RESUMO
The transference of metals from water irrigation and soil to plants is a possible pathway of contamination for the trophic chain. This research is focused on the distribution of 16 analytes in the water-soil-tree (Pyrus malus) interaction in an agricultural region in the state of Chihuahua in Mexico from August 2019 (first sampling) to August 2020 (second sampling). The apple variety under investigation was Golden Delicious; it was found that the trace elements of As (0.18-0.34 mg·kg-1) and Cd (0.11-0.14 mg·kg-1) in the apple were above the corresponding permissible limit, according to FAO/WHO, and Cr (0.08-0.86 mg·kg-1) was below the limit. Furthermore, the health risk implications were estimated by the Hazard Quotients (HQ) and carcinogenic risk (CR). For carcinogenic risk, As, Cd, and Cr exceeded the risk limit (CR > 10-4). This investigation as well provides a link for similar research around the globe. Major and trace elements detection was performed with the Inductively Coupled Plasma-Optical Emission Spectrometry (ICP-OES) technique, along with a prior homogenization of samples and microwave acid digestion. To obtain the statistical behavior, an analysis of variance and correlation was performed.
Assuntos
Malus , Metais Pesados , Pyrus , Oligoelementos , Cádmio/análise , Metais Pesados/análise , México , Medição de Risco , Solo/química , Análise Espectral , Oligoelementos/análise , Árvores , Água/químicaRESUMO
This study brings information on the dynamics of C and N in urban forests in a subtropical region. We tested the hypothesis that C and N isotopic sign of leaves and soil and physiological traits of trees would vary from center to periphery in a megacity, considering land uses, intensity of automotive fleet and microclimatic conditions. 800 trees from four fragments were randomly chosen. Soil samples were collected at every 10 cm in trenches up to 1 m depth to analyze C and N contents. Both, plants and soil were assessed for δ13C, δ15N, %C and %N. Physiological traits [carbon assimilation (A)], CO2 internal and external pressure ratio (Pi/Pa) and intrinsic water use efficiency iWUE were estimated from δ13C and Δ Î´13C in leaves and soil ranged from -27.42 to -35.39 and from -21.22 to -28.18 , respectively, and did not vary along the areas. Center-periphery gradient was not evidenced by C. Emissions derived from fossil fuel and distinct land uses interfered at different levels in δ13C signature. δ15N in the canopy and soil varied clearly among urban forests, following center-periphery gradient. Leaf δ15N decreased from the nearest forest to the city center to the farthest, ranging from <3 to <-3 . δ15N was a good indicator of atmospheric contamination by NOx emitted by vehicular fleet and a reliable predictor of land use change. %N followed the same trend of δ15N either for soils or leaves. Forest fragments located at the edges of the center-periphery gradient presented significantly lower A and Pi/Pa ratio and higher iWUE. These distinct physiological traits were attributed to successional stage and microclimatic conditions. Results suggest that ecosystem processes related to C and N and ecophysiological responses of urban forests vary according to land use and vehicular fleet.
