Your search keyword '"Tiecher, Tadeu"' showing total 21 results

1. Phytoremediation of Cu-contaminated vineyard soils in Brazil: A compendium of Brazilian pot studies.

Author

Marques ACR, Tiecher TL, Brunetto G, Vendruscolo D, De Conti L, Ambrosini VG, Miotto A, Rosa DJ, da Silva ICB, Trentin E, Ferreira PAA, Jacques RJS, Pescador R, Comin JJ, Ceretta CA, de Melo GWB, and Parent LÉ

Subjects

Biodegradation, Environmental, Farms, Brazil, Copper analysis, Soil chemistry, Crops, Agricultural, Soil Pollutants analysis

Abstract

Vineyard soils can be contaminated by copper (Cu) due to successive applications of fungicides and organic fertilizers. Soil remediation can be addressed by altering soil properties or selecting efficient Cu-extracting cover crops tolerant to Cu toxicity. Our objectives were to synthesize the Cu-extracting efficiency by plant species tested in Brazil, classify them according to Cu resistance to toxicity, and assess the effect of soil properties on attenuating Cu toxicity. We retrieved results from 41 species and cultivars, totaling 565 observations. Freshly added Cu varied between 50 and 600 mg Cu kg -1 of soil across studies. The partition of Cu removal between the above- and below-ground portions was scaled as a logistic variable to facilitate data synthesis. The data were analyzed using the Adaboost machine learning model. Model accuracy (predicted vs. actual values) reached R 2  = 0.862 after relating species, cultivar, Cu addition, clay, SOM, pH, soil test P, and Cu as features to predict the logistic target variable. Tissue Cu concentration varied between 7 and 105 mg Cu kg -1 in the shoot and between 73 and 1340 mg Cu kg -1 in the roots. Among soil properties, organic matter and soil test Cu most influenced the accuracy of the model. Phaseolus vulgaris, Brassica juncea, Ricinus communis, Hordeum vulgare, Sorghum vulgare, Cajanus cajan, Solanum lycopersicum, and Crotolaria spectabilis were the most efficient Cu-extracting cover crops, as shown by positive values of the logistic variable (shoot removal > root removal). Those Cu-tolerant plants showed differential capacity to extract Cu in the long run., (© 2023 The Authors. Journal of Environmental Quality © 2023 American Society of Agronomy, Crop Science Society of America, and Soil Science Society of America.)

Published

2023

2. Challenges and perspectives in terrestrial ecotoxicological assessment methodologies.

Author

Clasen B, Storck TR, Schneider SI, and Tiecher TL

Published

2023

3. Prediction of Nitrogen Dosage in 'Alicante Bouschet' Vineyards with Machine Learning Models.

Author

Brunetto G, Stefanello LO, Kulmann MSS, Tassinari A, Souza ROS, Rozane DE, Tiecher TL, Ceretta CA, Ferreira PAA, Siqueira GN, and Parent LÉ

Abstract

Vineyard soils normally do not provide the amount of nitrogen (N) necessary for red wine production. Traditionally, the N concentration in leaves guides the N fertilization of vineyards to reach high grape yields and chemical composition under the ceteris paribus assumption. Moreover, the carryover effects of nutrients and carbohydrates stored by perennials such as grapevines are neglected. Where a well-documented database is assembled, machine learning (ML) methods can account for key site-specific features and carryover effects, impacting the performance of grapevines. The aim of this study was to predict, using ML tools, N management from local features to reach high berry yield and quality in 'Alicante Bouschet' vineyards. The 5-year (2015-2019) fertilizer trial comprised six N doses (0-20-40-60-80-100 kg N ha -1 ) and three regimes of irrigation. Model features included N dosage, climatic indices, foliar N application, and stem diameter of the preceding season, all of which were indices of the carryover effects. Accuracy of ML models was the highest with a yield cutoff of 14 t ha -1 and a total anthocyanin content (TAC) of 3900 mg L -1 . Regression models were more accurate for total soluble solids (TSS), total titratable acidity (TTA), pH, TAC, and total phenolic content (TPC) in the marketable grape yield. The tissue N ranges differed between high marketable yield and TAC, indicating a trade-off about 24 g N kg -1 in the diagnostic leaf. The N dosage predicted varied from 0 to 40 kg N ha -1 depending on target variable, this was calculated from local features and carryover effects but excluded climatic indices. The dataset can increase in size and diversity with the collaboration of growers, which can help to cross over the numerous combinations of features found in vineyards. This research contributes to the rational use of N fertilizers, but with the guarantee that obtaining high productivity must be with adequate composition.

