RESUMO

In seasonally dry tropical forests, plant functional type can be classified as deciduous low wood density, deciduous high wood density, or evergreen high wood density species. While deciduousness is often associated with drought-avoidance and low wood density is often associated with tissue water storage, the degree to which these functional types may correspond to diverging and unique water use strategies has not been extensively tested.We examined (a) tolerance to water stress, measured by predawn and mid-day leaf water potential; (b) water use efficiency, measured via foliar δ13C; and (c) access to soil water, measured via stem water δ18O.We found that deciduous low wood density species maintain high leaf water potential and low water use efficiency. Deciduous high wood density species have lower leaf water potential and variable water use efficiency. Both groups rely on shallow soil water. Evergreen high wood density species have low leaf water potential, higher water use efficiency, and access alternative water sources. These findings indicate that deciduous low wood density species are drought avoiders, with a specialized strategy for storing root and stem water. Deciduous high wood density species are moderately drought tolerant, and evergreen high wood density species are the most drought tolerant group.Synthesis. Our results broadly support the plant functional type framework as a way to understand water use strategies, but also highlight species-level differences.

RESUMO

Several techniques have been used to model the area covered by biomes or species. However, most models allow little freedom of choice of response variables and are conditioned to the use of climate predictors. This major restriction of the models has generated distributions of low accuracy or inconsistent with the actual cover. Our objective was to characterize the environmental space of the most representative biomes of Brazil and predict their cover, using climate and soil-related predictors. As sample units, we used 500 cells of 100 km2 for ten biomes, derived from the official vegetation map of Brazil (IBGE 2004). With a total of 38 (climatic and soil-related) predictors, an a priori model was run with the random forest classifier. Each biome was calibrated with 75% of the samples. The final model was based on four climate and six soil-related predictors, the most important variables for the a priori model, without collinearity. The model reached a kappa value of 0.82, generating a highly consistent prediction with the actual cover of the country. We showed here that the richness of biomes should not be underestimated, and that in spite of the complex relationship, highly accurate modeling based on climatic and soil-related predictors is possible. These predictors are complementary, for covering different parts of the multidimensional niche. Thus, a single biome can cover a wide range of climatic space, versus a narrow range of soil types, so that its prediction is best adjusted by soil-related variables, or vice versa.

Assuntos

RESUMO

Controversy exists over the cause and timing of the extinction of the Pleistocene megafauna. In the tropical Andes, deglaciation and associated rapid climate change began ~8,000 years before human arrival, providing an opportunity to separate the effects of climate change from human hunting on megafaunal extinction. We present a paleoecological record spanning the last 25,000 years from Lake Pacucha, Peru (3,100 m elevation). Fossil pollen, charcoal, diatoms, and the dung fungus Sporormiella, chronicle a two-stage megaherbivore population collapse. Sporormiella abundance, the proxy for megafaunal presence, fell sharply at ~21,000 years ago, but rebounded prior to a permanent decline between ~16,800 and 15,800 years ago. This two-stage decline in megaherbivores resulted in a functional extinction by ~15,800 years ago, 3,000 years earlier than known human occupation of the high Andes. Declining megaherbivore populations coincided with warm, wet intervals. Climatic instability and megafaunal population collapse triggered an ecological cascade that resulted in novel floral assemblages, and increases in woody species, fire frequency, and plant species that were sensitive to trampling. Our data revealed that Andean megafaunal populations collapsed due to positive feedbacks between habitat quality and climate change rather than human activity.

Assuntos

RESUMO

Este estudo teve como objetivo avaliar, no outono, as características morfogênicas de oito gramíneas nativas da região central do Rio Grande do Sul, classificadas sob uma tipologia funcional, segundo o teor de matéria seca e a área foliar específica em A, B, C, D: Axonopus affinis (A), Andropogon lateralis (B), Paspalum notatum (B), Paspalum plicatulum (C), Piptochaetium montevidense (C) Aristida laevis (D), Saccharum angustifolius (D) e Sorghastrum pellitum (D); submetidas a dois níveis de nitrogênio (zero e 200kg ha-1 de N). O delineamento experimental foi o inteiramente casualizado com arranjo fatorial 8 (espécies) x 2 (níveis de N) ou 4 (tipos funcionais) x 2 (níveis de N), ambos com três repetições. As plantas foram submetidas a cortes segundo diferentes durações de elongação foliar, definidas por médias das espécies por tipo funcional. As variáveis foram analisadas estatisticamente usando testes de aleatorização com o software MULTIV. Não houve diferença significativa entre os níveis de N, porém houve entre as espécies e entre os tipos funcionais. As variáveis morfogênicas são coerentes com a tipologia funcional utilizada como referência, baseada em atributos foliares. Os níveis de nitrogênio não alteram a morfogênese das espécies na estação do outono, sendo seu uso desaconselhado nesse período.

The morphogenetic characteristics of eight native grasses of South Brazil were evaluated during autumn. They were classified in a functional typology, according to dry matter content and specific leaf area (A, B, C, D): Axonopus affinis (A), Andropogon lateralis (B), Paspalum notatum (B), Paspalum plicatulum (C), Piptochaetium montevidense (C) Aristida laevis (D), Saccharum angustifolius (D) and Sorghastrum pellitum (D), under two nitrogen (N) fertilization levels (zero and 200kg ha-1 N). Experimental design was completely randomized in a factorial arrangement: eight (species) x two (N levels) with three replicates or four (functional types) x two (N levels) both with three replicates. Plants were submitted to cuts according to different leaf lamina elongation, defined by means of species classified by functional type. The variables were statistically analyzed using randomization tests with software MULTIV. There was no significant difference between N levels, but there was among species and among functional types. Morphogenic variables are consistent according to the functional typology used as reference, based on leaf traits. Nitrogen fertilization does not change morphogenetic characteristics of evaluated species during autumn, and its use is discouraged during this season.

