Timber and non-timber forest products in the northernmost Neotropical rainforest: Ecological factors unravel their landscape distribution.

The benefits provided by tropical rainforests are unevenly distributed throughout the landscape and are shaped by abiotic and biotic components that influence the spatial distribution and functional traits of the species involved. We tested whether environmental stratification of the rainforest in biophysical Landscape Units (LU), defined by topography and soil, is related to the spatial distribution of diversity, abundance and productivity (standing biomass) of tree assemblages that provide potential forest products (PFP). Considering that different PFP are associated with specific plant traits, we also tested whether a phylogenetic signal exists among the species that comprise specific use categories. Non-metric multidimensional scaling ordinations and permutational analysis of variance were based on the frequency, abundance and productivity of 129 species, the PFP of which were classified as fodder, food, fuelwood, medicinal, melliferous, ornamental, plywood and timber in 15 plots of 0.5 ha each. We constructed a phylogenetic tree of the studied species and analyzed the phylogenetic signal strength (D-statistic) among them. The spatial distribution of diversity and abundance of useful species changes among the LU. Specific PFP can be provided in contrasting habitat conditions, but generally not by the same species. The PFP categories that presented a phylogenetic signal were associated with wood characteristics (fuelwood and plywood) and the palatability of the leaves and reproductive structures (fodder). The Moraceae family was significantly related to fodder and plywood, whereas Meliaceae, Myrtaceae and Sapotaceae were mostly used for fuelwood. The medicinal species presented convergent traits distributed throughout the phylogeny. However, since our study included a broad variety of plant structures, it is possible that phylogenetic dispersion can change if we consider the specific uses within each category. Our findings show that the assemblages of PFP suppliers can be clustered through biophysical units based on soil and topography, and specific categories of PFP are often supplied by phylogenetically related species. This knowledge is fundamental in order to incorporate the high diversity of tree species and their potential uses into productive reforestation and agroforestry programs.

Disentangling the influence of ecological and historical factors on seed germination and seedling types in a Neotropical dry forest.

In tropical dry forests, although seed germination and seedling establishment are in general limited by the seasonal availability of water, high interspecific variability, nonetheless, exists in terms of seedling traits and germination dynamics. Differences among species in seed germination and seedling traits may be related to other plant life-history traits, such that assessing these relationships may increase our understanding of factors influencing plant establishment, which would affect the regeneration pathways of tropical dry forest communities. In this study, taking into consideration the effect species' phylogeny, we evaluated the relationships of seed germination metrics (percentage, lag time, and rate of germination) and seedling types (i.e. cotyledons functional morphology), with plant life-history traits (growth form, seed mass, dispersal syndrome and dispersal phenology) for 110 species in a Neotropical dry forest in Mexico. A total of 92% of the species studied disperse their seeds during the dry season, mainly at the beginning of this season (66%), a strategy mostly associated with autochorous herbs. Seed germination was more frequent in species that dispersed seeds at the end of the dry season. Germination percentage was not related to any of the traits studied. However, germination lag time and rate were negatively related to seed mass, a trait that in turn depended on growth form and dispersal syndrome. The dominant seedling type in the community was phanerocotylar epigeal with foliaceous cotyledons (56%), which was mostly associated with small seed mass and herbaceous growth form. Our results provide evidence that several plant life-history traits explain an important part of the variation in seed germination and seedling characteristics observed among species. Therefore, these plant life-history traits may be useful for grouping species in terms of their establishment strategies and roles on the regeneration of tropical dry communities.

Phylogeny, fruit traits, and ecological correlates of fruiting phenology in a Neotropical dry forest.

In tropical dry forests, a high interspecific variation in the strategies of fruiting phenology has been documented. Therefore, phenological responses may be mediated by influence of environmental variables, functional plant attributes or phylogenetic inertia. During 2 years, we recorded the fruiting phenology of 151 species belonging to 5 different growth forms of a Neotropical dry forest in Mexico. We evaluated the relationships between fruiting phenology, abiotic factors (precipitation, temperature, day-length) and functional attributes (growth form, dispersal syndrome, size and time for fruit development) using phylogenetic least squares models (PGLS). More species had ripe fruits during the dry season (92%) than during rainy months and dispersed their seeds by autochory and endozoochory. We found that fruit development time was positively correlated with fruit size and together the morphological fruit traits (size and dispersal syndrome) showed an important relationship with the growth form, but with a strong phylogenetic signal. Environmental seasonality had a strong influence on fruit ripening time, without a relevant association to the phylogeny of plant species. However, the phenological response to the environment (rainfall and day-length) at the community level was mediated by growth form. In woody species, we documented a high interspecific fruiting variation linked with the different dispersal syndromes. In herbaceous species, fruiting phenology is a trait restricted by the duration of their life cycle by rainfall seasonality, which in turn might have selected some traits (e.g., dry fruit, presence of spines, explosive dehiscence) for maximizing seed dispersal during the dry season.

Plant reproductive phenology in a temperate forest of the monarch butterfly biosphere reserve Mexico

Para documentar la fenología reproductiva de las especies más importantes (11 hierbas anuales, 72 hierbas perennes, 21 arbustos y 8 árboles) del bosque templado en la zona núcleo Cerro Altamirano, Reserva de la Biosfera Mariposa Monarca, México, se realizaron observaciones mensuales durante 2004. La sincronía intraespecífica de floración y fructificación se estimó en ocho especies leñosas por medio de la observación de 20 individuos por especie. La floración y fructificación ocurrió principalmente durante la estación de lluvias e inicios de la estación seca (jul-dic), con baja estacionalidad. Las formas de crecimiento mostraron diferencias temporales en su actividad reproductiva: i) las hierbas anuales y perennes florecieron principalmente durante la estación de lluvias e inicios de la seca, mientras que la mayoría de especies con frutos fue observada en la estación seca; ii) los arbustos presentaron flores y frutos a lo largo del año, sin máximo en alguna época particular, y iii) la mayoría de los árboles concentraron su actividad reproductiva en la época de menor precipitación. El número de especies en floración a nivel comunitario y de hierbas perennes se correlacionó positivamente con la precipitación, y el número de especies arbustivas y arbóreas en fructificación mostró una correlación negativa con la precipitación. Se determinó una alta sincronía reproductiva (>60 por ciento de los individuos en una fase fenológica específica) en cinco de las especies arbóreas. Los patrones fenológicos reproductivos en el área, un bosque templado de elevada altitud en una zona tropical, fueron similares a los documentados para bosques tropicales estacionales de bajas altitudes, y explicados principalmente por la precipitación total anual y la forma de crecimiento de las especies.