Published

2022

4. Proposition of critical thresholds for copper and zinc transfer to solution in soils.

Author

Morais GP, Comin JJ, Lourenzi CR, Tiecher TL, Soares CRFS, Loss A, Gatiboni LC, Bortolini JG, Ferreira GW, Dos Santos EMH, and Brunetto G

Subjects

Clay, Copper analysis, Environmental Monitoring, Organic Chemicals, Soil, Zinc analysis, Metals, Heavy analysis, Soil Pollutants analysis

Abstract

Several studies have reported increased copper (Cu) and zinc (Zn) levels in agricultural soils worldwide, mainly due to organic waste and successive leaf fungicide applications in crops. However, the critical transfer thresholds in soils, which can indicate the real risk of environmental contamination and toxicity to plants, remain poorly understood. This study aimed to define the maximum Cu and Zn adsorption capacity (MAC) and threshold (T-Cu and T-Zn) in different soils in Southern Brazil, which present different clay and organic matter (OM) levels. Bw (Oxisol) and A horizon (Inceptisol) samples were used to obtain soils with clay and OM contents ranging from 4 to 70% and from 0.5 to 9.5%, respectively. Cu and Zn adsorption curves were plotted for MAC determination purposes. Based on Cu and Zn MAC values, different concentrations of these elements were applied to the soils for subsequent quantification of available Cu and Zn levels (Mehlich-1 and water). T-Cu in soils with different clay contents ranged from 81 to 595 mg Cu kg -1 , whereas T-Zn, from 195 to 378 mg Zn kg -1 . T-Cu in soils with different OM levels ranged from 97 to 667 mg Cu kg -1 , whereas T-Zn, from 226 to 495 mg Zn kg -1 . T-Cu can be calculated through the equation: T-Cu = 75 × (%CL 0.34 ) × (%OM 0.39 ), whereas T-Zn: T-Zn = 2.7 × (CL) + 126 (by taking into consideration the clay content) and T-Zn = - 9.3 × (%OM) 2  + 92.4 × (%OM) + 66 (by taking into consideration OM content). T-Cu and T-Zn can be used by researchers, inspection bodies, technical assistance institutions, and farmers as safe indicators to monitor the potential for environmental contamination., (© 2022. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2022

5. Physiological responses of beet and cabbage plants exposed to copper and their potential insertion in human food chain.

Author

Schmitt OJ, Andriolo JL, Silva ICB, Tiecher TL, Chassot T, Tarouco CP, Lourenzi CR, Nicoloso FT, Marchezan C, Casagrande CR, Drescher GL, Kreutz MA, and Brunetto G

Subjects

Copper analysis, Food Chain, Hydrogen Peroxide pharmacology, Superoxide Dismutase, Vegetables, Beta vulgaris, Brassica, Soil Pollutants analysis