RESUMO

The morphogenetic characteristics of eight native grasses of South Brazil were evaluated during autumn. They were classified in a functional typology, according to dry matter content and specific leaf area (A, B, C, D): Axonopus affinis (A), Andropogon lateralis (B), Paspalum notatum (B), Paspalum plicatulum (C), Piptochaetium montevidense (C) Aristida laevis (D), Saccharum angustifolius (D) and Sorghastrum pellitum (D), under two nitrogen (N) fertilization levels (zero and 200kg ha-1 N). Experimental design was completely randomized in a factorial arrangement: eight (species) x two (N levels) with three replicates or four (functional types) x two (N levels) both with three replicates. Plants were submitted to cuts according to different leaf lamina elongation, defined by means of species classified by functional type. The variables were statistically analyzed using randomization tests with software MULTIV. There was no significant difference between N levels, but there was among species and among functional types. Morphogenic variables are consistent according to the functional typology used as reference, based on leaf traits. Nitrogen fertilization does not change morphogenetic characteristics of evaluated species during autumn, and its use is discouraged during this season.

Este estudo teve como objetivo avaliar, no outono, as características morfogênicas de oito gramíneas nativas da região central do Rio Grande do Sul, classificadas sob uma tipologia funcional, segundo o teor de matéria seca e a área foliar específica em A, B, C, D: Axonopus affinis (A), Andropogon lateralis (B), Paspalum notatum (B), Paspalum plicatulum (C), Piptochaetium montevidense (C) Aristida laevis (D), Saccharum angustifolius (D) e Sorghastrum pellitum (D); submetidas a dois níveis de nitrogênio (zero e 200kg ha-1 de N). O delineamento experimental foi o inteiramente casualizado com arranjo fatorial 8 (espécies) x 2 (níveis de N) ou 4 (tipos funcionais) x 2 (níveis de N), ambos com três repetições. As plantas foram submetidas a cortes segundo diferentes durações de elongação foliar, definidas por médias das espécies por tipo funcional. As variáveis foram analisadas estatisticamente usando testes de aleatorização com o software MULTIV. Não houve diferença significativa entre os níveis de N, porém houve entre as espécies e entre os tipos funcionais. As variáveis morfogênicas são coerentes com a tipologia funcional utilizada como referência, baseada em atributos foliares. Os níveis de nitrogênio não alteram a morfogênese das espécies na estação do outono, sendo seu uso desaconselhado nesse período.

RESUMO

The morphogenetic characteristics of eight native grasses of South Brazil were evaluated during autumn. They were classified in a functional typology, according to dry matter content and specific leaf area (A, B, C, D): Axonopus affinis (A), Andropogon lateralis (B), Paspalum notatum (B), Paspalum plicatulum (C), Piptochaetium montevidense (C) Aristida laevis (D), Saccharum angustifolius (D) and Sorghastrum pellitum (D), under two nitrogen (N) fertilization levels (zero and 200kg ha-1 N). Experimental design was completely randomized in a factorial arrangement: eight (species) x two (N levels) with three replicates or four (functional types) x two (N levels) both with three replicates. Plants were submitted to cuts according to different leaf lamina elongation, defined by means of species classified by functional type. The variables were statistically analyzed using randomization tests with software MULTIV. There was no significant difference between N levels, but there was among species and among functional types. Morphogenic variables are consistent according to the functional typology used as reference, based on leaf traits. Nitrogen fertilization does not change morphogenetic characteristics of evaluated species during autumn, and its use is discouraged during this season.

Este estudo teve como objetivo avaliar, no outono, as características morfogênicas de oito gramíneas nativas da região central do Rio Grande do Sul, classificadas sob uma tipologia funcional, segundo o teor de matéria seca e a área foliar específica em A, B, C, D: Axonopus affinis (A), Andropogon lateralis (B), Paspalum notatum (B), Paspalum plicatulum (C), Piptochaetium montevidense (C) Aristida laevis (D), Saccharum angustifolius (D) e Sorghastrum pellitum (D); submetidas a dois níveis de nitrogênio (zero e 200kg ha-1 de N). O delineamento experimental foi o inteiramente casualizado com arranjo fatorial 8 (espécies) x 2 (níveis de N) ou 4 (tipos funcionais) x 2 (níveis de N), ambos com três repetições. As plantas foram submetidas a cortes segundo diferentes durações de elongação foliar, definidas por médias das espécies por tipo funcional. As variáveis foram analisadas estatisticamente usando testes de aleatorização com o software MULTIV. Não houve diferença significativa entre os níveis de N, porém houve entre as espécies e entre os tipos funcionais. As variáveis morfogênicas são coerentes com a tipologia funcional utilizada como referência, baseada em atributos foliares. Os níveis de nitrogênio não alteram a morfogênese das espécies na estação do outono, sendo seu uso desaconselhado nesse período.