There is increasing evidence that some natural disturbances are increasing in frequency and intensity with global change, but the effects of these changes on plant populations is poorly understood. It is estimated that for every 1°C increase in the summer mean minimum temperature, there is a 40% increase in hail damage. Severe hailstorms can cause large impacts on biological communities. In 2008, a strong hailstorm hit the speciose and endemic rupestrian vegetation in Serra do Cipó, Brazil. This event prompted us to record its effects on the narrowly distributed and threatened species Coccoloba cereifera (Polygonaceae). About 33 to 60% of the leaves on the 246 individuals surveyed were lost. The disturbance also influenced some of the physiological traits of C. cereifera, increasing the concentration of photosynthetic pigments (chlorophyll and carotenoid) and polyphenols in the leaves. The most pronounced increase of chlorophyll was in young leaves (ca. 60%). Carotenoid content increased by ca. 50% in all leaf ages, while polyphenols increased tenfold. Contrarily, the endophyte richness decreased drastically after the event (from 104 to 33 species), only 12% of similar species remain. The hail storm strongly influenced all variables evaluated in this study, i.e., structure, physiology, and associated fungi. These results show that hailstorm had a dramatic and immediate impact on C. cereifera and may also severely affect other endemic or threatened plant species. Therefore, it is imperative that we broaden our knowledge on global climate change impacts for the conservation of native species.
Leaf traits are good indicators of ecosystem functioning and can affect herbivory and leaf reflectance patterns, allowing a better understanding of changes in environmental conditions, such those observed during forest natural regeneration. The aim of this study was to evaluate the intraspecific variation in leaf traits and their influence on the pattern of herbivory and leaf reflectance in three species distributed along a successional gradient (early, intermediate and late stages) in a tropical dry forest (TDF) in northern Minas Gerais, Brazil. We sampled individuals of the following abundant tree species that occurred in multiple successional stages: Cenostigma pluviosum, Handroanthus ochraceus, and Tabebuia reticulata. We collected 10 leaves from each tree to determine the contents of chlorophyll a, b, and total, carotenoids and water, as well as the percentage of leaf area removed by herbivores and leaf specific mass (LSM). We also measured five spectral reflectance indices (Normalized Difference Vegetation Index-NDVI, Simple Ratio-SR, modified Normalized Difference-nND, modified SR-mSR and Water Index-WI) using a portable spectrometer. Our results showed intraspecific differences in most leaf traits along the successional gradient, suggesting that local adaptation may play an important role in plant community assembly. However, herbivory only differed for H. ochraceus in early and intermediate stages, but it was not affected by the leaf traits considered here. Spectral reflectance indices also differed among successional stage for all species together and for each species separately, except for T. reticulata in intermediate and late stages. Thus, leaf spectral signatures may be an important tool to the remote detection of different successional stages in TDFs, with implications for forest management.
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