Abstract

Copper (Cu) can be toxic to vegetables when it is absorbed and accumulated at large concentrations, a fact that increases the risk of excessive addition of this metal to the human food chain. The aims of the current study are (1) to determine the Cu concentrations that have critical toxic effects on beet and cabbage plants, and the potential of these plants to enter the human food chain, as well as (2) to assess the physiological and biochemical responses of representatives of these vegetables grown in nutrient solution presenting increasing Cu concentrations. Beet and cabbage plants were grown for 75 days in pots filled with sand added with nutrient solution presenting six Cu concentrations: 0.00, 0.52, 1.02, 1.52, 2.02 and 2.52 mg Cu L -1 . Dry matter yield and Cu accumulation in different plant organs were evaluated. Photosynthetic pigment contents, lipid peroxidation levels (TBARs), superoxide dismutase (SOD) and peroxidase (POD) activity and hydrogen peroxide (H 2 O 2 ) concentrations in leaves were evaluated. Critical Cu concentrations that led to toxicity in plant organs such as beetroot and cabbage head, which are often found in human diets, corresponded to 1.43 mg Cu L -1 and 1.59 mg Cu L -1 , respectively. High Cu concentrations in the nutrient solution have increased Cu concentrations and accumulation in plant tissues. This outcome justified the increased POD and SOD enzyme activity in the leaves of beet and cabbage plants, respectively, and was the cause of reduced plant growth in both crops. Cabbage plants presented higher tolerance to increased Cu levels in the growing environment than beet plants. However, it is necessary being careful at the time to consume both vegetables, when they are grown in Cu-enriched environments., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

6. Aquatic biomonitoring: Importance, challenges, and limitations.

Author

Clasen B, Storck TR, and Tiecher TL

Subjects

Ecosystem, Biological Monitoring, Environmental Monitoring

Published

2022

7. Ecotoxicological responses of Eisenia andrei exposed in field-contaminated soils by sanitary sewage.

Author

Lisbôa RM, Storck TR, Silveira AO, Wolff D, Tiecher TL, Brunetto G, and Clasen B

Subjects

Animals, Antioxidants metabolism, Brazil, Catalase metabolism, Ecotoxicology, Environmental Pollution analysis, Humans, Malondialdehyde metabolism, Oligochaeta drug effects, Oxidative Stress drug effects, Sewage, Soil chemistry, Superoxide Dismutase metabolism, Oligochaeta physiology, Soil Pollutants analysis

Abstract

The disposal of untreated sanitary sewage in the soil has several consequences for human health and leads to environmental risks; thus, it is necessary investigating, monitoring and remediating the affected sites. The aims of the current study are to evaluate ecotoxicological effects on Eisenia andrei earthworms exposed to soil subjected to sources of sanitary sewage discharge and to investigate whether prevention values established by the Brazilian legislation for soil quality, associated with the incidence of chemical substances in it, are satisfactory enough to assure the necessary quality for different organisms. Earthworms' behavior, reproduction, acetylcholinesterase activity, catalase, superoxide dismutase and malondialdehyde levels were evaluated. The reproduction and behavior of earthworms exposed to sanitary sewage were adversely affected. Increased superoxide dismutase and catalase activity acted as antioxidant defense mechanism. Significantly increased lipid peroxidation levels and acetylcholinesterase activity inhibition have indicated lipid peroxidation in cell membrane and neurotransmission changes, respectively. Results have confirmed that sanitary sewage induced oxidative stress in earthworms. In addition, based on biochemical data analysis, the integrated biomarker response (IBR) has evidenced different toxicity levels in earthworms between the investigated points. Finally, results have indicated that effluents released into the soil, without proper treatment, lead to contaminant accumulation due to soil saturation and it can hinder different processes and biological development taking place in the soil. In addition, the current study has shown that physical-chemical analyses alone are not enough to assess soil quality, since it is also requires adopting an ecotoxicological approach. Brazilian legislation focused on soil quality must be revised and new guiding values must be proposed., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

8. Tolerance and phytoremediation potential of grass species native to South American grasslands to copper-contaminated soils.

