Heavy metals are natural non-biodegradable constituents of the Earth's crust that accumulate and persist indefinitely in the ecosystem as a result of human activities. Since the industrial revolution, the concentration of cadmium, arsenic, lead, mercury and zinc, amongst others, have increasingly contaminated soil and water resources, leading to significant yield losses in plants. These issues have become an important concern of scientific interest. Understanding the molecular and physiological responses of plants to heavy metal stress is critical in order to maximize their productivity. Recent research has extended our view of how plant hormones can regulate and integrate growth responses to various environmental cues in order to sustain life. In the present review we discuss current knowledge about the role of the plant growth hormones abscisic acid, auxin, brassinosteroid and ethylene in signaling pathways, defense mechanisms and alleviation of heavy metal toxicity.
RESUMOO estudo dos efeitos do vigor das sementes sobre os estádios iniciais do desenvolvimento das plântulas de soja é importante, já que compreendem o período de estabelecimento da cultura. Sementes de baixo vigor podem provocar reduções na velocidade de emergência e na produção de biomassa seca de plântulas, podendo afetar o estabelecimento da cultura. Este estudo teve por objetivo quantificar os componentes químicos e avaliar a capacidade de mobilização de reservas, na germinação de sementes de soja de alto e baixo vigor. Foram utilizadas três cultivares: BRS 243RR, BRS 246RR e CD 219RR. A caracterização do vigor foi por meio do teste de envelhecimento acelerado. Para determinação da composição química das sementes, foram quantificados os teores de proteínas, amido e açúcar solúvel, além da atividade da isoenzima alfa amilase. A capacidade de mobilização das reservas na germinação foi avaliada por meio da massa seca e do comprimento das plântulas. De acordo com os resultados desse trabalho, em sementes mais vigorosas há maiores conteúdos de proteínas solúveis, amido e açúcares solúveis, bem como maior capacidade de mobilização de reservas na germinação, resultando em plântulas de soja com melhor desempenho inicial. Palavras-chave:Glycine max, proteínas, açúcares, massa seca. ABSTRACT CHEMICAL COMPOSITION AND RESERVE MOBILIZATION IN SOYBEAN SEEDS WITH HIGH AND LOW VIGORThe study of vigour effect on the initial stages of soybean seeds development is important, once it includes the period of crop establishment. Seeds with low vigour may result in reduction of emergence rate and dry matter production, which may affect the crop establishment. The aims of this study were to quantify chemical components and to evaluate the capacity of seed reserve mobilization in germination of soybean seeds with high and low vigour. Three cultivars, BRS 243RR, BRS 246RR and CD 219RR were studied. The characterization of seed vigour was performed by the accelerated aging test. To determine seed chemical composition, soluble sugar, starch and soluble protein were quantified; in addition alpha amylase isoenzyme activity was also evaluated. The capacity of seed reserve mobilization during germination was evaluated by seedling dry matter and length. According to the results of this study, high vigour soybean seeds exhibit higher content of soluble proteins, starch and soluble sugars. Besides, they showed higher capacity of seed reserve mobilization during germination, resulting in a better performance for seedlings development.
MicroRNAs (miRNAs) are important post-transcriptional regulators of plant development and seed formation. In Brassica napus, an important edible oil crop, valuable lipids are synthesized and stored in specific seed tissues during embryogenesis. The miRNA transcriptome of B. napus is currently poorly characterized, especially at different seed developmental stages. This work aims to describe the miRNAome of developing seeds of B. napus by identifying plant-conserved and novel miRNAs and comparing miRNA abundance in mature versus developing seeds. Members of 59 miRNA families were detected through a computational analysis of a large number of reads obtained from deep sequencing two small RNA and two RNA-seq libraries of (i) pooled immature developing stages and (ii) mature B. napus seeds. Among these miRNA families, 17 families are currently known to exist in B. napus; additionally 29 families not reported in B. napus but conserved in other plant species were identified by alignment with known plant mature miRNAs. Assembled mRNA-seq contigs allowed for a search of putative new precursors and led to the identification of 13 novel miRNA families. Analysis of miRNA population between libraries reveals that several miRNAs and isomiRNAs have different abundance in developing stages compared to mature seeds. The predicted miRNA target genes encode a broad range of proteins related to seed development and energy storage. This work presents a comparative study of the miRNA transcriptome of mature and developing B. napus seeds and provides a basis for future research on individual miRNAs and their functions in embryogenesis, seed maturation and lipid accumulation in B. napus.
Questions: 1. Do the species composition, richness and diversity of sapling communities vary significantly in differently sized patches? 2. Do forest patches of different sizes differ in woody plant colonization patterns? Location: São Francisco de Paula, Rio Grande do Sul, Brazil, 29°28'S,50°13'W. Methods: Three woody vegetation types, differing in structural development (patch size) and recovering for 10 years from cattle and burning disturbances, were sampled on grassland. We analysed the composition and complexity of the woody sapling communities, through relative abundance, richness and diversity patterns. We also evaluated recruitment status (residents vs. colonizers) of species in communities occurring in different forest patch size classes. Results: 1. There is a compositional gradient in sapling communities strongly associated with forest patch area. 2. Richness and diversity are positively correlated to patch area, but only in poorly structured patches; large patches present richness and diversity values similar to small patches. 3. Resident to colonizer abundance ratio increases from nurse plants to large patches. The species number proportion between residents and colonizers is similar in small and large patches and did not differ between these patch types. 4. Large patches presented a high number of exclusive species, while nurse plants and small patches did not. Conclusions: Woody plant communities in Araucaria forest patches are associated with patch structure development. Richness and diversity patterns are linked to patch colonization patterns. Generalist species colonize the understorey of nurse plants and small patches; resident species cannot recruit many new individuals. In large patches, sapling recruitment by resident adults precludes the immigration of new species into the patches, limiting richness and diversity.
Questions The growing importance of secondary forests has stimulated research on the patterns of structure, biomass, species diversity and species composition of successional tropical forests. Despite current knowledge, the future of tropical forests and their ability to recover from human impacts are still a challenge for researchers. The Atlantic Forest is one of the most endangered ecosystems on Earth, yet has been reduced in size and distribution due to human disturbance such that most of the remaining fragments are secondary forest at different successional stages. How do these forests recover structure and species composition during succession? What are the main drivers of community assembly during succession? Location Subtropical Atlantic rain forest, South Brazil (29°42′S, 50°11′W). Method Using four replicate chronosequences, we described floristic and structural successional patterns of subtropical Atlantic Forest in Brazil, and investigated causal relationships with environmental, spatial and temporal variables in structuring tree species composition. The chronosequences were described by four successional stages, according to floristic (species composition and richness) and structural (density, basal cover and height of trees) characteristics, tested using ANOVA with randomization tests. Time since abandonment and environmental conditions of topsoil, relief and spatial components were considered as possible successional drivers. Hypotheses about causal relationships in the successional process were tested using path analysis, considering the influence of those variables on the successional forest communities. Results We found that forest stands of 26–45 yr old displayed structural characteristics similar to those of old‐growth stands, but that species composition of successional forest was somewhat different from reference areas (old‐growth forests). In our study, time since abandonment overcame the influence of environmental and spatial variables on forest assembly patterns in the chronosequences. Conclusions Our study is the first one describing floristic and structural successional patterns of the Atlantic rain forest in a subtropical context and proposing causal relationships between recovery age, environment and community composition of secondary successional forests. We conclude that the dynamic of forest succession is autogenic and not entirely predictable from local environmental conditions of soil, space and relief.
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