do índice de Sørensen. Na área estudada foram encontradas Florestas Estacionais Semideciduais Montanas, Matas Ciliares, Brejos e Vegetação Arbustivo-Lenhosa sobre Canga. A floresta semidecídua montana corresponde a 80 por cento da vegetação local, apresentando 426 espécies (391 exclusivas) distribuídas em 83 famílias. As famílias com maior número de espécies foram Fabaceae (40), Asteraceae (30) e Myrtaceae (30). A floresta ciliar é pouco representativa, cobrindo 5 por cento da área florestada. Nessa formação foram encontradas 74 espécies (54 exclusivas) pertencentes a 28 famílias. As famílias mais representativas foram Fabaceae (sete), Piperaceae (quatro) e Annonaceae (três). Os brejos, devido a perturbações antrópicas, cobrem apenas 2 por cento da área. Por fatores como a saturação hídrica constante essa fitofisionomia apresentou o maior número de espécies exclusivas, 18 das 19 encontradas, sendo Cyperaceae e Melastomataceae (cinco) as famílias mais ricas. A Vegetação arbustivo-lenhosa sobre canga cobre 13 por cento da área. Nela foram encontradas 94 espécies (74 exclusivas), distribuídas em 29 famílias. Asteraceae (nove), Orchidaceae (sete) e Bromeliaceae (cinco) destacaram-se pela riqueza de espécies nessa fisionomia. A flora da Serra do Condado foi diferenciada entre seus hábitats (fitofisionomias), pois os valores obtidos para o índice de Sørensen foram inferiores a 10 por cento em todas as comparações. Isso demonstra o quanto estudo florísticos são fundamentais para o conhecimento da vegetação de áreas extensas geograficamente e diversas biologicamente. A variedade de ambientes apresentados e a riqueza da flora associada às suas formações agregam valor de conservação e manutenção da flora dos complexos serranos do Espinhaço Sul de Minas Gerais.

Little is known about the flora of the Espinhaço Sul range. However, the environmental conservation of such complex has been threatened, mainly due to the potential mineral richness lying there. The aim of this study was to the floristic and physiognomy characterization of Serra do Condado, located in the Serro County, MG. Thus, fortnight field campaigns were carried out during the period of May/2006 to May/2007, in order to collect floristic material and to characterize the area. Furthermore, the value in area of each physiognomic in the constitution of the landscape was made through the software ArGis 9.0 and the floristic similarity among the observed physiognomic aspects, were tested by the Sørensen similarity index. Atlantic Semideciduos Montane Forests, Riparian Forests, Swamps and Woody Shrub Vegetation over "Canga" were found in the area. Semidecidual Forest corresponds to 80 percent of the local vegetation, presenting 426 species (391 exclusives) distributed in 83 families. The families that had the largest number of species were Fabaceae (40), Asteraceae (30) and Myrtaceae (30). Following came, Woody Shrub Vegetation over "Canga", covers 13 percent of the studied area, and in it were found 94 species (74 exclusives), distributed among 29 families. Asteraceae (9), Orchidaceae (7) e Bromeliaceae (5) were distinguished by their species abundance in this physiognomy. Riparian Forests are not so representative, constituting only 5 percent of the forested area. In this physiognomy, 74 species (54 exclusives) belonging to 28 families were found, of these, Fabaceae (7), Piperaceae (4) and Annonaceae (3) were the most representative ones. Due to anthropogenic disturbances, Swamps cover only 2 percent of the area. As it showed characteristics such as constant hydric saturation it had the highest proportion of exclusive found species, 18 out of 19, being Cyperaceae and Melastomataceae (5) the richest families. The flora found at Serra do Condado was differentiated in relation to their habitats (physiognomies), because the values obtained by the Sørensen index were less than 10 percent for all other comparisons. This shows how fundamental floristic studies are for knowing the vegetation of areas being both geographically extensive and biologically diverse. The great variety of environment presented and the flora richness associated to this formation aggregate conservation and maintenance value to the Espinhaço Sul range flora, Minas Gerais.