Author

De Conti L, Marques ACR, Ceretta CA, Tarouco CP, Nicoloso FT, Ferreira PAA, Tiecher TL, Tassinari A, Bicalho da Silva IC, and Brunetto G

Subjects

Biodegradation, Environmental, Grassland, Soil, Copper analysis, Soil Pollutants analysis

Abstract

Grass species native to South American can have mechanisms to tolerate copper (Cu) excess, which improves their use to phytoremediate Cu-contaminated soils . The aims of the present study are to assess the tolerance of grass species native to South American grasslands to copper-contaminated soils, as well as their adaptive responses under high Cu-stressed condition and to identify native grass species presenting the highest potential to be used for phytoremediation purposes. Soil samples were air-dried and their acidity, phosphorus and potassium levels were corrected, and the samples were incubated. Three Cu levels were used in the experiment: natural (Dose 0), with added of 40 mg kg -1 of Cu and with added of 80 mg kg -1 of Cu. Three Axonopus affinis , Paspalum notatum and Paspalum plicatulum seedlings were transferred to 5-L pots filled with soil in August and grown for 121 days. Soil solution was collected during cultivation with the aid of Rhizon lysimeters. Main concentrations of cations and anions, dissolved organic carbon and pH in the soil solution were analyzed and the ionic speciation was carried out. Cu toxicity impaired the growth of grass species native to South America, since Cu excess led to both changes in root morphology and nutritional unbalance. Among all assessed native species, Paspalum plicatulum was the one presenting the greatest potential to phytostabilize in Cu-contaminated soils, since it mainly accumulates Cu absorbed in the roots; therefore, its intercropping with grapevines is can be beneficial in Cu-contaminated soils.

Published

2021

9. Potential of vermicompost and limestone in reducing copper toxicity in young grapevines grown in Cu-contaminated vineyard soil.

Author

Trentin E, Facco DB, Hammerschmitt RK, Avelar Ferreira PA, Morsch L, Belles SW, Ricachenevsky FK, Nicoloso FT, Ceretta CA, Tiecher TL, Tarouco CP, Berghetti ÁLP, Toselli M, and Brunetto G

Subjects

Calcium Carbonate pharmacology, Soil Pollutants analysis, Calcium Carbonate therapeutic use, Copper toxicity, Environmental Pollution prevention & control, Soil Pollutants chemistry

Abstract

Foliar fungicide application in grapevines increases the content of heavy metals such as copper (Cu) in vineyard soils, which may reach phytotoxic levels. The application of soil amendments such as limestone and vermicompost may reduce Cu availability and phytotoxicity. The study aimed to assess growth, physiological status and changes in root morphology in young grapevines grown for 12 months in Cu-contaminated soil with and without the application of soil amendments. Samples of a Typic Hapludalf soil were collected in a vineyard with more than 30 years of cultivation. The following treatments were used: 1) control (without amendment), 2) application of organic vermicompost (86.7 g kg -1 ) and 3) application of limestone (3 Mg ha -1 ). Grapevines (Paulsen 1103 rootstock) were transplanted and grown for 12 months in PVC soil columns. We assessed parameters of growth, photosynthesis and root morphology. Grapevines grown in soil treated with limestone showed increased growth, dry matter yield and photosynthetic efficiency. The highest Cu concentrations in root tissue were found in grapevines grown in control soil. The application of vermicompost in this study did not alleviate Cu toxicity. Grapevines grown in soil treated with vermicompost showed high manganese (Mn) concentration in shoots before the winter pruning, reflecting the high Mn concentrations in soil solution that caused Mn phytotoxicity, resulting in plant death after the winter pruning. The vermicompost used in this study is not suitable for agronomic use. The use of limestone was an effective strategy to reduce Cu availability and phytotoxicity., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

10. Intercropping of young grapevines with native grasses for phytoremediation of Cu-contaminated soils.

Author

De Conti L, Ceretta CA, Melo GWB, Tiecher TL, Silva LOS, Garlet LP, Mimmo T, Cesco S, and Brunetto G

Subjects

Poaceae growth & development, Soil Pollutants toxicity, Vitis growth & development, Biodegradation, Environmental, Copper toxicity, Crops, Agricultural growth & development, Farms, Soil

