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1.
Tree Physiol ; 2023 Aug 16.
Artigo em Inglês | MEDLINE | ID: mdl-37584458

RESUMO

Lianas (woody vines) are important components of tropical forests and are known to compete with host trees for resources, decrease tree growth and increase tree mortality. Given the observed increases in liana abundance in some forests and their impacts on forest function, an integrated understanding of carbon dynamics of lianas and liana-infested host trees is critical for improved prediction of tropical forest responses to climate change. Non-structural carbohydrates (NSC) are the main substrate for plant metabolism (e.g., growth, respiration), and have been implicated in enabling tree survival under environmental stress, but little is known of how they vary among life-forms or of how liana infestation impacts host tree NSC. We quantified stem total NSC (NSC) concentrations and its fractions (starch and soluble sugars) in trees without liana infestation, trees with more than 50% of the canopy covered by lianas, and the lianas infesting those trees. We hypothesized that i) liana infestation depletes NSC storage in host trees by reducing carbon assimilation due to competition for resources; ii) trees and lianas, which greatly differ in functional traits related to water transport and carbon uptake, would also have large differences in NSC storage, and that As water availability has a significant role in NSC dynamics of Amazonian tree species, we tested these hypotheses within a moist site in western Amazonia and a drier forest site in southern Amazonia. We did not find any difference in NSC, starch or soluble sugar concentrations between infested and non-infested trees, in either site. This result suggests that negative liana impact on trees may be mediated through mechanisms other than depletion of host tree NSC concentrations. We found lianas have higher stem NSC and starch than trees in both sites. The consistent differences in starch concentrations, a long term NSC reserve, between life forms across sites reflect differences in carbon gain and use of lianas and trees. Soluble sugar concentrations were higher in lianas than in trees in the moist site but indistinguishable between life forms in the dry site. The lack of difference in soluble sugars between trees and lianas in the dry site emphasize the importance of this NSC fraction for plant metabolism of plants occurring in water limited environments. Abstract in Portuguese and Spanish are available in the supplementary material.

2.
Nat Ecol Evol ; 6(7): 878-889, 2022 07.
Artigo em Inglês | MEDLINE | ID: mdl-35577983

RESUMO

Tropical forests are some of the most biodiverse ecosystems in the world, yet their functioning is threatened by anthropogenic disturbances and climate change. Global actions to conserve tropical forests could be enhanced by having local knowledge on the forests' functional diversity and functional redundancy as proxies for their capacity to respond to global environmental change. Here we create estimates of plant functional diversity and redundancy across the tropics by combining a dataset of 16 morphological, chemical and photosynthetic plant traits sampled from 2,461 individual trees from 74 sites distributed across four continents together with local climate data for the past half century. Our findings suggest a strong link between climate and functional diversity and redundancy with the three trait groups responding similarly across the tropics and climate gradient. We show that drier tropical forests are overall less functionally diverse than wetter forests and that functional redundancy declines with increasing soil water and vapour pressure deficits. Areas with high functional diversity and high functional redundancy tend to better maintain ecosystem functioning, such as aboveground biomass, after extreme weather events. Our predictions suggest that the lower functional diversity and lower functional redundancy of drier tropical forests, in comparison with wetter forests, may leave them more at risk of shifting towards alternative states in face of further declines in water availability across tropical regions.


Assuntos
Mudança Climática , Ecossistema , Florestas , Árvores , Água
3.
Biosci. j. (Online) ; 31(5): 1519-1529, sept./oct. 2015.
Artigo em Inglês | LILACS | ID: biblio-964955

RESUMO

The dynamics of the natural process of recuperation of the structure and diversity of native vegetation following anthropogenic disturbance has been the subject of a great deal of controversy in restoration ecology research. The present study evaluates the natural regeneration of savanna forest (cerradão) 32 and 36 years after the clearcutting of the vegetation. We compared species diversity, and the structure and dynamics of the vegetation in two communities, one representing preserved cerradão (PC), and the other, the regenerating cerradão (RC), which was clearcut in 1976. Surveys were conducted in 2008 and 2012, 32 and 36 years after clear-cutting, respectively. In 2008, we demarcated 81 permanent 10 m x 10 m plots, 50 in the RC and 31 in the PC, and measured all live plants with a diameter at soil level > 5 cm. In 2012, the plots were resampled, including the original plants and all the recruits. The species were classified as specialists in savanna (SA) or forest habitat (FO), or as generalists (SA/FO). The RC presented the highest species richness and diversity, density, annual increment, and mortality rates. However, no significant differences were found between communities in the distribution of specialist or generalist species, or between years (2008 and 2012) in basal area or recruitment rates. While the species composition of the two communities is highly similar, the RC was characterized by a higher frequency of SA species, and was more similar to nearby savanna communities (cerrado sensu stricto). Trees in the RC were smaller and suffered higher rates of mortality than those in the PC, but also higher annual increments. While the RC demonstrated a high degree of resilience following clear-cutting, it was still found to be at an intermediate stage of succession, even after almost four decades, indicating that regeneration is a slow process.


A dinâmica de recuperação da diversidade e estrutura da vegetação nativa, a partir de processos naturais, após distúrbios antrópicos, tem sido objeto de controvérsias em estudos de ecologia da restauração. Nosso objetivo foi avaliar a regeneração natural de cerradão em 32 e 36 anos, após corte raso da vegetação. Comparamos os parâmetros florísticos e estruturais e a dinâmica da vegetação (entre 2008 e 2012) de duas comunidades de cerradão, sendo uma de cerradão preservado (CP) e outra em regeneração desde 1976 (CR). Demarcamos em 2008, 81 parcelas permanentes (10 x 10 m), sendo 50 no CR e 31 no CP e medimos todas as plantas vivas com diâmetro a altura do solo > 5 cm. Em 2012, reamostramos todas as plantas e incluímos os recrutas. Classificamos as espécies como especialistas em habitats savânicos (SA), florestal (FO) ou generalistas em habitats savânicos e florestais (SA/FO). O CR apresentou maior riqueza e diversidade de espécies, densidade de indivíduos, incremento periódico anual e taxa de mortalidade. Porém, as duas áreas não apresentaram diferenças na distribuição das espécies entre os habitats (SA, FO, SA/FO) e área basal (em 2008 e 2012) e taxa de recrutamento (entre 2008 e 2012). Apesar do CR e CP apresentarem elevada similaridade florística, o CR apresentou maior frequência de indivíduos de espécies com habitat SA bem como maior similaridade com duas outras comunidades savânicas (cerrado sentido restrito) próximas. Ainda, o CR possui indivíduos com menores diâmetros e consequentemente maiores taxas de mortalidade e incremento periódico anual. Apesar da resiliência do cerradão em relação ao corte raso esse ainda se encontra em estágio intermediário de sucessão, mesmo quase quatro décadas após o distúrbio, indicando que a regeneração é um processo lento.


Assuntos
Plantas , Pradaria , Ecologia , Recuperação e Remediação Ambiental
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