Assuntos
Ecossistema , Solo , Carbono , Dióxido de Carbono , Florestas , Combustíveis Fósseis , Plantas , Árvores , ÁguaRESUMO
Background: The poorly developed soils of the embryo dunes imply little capacity for plant support, however, the adaptation mechanisms of plants respond sensitively to environmental variations, even when these variations are small, which results in a set of specialized habitats and flora that are rarely shared with other terrestrial ecosystems. The coastal dunes of the Mexican Pacific remain vaguely studied, this is why this research explored the relationship between environmental properties and the presence of plant species in the embryo dunes of the coast of Jalisco, Mexico. Methods: Twenty-nine sites were sampled, one or two sites per embryo dune, with a random stratified design. Geomorphological and vegetation data were collected at site. Laboratory determinations included soil color, particle size, organic matter, pH, electrical conductivity, magnetite content, and moisture retention. Statistical analysis included correlation analysis to identify relationships between environmental variables; principal component analysis (PCA) and cluster analysis to group dune sites by environmental properties; canonical correspondence analysis (CCA) to determine a possible significant relationship between the presence of plant species and environmental variables; cluster analysis to group dune sites by presence/absence of plant species and correlate both clusters to validate the relationship between them, the salient aspects of this relationship were described and the spatial distribution of the groups was mapped. Results: Eleven plant species were identified, six of them exclusive to the embryo dunes and the rest ubiquitous. The incipient development of these soils is reflected in a low content of organic matter, silt, clay, and moisture retention, with scattered data on granulometry, electrical conductivity, organic matter, and magnetite. Some significant correlations were found between some environmental properties, and the CCA showed a significant relationship between the presence of plant species and environmental variables (p-value of the Monte Carlo test = 0.026). The cluster analysis of dune sites according to environmental variables and the cluster analysis by presence/absence of plant species produces the formation of five groups of sites with significant environmental differences and five groups of sites with significant floristic differences. A significant connection (r = 0.471, p = 0.01) between the two clustering schemes also evidences the meaningful relationship between the presence of plant species and the environmental characteristics of the embryo dunes of Jalisco, Mexico. Differences in habitat preferences were observed among plant species exclusive to the embryo dunes; thus, Abronia maritima, Uniola pittieri, and Pectis arenaria showed a preference for embryo dunes with poor edaphic conditions, in contrast to Okenia hypogaea, Canavalia rosea, and Scaevola plumieri, which were mostly found in embryo dunes with higher fertility.
Assuntos
Ecossistema , Óxido Ferroso-Férrico , México , Meio Ambiente , Solo/química , PlantasRESUMO
The Brazilian semiarid region presents a physical water scarcity and high seasonal and interannual irregularities of precipitation, known as a region with periodic droughts. This region is mainly covered by the Caatinga biome, recognized as a Seasonally Dry Tropical Forest (SDTF). Soil water availability directly impacts the ecosystem's functioning, characterized by low fertility and sparse vegetation cover during the dry season, making it a fragile ecosystem vulnerable to climatic variations. Additionally, this region has been suffering from several issues due to human activities over the centuries, which has resulted in extensive areas being severely degraded, which aggravates the impacts from climatic variations and the susceptibility to desertification. Thus, studying the soil-plant-atmosphere continuum in this region can help better understand the seasonal and annual behavior of the water and carbon fluxes. This study investigated the dynamics of water and carbon fluxes during four years (2013-2016) by using eddy covariance (EC) measurements within two areas of Caatinga (dense Caatinga (DC) and sparse Caatinga (SC)) that suffered anthropic pressures. The two study areas showed similar behavior in relation to physical parameters (air temperature, incoming radiation, vapor pressure deficit, and relative humidity), except for soil temperature. The SC area presented a surface temperature of 3 °C higher than the DC, related to their vegetation cover differences. The SC area had higher annual evapotranspiration, representing 74% of the precipitation for the DC area and 90% for the SC area. The two areas acted as a carbon sink during the study period, with the SC area showing a lower CO2 absorption capacity. On average, the DC area absorbs 2.5 times more carbon than the SC area, indicating that Caatinga deforestation affects evaporative fluxes, reducing atmospheric carbon fixation and influencing the ability to mitigate the effects of increased greenhouse gas concentrations in the atmosphere.
