Drought and predicted changes in climate, such as increased atmospheric CO2 concentration and high temperature, may affect the growth and productivity of crop plants and generate varying responses, including morphological, physiological, biochemical and molecular changes. Water deficit negatively affects photosynthesis, while increasing CO2 can benefit plants and attenuate photo-oxidative damage, especially in C3 metabolism species. However, the excess heat associated with this increase can affect photosynthetic efficiency differently, depending on the species and/or variety studied. In addition, the responses to the combination of these factors are poorly understood and cannot be extracted directly from the effects of each of these agents applied in isolation. This review sought to address the isolated and combined effects of water deficit and climate change on agricultural production, reporting how plant metabolism is affected by rising temperatures and high CO2 concentration. This understanding is important to monitor the behavior of plants in the face of future climatic scenarios in order to develop strategies that can confer resistance to plants and ensure food security for agricultural production.
The leaf litter consists of vegetable fragments/waste (e.g., leaves, fruits, twigs) and animals. Acting on soil fertilization through its decomposition and fragmentation by abiotic factors (for example, bacteria, fungi, invertebrates, and vertebrates), helping in the process of nutrient cycling, becoming an alternative in the recovery of degraded areas. Its production varies according to the climatic conditions of the region, being the observation as greater leaf litter production in tropical and subtropical areas, as well as the semi-arid regions, where the plants in greater depth lose their leaves allowing a higher deposition of the biomass in the soil. The leaf litter still acts, as it applies to a diversity of animals that they use as a means to develop. Among the most representative animals are the Annelida (Oligochaeta), Myriapoda (Chilopoda and Diplopoda), Hexapoda (Diptera, Hemiptera, Orthoptera, Coleoptera, Blattodea, Isoptera, Hymenoptera, Lepidoptera, Isopoda, Thysanura), Cheliceriformes Araneae, Scorpiones, Pseudoscorpiones and Opiliones), Mollusca (Gastropoda). All these factors make the leaf litter, a source of nutrients rich in organic compounds that help improve soil fertility and provides the animals that live in it a universe of ecological niches that suit the needs of each species.
Millet is an annual cycle plant, with C4 metabolism, tolerant to water deficit, and it is cultivated in regions with scarcity of rain. The objective was to evaluate the germination of the millet seedling in function of saline stress, growth and biomass of the aerial part and the root system. The experiment was performed in a completely randomized design, with four treatments and five replicates, with the unit being represented by seeds of millet. The treatments were constituted by solutions with addition of NaCl corresponding to 2.337, 4.674 and 7.011 g/L, respectively for the electrical conductivities 4.0; 8.0; 12.0 dS/m and 0 dS/m (distilled water) as control. The millet cultivar used in this experiment was the IPA Bulk 1BF. The mean germination rate of seedlings in relation to control salinity level was higher than 90%, while for level of 12 dS.m-1 salinity there was no germination. The fitted model presented a high coefficient of determination (pseudo-R²= 90.96%) and low sum of squares of residuals (SSR=0.26). The beta regression model proved to be an appropriate option to analyse the millet seedling germination rate after 72 hours in function of salinity level, length of the root system and dry mass of the aerial part.
O telhado verde é utilizado como alternativa para o resfriamento térmico residencial, pois auxilia na transferência de calor e proporciona benefícios ambientais e econômicos. Desta forma, esta pesquisa objetivou avaliar se a presença do telhado verde altera as condições térmicas residenciais em região semiárida. O telhado verde foi conduzido em área residencial, onde se instalaram dois sensores (termo-higrômetro) em ambiente interno e externo. Foi determinada uma área de 8,4 m2 para o telhado verde, onde foram instaladas quatro camadas (compensado de madeira, carpete, papelão e substrato) e, em seguida, realizado o transplantio de Selaginella convoluta (Selaginellaceae). Os tratamentos foram realizados em duas situações distintas, analisando o ambiente interno e externo, com e sem utilização de telhado verde (EXTER_S, EXTER_C, INTER_S e INTER_C). Os dados da temperatura e umidade relativa foram coletados às 09, 15 e 21 horas durante oito dias e submetidos ao teste de Tukey (p
Modo de acesso: World Wide Web Inclui bibliografia 1. Agricultura 2. Meio Ambiente 3. Zootecnia 4. Ciências Agrárias I. REDIN, Ezequiel II. Título. CDD-630 Sônia Márcia Soares de Moura -CRB 6/1896 O conteúdo deste livro está licenciado sob a Licença de Atribuição Creative Commons 4.0. Com ela é permitido compartilhar o livro, devendo ser dado o devido crédito, não podendo ser utilizado para fins comerciais e nem ser alterada. O conteúdo dos artigos e seus dados em sua forma, correção e confiabilidade são de responsabilidade exclusiva dos seus respectivos autores www.poisson.com.br
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