Abstract

Intercropping may be a strategy for phytoremediation of vineyard soils with high copper (Cu) content. The study aimed to evaluate the contribution of South American native grasses in limiting Cu availability and toxicity in soils grown with grapevines. The soil used in the experiment was collected in natural grassland with no history of cultivation. The samples were air-dried; acidity, P and K levels were corrected and samples were then incubated. We used three Cu levels - natural content (Dose 0) and the addition of 40 and 80 mg Cu kg -1 of soil (Dose 40 and 80). At each Cu dose, grapevine was grown in three cropping treatments: monocropping, intercropping with Paspalum plicatulum and intercropping with Axonopus affinis. In intercropping, two grass seedlings were transplanted into each experimental unit 35 days prior to the transplanting of the grapevines. The soil solution was sampled and ionic speciation was carried out. At 70 days after planting, we sampled the grapevines to determine dry matter, morphological parameters and nutrient concentration in the roots and shoots. Intercropping young grapevines with Paspalum plicatulum and Axonopus affinis was efficient in promoting the growth of young grapevines at moderate and low levels of Cu contamination by reducing Cu bioavailability. This indicates that maintaining native grasses in young vineyards is an effective strategy for phytoremediating Cu-contaminated soils and obtaining a grape production system with reduced interventions in the native environment, in addition to contributing to soil protection and nutrient cycling., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

11. Growth and chemical changes in the rhizosphere of black oat (Avena strigosa) grown in soils contaminated with copper.

Author

De Conti L, Ceretta CA, Tiecher TL, da Silva LOS, Tassinari A, Somavilla LM, Mimmo T, Cesco S, and Brunetto G

Subjects

Avena growth & development, Avena metabolism, Biodegradation, Environmental, Biological Availability, Brazil, Plant Roots drug effects, Plant Roots growth & development, Plant Roots metabolism, Rhizosphere, Soil chemistry, Avena drug effects, Copper toxicity, Soil Pollutants toxicity

Abstract

Copper based pesticides are used to protect vineyards from fungal infections. Plants like black oats (Avena strigosa Schreb) can promote chemical changes in the rhizosphere, reducing copper (Cu) bioavailability in contaminated soils. The objective of this study was to evaluate how copper additions would affect growth, morphology and nutrient uptake by black oats and how the plants affect the chemical composition in rhizosphere and bulk soil. The soil was collected in grassland of southern Brazil. The soil was air-dried, adjusted pH and added phosphorus and potassium amendments, and then it was incubated. Three Cu levels were established in the soil with the addition of 0, 40 and 80 mg Cu kg -1 . The experimental design consisted of pots containing 8 plants with 10 kg of soil. Rhizosphere (2 kg of soil) and bulk (8 kg of soil) separated by a 30 µm nylon membrane. Black oat plants were grown for 54 days. The soil and solution were chemically characterized throughout cultivation for Cu speciation. At 54 days after emergence, the soil was sampled and proceeded chemical analysis and plants were collected to determine yield dry matter, morphological parameters and nutrient concentration. Black oat plants induce increase of pH and dissolved organic carbon in the rhizosphere. These root-induced processes increase the percentage of complexed chemical species and decrease free Cu +2 in soil solution, decreasing Cu toxicity. However, soil contamination with Cu induces morphological changes and nutritional imbalances. Black oats could thus be planted along with vineyards, for such increasing protect the soil and promote nutrient cycling, as well as reduce the free Cu available fraction due to the root-induced modifications in the rhizosphere., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

12. High copper content in vineyard soils promotes modifications in photosynthetic parameters and morphological changes in the root system of 'Red Niagara' plantlets.

Author

Ambrosini VG, Rosa DJ, Bastos de Melo GW, Zalamena J, Cella C, Simão DG, Souza da Silva L, Pessoa Dos Santos H, Toselli M, Tiecher TL, and Brunetto G

Subjects

Copper chemistry, Plant Transpiration physiology, Copper metabolism, Farms, Photosystem II Protein Complex metabolism, Plant Roots growth & development, Soil chemistry, Vitis metabolism