Assuntos
Ecossistema , Solo , Carbono , Ciclo do Carbono , Humanos , ÁguaRESUMO
Soil salinity reduces root hydraulic conductivity (Lpr) of several plant species. However, how cellular signaling and root hydraulic properties are linked in plants that can cope with water restriction remains unclear. In this work, we exposed the halotolerant species red beet (Beta vulgaris) to increasing concentrations of NaCl to determine the components that might be critical to sustaining the capacity to adjust root hydraulics. Our strategy was to use both hydraulic and cellular approaches in hydroponically grown seedlings during the first osmotic phase of salt stress. Interestingly, Lpr presented a bimodal profile response apart from the magnitude of the imposed salt stress. As well as Lpr, the PIP2-aquaporin profile follows an unphosphorylated/phosphorylated pattern when increasing NaCl concentration while PIP1 aquaporins remain constant. Lpr also shows high sensitivity to cycloheximide. In low NaCl concentrations, Lpr was high and 70 % of its capacity could be attributed to the CHX-inhibited cell-to-cell pathway. More interestingly, roots can maintain a constant spontaneous exudated flow that is independent of the applied NaCl concentration. In conclusion, Beta vulgaris root hydraulic adjustment completely lies in a dominant cell-to-cell pathway that contributes to satisfying plant water demands.
Assuntos
Aquaporinas/fisiologia , Beta vulgaris/fisiologia , Transporte Biológico/fisiologia , Fosforilação/fisiologia , Raízes de Plantas/fisiologia , Salinidade , Plântula/fisiologia , Estresse Fisiológico/fisiologia , Produtos Agrícolas/fisiologiaRESUMO
Since cacao beans accumulate Cd in high levels and restrictions have been imposed on safe levels of chocolate consumption, concern about whether or not cacao trees store other toxic elements seems to be inevitable. Following a previous study in Ecuador examining Cd content in five cacao varieties collected in pristine areas and in places impacted by oil activities, we present here the concentrations of 11 trace elements (TEs) (As, Ba, Co, Cu, Cr, Mo, Mn, Ni, Pb, V and Zn) in soils, cacao tissues (leaves, pod husks, beans) and cocoa liquor (CL). Several TEs showed concentrations in topsoils above the Ecuadorian limits, and may have a mixed natural and anthropogenic origin. Ba and Mo concentrations in cacao tissues are slightly higher than those reported in other surveys, but this was not the case for toxic elements (As and Pb). TE contents are lower in CL, than in beans, except for Pb and Co, but no risk was identified for human health. Compared with control areas, Enrichment Factors were below 2 in impacted areas, except for Ba. Transfer factors (from soils to cacao) indicated that cacao does not accumulate TEs. A positive correlation was found between Cd and Zn in topsoils and cacao tissues for the CCN-51 variety, and between Cd and Ni for the Nacional variety. Identifying patterns of TE distribution and potential interactions in order to explain plant internal mechanisms, which is also dependent on the cacao variety, is a difficult task and needs further research.
Assuntos
Cacau , Metais Pesados , Poluentes do Solo , Oligoelementos , Cádmio/análise , Equador , Monitoramento Ambiental , Humanos , Metais Pesados/análise , Solo , Poluentes do Solo/análise , Oligoelementos/análiseRESUMO
Mineral deficiencies in soil-plant-animal relations are linked to chemical properties and reproductiveproblems in grazing animals. The objective of this study was to determine the dynamics of K, Ca, and Mgin the green leaf biomass of two types of introduced forages, Brachiaria dyctioneura (Bd) and Centrosema macrocarpum (Cm), compared to the natural vegetation of the neotropical savannah (NS) in an agricultural ecosystem. The three types of vegetation, associated with the corn crop, served as livestock feed during the dry season. The soils nutrient content (0-15 cm depth), the production and nutritional dynamics of green leaf biomass, and leaf/stem relationships in the fields during the grazing period were determined. In the corn crop-livestock agroecosystem, K decreased (%) in concentration as the grazing period progressed, presenting the following trend: Bd>Cm>NS. The dynamics of Ca and Mg in green leaf biomass increased slightly (p<0.05) by the end of the grazing period for Bd and Cm, in contrast to a significant decrease in the natural vegetation of the savannah. The concentration of K in the soil did not reveal significant differences between ground cover and NS plants, and the soils under Cm evidenced thehighest percentage of Ca. A higher percentage of Mg was observed in the soil planted with Cm. For the three types of vegetation, an improvement was observed in the nutritional quality of the forage and soil and in the yield (kg/ha). These findings are valuable contributions within the context of production in savannas and to forage quality for livestock.
