Analyzing the edge effects in a Brazilian seasonally dry tropical forest.

Due to the deciduous nature of dry forests (widely known as seasonally dry tropical forests) they are subject to microclimatic conditions not experienced in other forest formations. Close examinations of the theory of edge effects in dry forests are still rare and a number of questions arise in terms of this topic. In light of this situation we examined a fragment of the dry forest to respond to the following questions: (I) Are there differences in canopy cover along the edge-interior gradient during the dry season? (II) How does the microclimate (air temperature, soil temperature, and relative humidity) vary along that gradient? (III) How does the microclimate influence tree species richness, evenness and abundance along that gradient? (IV) Are certain tree species more dominant closer to the forest edges? Regressions were performed to address these questions. Their coefficients did not significantly vary from zero. Apparently, the uniform openness of the forest canopy caused a homogeneous internal microclimate, without significant differentiation in habitats that would allow modifications in biotic variables tested. We conclude that the processes of edge effect commonly seen in humid forests, not was shared with the dry forest assessed.

Analyzing the edge effects in a Brazilian seasonally dry tropical forest / Analisando o efeito de borda em uma floresta estacional decidual brasileira

Abstract Due to the deciduous nature of dry forests (widely known as seasonally dry tropical forests) they are subject to microclimatic conditions not experienced in other forest formations. Close examinations of the theory of edge effects in dry forests are still rare and a number of questions arise in terms of this topic. In light of this situation we examined a fragment of the dry forest to respond to the following questions: (I) Are there differences in canopy cover along the edge-interior gradient during the dry season? (II) How does the microclimate (air temperature, soil temperature, and relative humidity) vary along that gradient? (III) How does the microclimate influence tree species richness, evenness and abundance along that gradient? (IV) Are certain tree species more dominant closer to the forest edges? Regressions were performed to address these questions. Their coefficients did not significantly vary from zero. Apparently, the uniform openness of the forest canopy caused a homogeneous internal microclimate, without significant differentiation in habitats that would allow modifications in biotic variables tested. We conclude that the processes of edge effect commonly seen in humid forests, not was shared with the dry forest assessed.

Resumo Devido à natural caducifolia das florestas estacionais deciduais, estas são sujeitas a condições microclimáticas que não são experimentadas por outras formações florestais. Estudos específicos sobre efeito de borda nessas florestas são raros e algumas questões persistem sobre esse tópico. Diante disso, avaliamos um fragmento de floresta decidual para responder as seguintes questões: (I) Existe diferença na cobertura da copa ao longo do gradiente borda-interior durante a estação seca? (II) Como as variáveis microclimáticas (temperatura do ar, temperatura do solo e umidade relativa do ar) variam ao longo deste gradiente durante a estação seca? (III) Como as variáveis microclimáticas influenciam a riqueza, equabilidade e abundância de árvores ao longo do gradiente? (IV) Existem espécies dominantes próximo à borda da floresta? Regressões foram feitas para responder a essas questões. Seus coeficientes não variaram significativamente de zero. Aparentemente, a abertura uniforme do dossel da floresta causa uma homogeneidade microclimática no fragmento, sem diferenciação significativa de habitats que permite modificação nas variáveis bióticas testadas. Nós concluímos que os processos de efeito de borda comumente observados em florestas úmidas não são compartilhados com a floresta seca avaliada.

Climate change effects on the geographic distribution of specialist tree species of the Brazilian tropical dry forests.

The aim of this study was to evaluate the ecological niche models (ENMs) for three specialist trees (Anadenanthera colubrina, Aspidosperma pyrifolium and Myracrodruon urundeuva) in seasonally dry tropical forests (SDTFs) in Brazil, considering present and future pessimist scenarios (2080) of climate change. These three species exhibit typical deciduousness and are widely distributed by SDTF in South America, being important in studies of the historical and evolutionary processes experienced by this ecosystem. The modeling of the potential geographic distribution of species was done by the method of maximum entropy (Maxent).We verified a general expansion of suitable areas for occurrence of the three species in future (c.a., 18%), although there was reduction of areas with high environmental suitability in Caatinga region. Precipitation of wettest quarter and temperature seasonality were the predictor variables that most contributed to our models. Climatic changes can provide more severe and longer dry season with increasing temperature and tree mortality in tropics. On this scenario, areas currently occupied by rainforest and savannas could become more suitable for occurrence of the SDTF specialist trees, whereas regions occupied by Caatinga could not support the future level of unsustainable (e.g., aridity). Long-term multidisciplinary studies are necessary to make reliable predictions of the plant's adaptation strategies and responses to climate changes in dry forest at community level. Based on the high deforestation rate, endemism and threat, public policies to minimize the effects of climate change on the biodiversity found within SDTFs must be undertaken rapidly.