Abstract

High copper (Cu) soil contents, due to the continuous vineyard application of Cu fungicides throughout the years, may impair the growth of the shoot and modify the structure of the root system. The current study aimed to investigate the threshold levels of available Cu in the soil causing toxicity effects in young grapevine plants of 'Red Niagara' cultivated in clay soils. Grapevine plantlets were cultivated in pots containing vineyard devoted soils with increasing contents of available Cu (25, 80, 100 and 165 mg kg -1 ), for 53 days. Photosynthesis and transpiration rates, and the quantum yield of photosystem II (Fv/Fm) were evaluated during the cultivation period. At the end of the experiment, the plant nutrient and leaf chlorophyll were determined, along with the anatomical analysis of the root system structure and plant dry matter determination. Higher levels of available Cu in the soil increased the apoplastic, symplastic and total fraction of the metal in the roots, reducing the other nutrients, especially in the shoots. Photosynthesis, transpiration rates and Fv/Fm were also reduced. Higher levels of Cu led to anatomical changes in the roots, that increased diameter, number of layers in the cortex, vascular cylinder and total root areas. It also resulted in reduced dry matter production by grapevines., (Copyright © 2018 Elsevier Masson SAS. All rights reserved.)

Published

2018

13. Bioaccumulation and oxidative stress caused by pesticides in Cyprinus carpio reared in a rice-fish system.

Author

Clasen B, Loro VL, Murussi CR, Tiecher TL, Moraes B, and Zanella R

Subjects

Animals, Oryza, Carps metabolism, Oxidative Stress, Pesticides toxicity, Water Pollutants, Chemical toxicity

Abstract

Nowadays, many irrigated rice producers have adopted the rice-fish farming systems, in which fish are reared in the same environment as rice is grown. These animals can biologically control many pests that disturb the crop, as well as increase the income of producers when they are reared in the same area as rice. However, a large variety of pesticides is often used for pest control in conventional irrigated rice crops, and fish are exposed to different pesticide concentrations and active ingredients. Thus, the aim of the current study is to assess the potential risks of these pesticides to freshwater fish (Cyprinus carpio) cultured in integrated rice-fish farming systems. We assessed five pesticides widely used in rice culture. This is the first report on the bioaccumulation of the insecticides lambda-cyhalothrin + thiamethoxam and clorantraniliprole and of the fungicide tebuconazole + trifloxystrobin associated with oxidative stress and with enzymatic and non-enzymatic parameters in edible fish samples reared in integrated in rice-fish farming systems. After 100 days of exposure, lambda-cyhalothrin and tebuconazole bioaccumulated in carp muscles. Acethylcholinesterase activity in the brain was lower in the experimental group than in the control group. Overall, the biochemical analyses showed increased responses in the experimental groups in comparison to the controls. Lipid peroxidation levels increased in the liver, gills and muscles. Protein oxidation increased in the liver and muscles. Catalase activity increased in the liver, and glutathione S-transferase increased in the liver, gills and muscles. Results demonstrate that these pesticides have severe adverse consequences in fish and indicate their potential risk to human health due to their bioaccumulation in farmed fish., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

14. Effects of Rhizophagus clarus and P availability in the tolerance and physiological response of Mucuna cinereum to copper.

Author

Ferreira PAA, Tiecher T, Tiecher TL, Rangel WM, Soares CRFS, Deuner S, Tarouco CP, Giachini AJ, Nicoloso FT, Brunetto G, Coronas MV, and Ceretta CA

Subjects

Oxidative Stress drug effects, Copper pharmacology, Disease Resistance drug effects, Glomeromycota growth & development, Mucuna metabolism, Mucuna microbiology, Phosphorus metabolism, Soil Pollutants pharmacology