Deficiências minerais no eixo solo-planta-animal estão relacionadas as propriedades químicas e estão ligadas a problemas reprodutivos em animais em pastejo. O objetivo deste estudo foi determinar a dinâmica de K, Ca e Mg na biomassa foliar verde de dois tipos de forrageiras introduzidas (Brachiaria dyctioneura (Bd) e Centrosema macrocarpum (Cm)) em relação à vegetação natural do cerrado (NS) em um ecossistema agrícola. Os três tipos de vegetação, associados ao cultivo do milho, serviam de ração para o gado durante a estação seca. Foram determinados o conteúdo de nutrientes no solo (0-15 cm de profundidade), a produção de biomassa de folhas verdes e sua dinâmica nutricional e as relações folha-colmo nas lavouras durante o pastejo. No agroecossistema milho-pecuária, o K apresentou redução (%) em sua concentração com o avanço do período de pastejo, apresentando a seguinte tendência: Bd> Cm> NS. A dinâmica do Ca e Mg na biomassa foliar verde aumentou ligeiramente (p <0,05) ao final do período de pastejo em Bd e Cm, contrastando com uma diminuição significativa na vegetação natural do cerrado. A concentração de K no solo não apresentou diferenças significativas entre as plantas de cobertura e o NS, sendo que os solos sob Cm apresentaram a maior porcentagem de Ca. Uma maior porcentagem de Mg foi observada no solo plantado com Cm. Nos três tipos de vegetação examinados, observou-se melhora na qualidade nutricional da forragem e solo e na produtividade (kg/ha). Essas descobertas são contribuições valiosas nos contextos de produção das savanas e na qualidade da forragem para o gado.
Assuntos
Animais , Bovinos , Bovinos/metabolismo , Ração Animal/análise , Zea mays , Poaceae , PradariaRESUMO
Mineral deficiencies in soil-plant-animal relations are linked to chemical properties and reproductiveproblems in grazing animals. The objective of this study was to determine the dynamics of K, Ca, and Mgin the green leaf biomass of two types of introduced forages, Brachiaria dyctioneura (Bd) and Centrosema macrocarpum (Cm), compared to the natural vegetation of the neotropical savannah (NS) in an agricultural ecosystem. The three types of vegetation, associated with the corn crop, served as livestock feed during the dry season. The soils nutrient content (0-15 cm depth), the production and nutritional dynamics of green leaf biomass, and leaf/stem relationships in the fields during the grazing period were determined. In the corn crop-livestock agroecosystem, K decreased (%) in concentration as the grazing period progressed, presenting the following trend: Bd>Cm>NS. The dynamics of Ca and Mg in green leaf biomass increased slightly (p<0.05) by the end of the grazing period for Bd and Cm, in contrast to a significant decrease in the natural vegetation of the savannah. The concentration of K in the soil did not reveal significant differences between ground cover and NS plants, and the soils under Cm evidenced thehighest percentage of Ca. A higher percentage of Mg was observed in the soil planted with Cm. For the three types of vegetation, an improvement was observed in the nutritional quality of the forage and soil and in the yield (kg/ha). These findings are valuable contributions within the context of production in savannas and to forage quality for livestock.(AU)
Deficiências minerais no eixo solo-planta-animal estão relacionadas as propriedades químicas e estão ligadas a problemas reprodutivos em animais em pastejo. O objetivo deste estudo foi determinar a dinâmica de K, Ca e Mg na biomassa foliar verde de dois tipos de forrageiras introduzidas (Brachiaria dyctioneura (Bd) e Centrosema macrocarpum (Cm)) em relação à vegetação natural do cerrado (NS) em um ecossistema agrícola. Os três tipos de vegetação, associados ao cultivo do milho, serviam de ração para o gado durante a estação seca. Foram determinados o conteúdo de nutrientes no solo (0-15 cm de profundidade), a produção de biomassa de folhas verdes e sua dinâmica nutricional e as relações folha-colmo nas lavouras durante o pastejo. No agroecossistema milho-pecuária, o K apresentou redução (%) em sua concentração com o avanço do período de pastejo, apresentando a seguinte tendência: Bd> Cm> NS. A dinâmica do Ca e Mg na biomassa foliar verde aumentou ligeiramente (p <0,05) ao final do período de pastejo em Bd e Cm, contrastando com uma diminuição significativa na vegetação natural do cerrado. A concentração de K no solo não apresentou diferenças significativas entre as plantas de cobertura e o NS, sendo que os solos sob Cm apresentaram a maior porcentagem de Ca. Uma maior porcentagem de Mg foi observada no solo plantado com Cm. Nos três tipos de vegetação examinados, observou-se melhora na qualidade nutricional da forragem e solo e na produtividade (kg/ha). Essas descobertas são contribuições valiosas nos contextos de produção das savanas e na qualidade da forragem para o gado.(AU)
Assuntos
Animais , Bovinos , Bovinos/metabolismo , Ração Animal/análise , Zea mays , Pradaria , PoaceaeRESUMO
The purpose of this study was to evaluate the remediation potential and disturbance response indicators of Impatiens walleriana exposed to benzene and chromium. Numerous studies over the years have found abundant evidence of the carcinogenicity of benzene and chromium (VI) in humans. Benzene and chromium are two toxic industrial chemicals commonly found together at contaminated sites, and one of the most common management strategies employed in the recovery of sites contaminated by petroleum products and trace metals is in situ remediation. Given that increasing interest has focused on the use of plants as depollution agents, direct injection tests and benzene misting were performed on I. walleriana to evaluate the remediation potential of this species. I. walleriana accumulated hexavalent chromium, mainly in the root system (164.23 mg kg-1), to the detriment of the aerial part (39.72 mg kg-1), and presented visible damage only at the highest concentration (30 mg L-1). Unlike chromium (VI), chromium (III) was retained almost entirely by the soil, leaving it available for removal by phytotechnology. However, after the contamination stopped, I. walleriana responded positively to the detoxification process, recovering its stem stiffness and leaf color. I. walleriana showed visible changes such as leaf chlorosis during the ten days of benzene contamination. When benzene is absorbed by the roots, it is translocated to and accumulated in the plant's aerial part. This mechanism the plant uses ensures its tolerance to the organic compound, enabling the species to survive and reproduce after treatment with benzene. Although I. walleriana accumulates minor amounts of hexavalent chromium in the aerial part, this amount suffices to induce greater oxidative stress and to increase the amount of hydrogen peroxide when compared to that of benzene. It was therefore concluded that I. walleriana is a species that possesses desirable characteristics for phytotechnology.
Assuntos
Benzeno/toxicidade , Cromo/toxicidade , Impatiens , Poluentes do Solo/toxicidade , Biodegradação Ambiental , Humanos , Impatiens/crescimento & desenvolvimento , Impatiens/metabolismoRESUMO
Recent advances at the molecular level are introducing a new scenario that needs to be integrated into the analysis of plant hydraulic properties. Although it is not yet clear to what extent this scenario alters the current proposal for the hydraulic circuit models, it introduces new insights when studying plants that are able to easily overcome water restrictions. In this context, our aim was to explore water adjustments in a halotolerant model (Beta vulgaris) by studying the coordination between the root in terms of root hydraulic conductivity (Lpr) and the shoot as reflected in the stomatal conductance (gs). The root water pathways were also analysed in terms of root suberization (apoplastic barrier) and aquaporin transcript levels (cell-to-cell pathway). Beta vulgaris showed the ability to rapidly lose (4 h) and gain (24 h) turgor when submitted to salt stress (200 mM). The reduction profile observed in Lpr and gs was consistent with a coupled process. The tuning of the root water flow involved small variations in the studied aquaporin's transcripts before anatomical modifications occurred. Exploring Lpr enhancement after halting the stress contributed to show not only a different profile in restoring Lpr but also the capacity to uncouple Lpr from gs. Beta vulgaris root plays a key role and can anticipate water loss before the aerial water status is affected.
RESUMO
With devastating increase in population there is a great necessity to increase crop productivity of staple crops but the productivity is greatly affected by various abiotic stress factors such as drought, salinity. An attempt has been made a brief account on abiotic stress resistance of major cereal crops viz. In spite of good successes obtained on physiological and use molecular biology, the benefits of this high cost technology are beyond the reach of developing countries. This review discusses several morphological, anatomical, physiological, biochemical and molecular mechanisms of major cereal crops related to the adaptation of these crop to abiotic stress factors. It discusses the effect of abiotic stresses on physiological processes such as flowering, grain filling and maturation and plant metabolisms viz. photosynthesis, enzyme activity, mineral nutrition, and respiration. Though significant progress has been attained on the physiological, biochemical basis of resistance to abiotic stress factors, very little progress has been achieved to increase productivity under sustainable agriculture. Therefore, there is a great necessity of inter-disciplinary research to address this issue and to evolve efficient technology and its transfer to the farmers' fields.
Assuntos
Grão Comestível/fisiologia , Adaptação Fisiológica , Brassinosteroides , Produtos Agrícolas , Grão Comestível/classificação , Espécies Reativas de Oxigênio/metabolismoRESUMO
Este trabalho foi realizado em três áreas degradadas em processo de regeneração natural em Diamantina, MG. O objetivo do trabalho foi relacionar a distribuição da abundância das espécies colonizadoras com as variáveis ambientais. As comunidades das áreas degradadas pelo garimpo de diamante (ADGD) e ouro (ADGO), assim como, pelo processo de voçorocamento (ADV) contou com 50 (10 x 10 m), 30 (10 x 10 m) e 36 (5 x 3m) parcelas, respectivamente, nas quais foram mensurados todos os indivíduos arbustivo-arbóreos vivos encontrados nas parcelas com DAS30 3 cm. Da mesma forma, em cada parcela, foi coletada uma amostra composta do substrato superficial (0-20 cm), sendo analisados os parâmetros físicos, químicos e topográficos. Para analisar as correlações entre os gradientes ambientais e vegetacionais foi empregada a Análise de Correspondência Canônica (CCA). No geral foram amostrados 1.152 indivíduos, pertencentes a 16 famílias e 38 espécies, sendo 153 indivíduos, 5 famílias e 9 espécies pertencentes a ADGD; 921 indivíduos, 16 famílias e 36 espécies pertencentes a ADGO e 78 indivíduos, 9 famílias e 11 espécies pertencentes a ADV. Verificou-se que houve relação entre os gradientes ambientais e a abundância e composição florística da vegetação colonizadora, ficando a maioria das espécies mais fortemente correlacionada com as variáveis desnível, M.O, m e umidade.
This study was conducted in three areas degraded in the process of natural regeneration in Diamantina, MG. The aimed of work was to relate the abundance distribution of the colonizing species with environmental variables. The communities of areas degraded by mining diamond (ADGD) and gold (ADGO), as well as the process of voçorocamento (ADV) had 50 (10 x 10 m), 30 (10 x 10 m) and 36 (5 x 3m) plots respectively were measured all individuals shrubs and trees living found in plots with DAS30 3 cm. Likewise, in each plot, a composite sample was collected from the substrate surface (0-20 cm) were analyzed the physical and chemical parameters. To analyze the correlations between environmental gradients and vegetation was used Canonical Correspondence Analysis (CCA). Overall 1152 individuals were sampled, belonging to 16 families and 38 species, and, 153 individuals, families 5 and 9 species of ADGD, 921 individuals, 16 families and 36 species belonging to ADGO and 78 individuals, 9 families and 11 species belonging ADV. There was a relationship between environmental gradients and floristic composition and abundance of colonizing vegetation, most species being more strongly correlated with the variables elevation M.O, m and moisture.