Abstract

Arbuscular mycorrhizal fungi (AMF) improve plant ability to uptake P and tolerate heavy metals. This study aimed to evaluate the effect of available P and the inoculation of Rhizophagus clarus in a Cu-contaminated soil (i) on the activity of acid phosphatases (soil and plant), the presence of glomalin, and (ii) in the biochemical and physiological status of Mucuna cinereum. A Typic Hapludalf soil artificially contaminated by adding 60 mg kg -1 Cu was used in a 3 × 2 factorial design with three replicates. Treatments consisted of three P levels: 0, 40, and 100 mg kg -1 P. Each P treatment level was inoculated (+AMF)/non-inoculated (-AMF) with 200 spores of R. clarus per pot, and plants grown for 45 days. The addition of at least 40 mg kg -1 P and the inoculation of plants with R. clarus proved to be efficient to reduce Cu phytotoxicity and increase dry matter yield. Mycorrhization and phosphate fertilization reduced the activity of enzymes regulating oxidative stress (SOD and POD), and altered the chlorophyll a fluorescence parameters, due to the lower stress caused by available Cu. These results suggest a synergism between the application of P and the inoculation with R. clarus, favoring the growth of M. cinereum in a Cu-contaminated soil. This study shows that AMF inoculation represents an interesting alternative to P fertilization to improve plant development when exposed to excess Cu., (Copyright © 2017 Elsevier Masson SAS. All rights reserved.)

Published

2018

15. Growth, biochemical response and nutritional status of Angico-Vermelho (Parapiptadenia rigida (Bentham) Brenan) under the application of soil amendment in Cu-contaminated soil.

Author

Bicalho da Silva IC, Tiecher TL, Schneider JM, Trentin E, De Conti L, Ferreira PAA, Ceretta CA, Araújo MM, Tarouco CP, Garlet LP, Hammerschmitt RK, and Brunetto G

Subjects

Biodegradation, Environmental, Copper analysis, Nutritional Status, Soil chemistry, Metals, Heavy analysis, Soil Pollutants analysis

Abstract

Forest species Angico-Vermelho (Parapiptadenia rigida (Bentham) Brenan) is an alternative for the revegetation of areas contaminated with high levels of heavy metals such as copper (Cu). However, excess Cu may cause toxicity to plants, which is why the use of soil amendments can facilitate cultivation by reducing the availability of Cu in the soil. The aim of this study was to assess how the use of amendment can contribute to growth and nutritional status as well as reduce oxidative stress in Angico-Vermelho grown in Cu-contaminated soil. Samples of a Typic Hapludalf soil containing high Cu content were used for the application of four amendments (limestone, organic compost, Ca silicate and zeolite), in addition to a control treatment. The treatments were arranged in a completely randomized design, with four replicates. The use of amendments decreased Cu content available in soil and contributed to improve both plant nutritional status and its antioxidant response expressed by enzymatic activity. The application of the amendments, especially zeolite and Ca silicate, increased dry matter yield of Angico-Vermelho. Thus, the results presented here suggest that the use of amendments contributes to improving Cu-contaminated soils and favors revegetation with Angico-Vermelho.

Published

2018

16. Physiological and nutritional status of black oat (Avena strigosa Schreb.) grown in soil with interaction of high doses of copper and zinc.

Author

Tiecher TL, Tiecher T, Ceretta CA, Ferreira PA, Nicoloso FT, Soriani HH, Tassinari A, Paranhos JT, De Conti L, and Brunetto G

Subjects

Analysis of Variance, Antioxidants metabolism, Avena drug effects, Biological Transport drug effects, Biomass, Catalase metabolism, Chlorophyll metabolism, Chlorophyll A, Electron Transport drug effects, Fluorescence, Peroxidase metabolism, Photosynthesis drug effects, Photosystem II Protein Complex metabolism, Plant Development drug effects, Plant Roots drug effects, Plant Roots metabolism, Plant Shoots drug effects, Plant Shoots metabolism, Avena growth & development, Avena physiology, Copper pharmacology, Nutritional Physiological Phenomena drug effects, Soil chemistry, Zinc pharmacology

Abstract

Vineyard sandy acid soils from South Brazil have experienced heavy metal contamination due to replacement of copper (Cu)-based by zinc (Zn)-based products to control foliar diseases. Thus, we evaluate physiological and nutritional status of black oat (Avena strigosa Schreb.), a common interrow crop in vineyards from this region. Soil was collected in a natural field from Santana do Livramento, in Rio Grande do Sul, the southernmost state of Brazil. Black oat was cultivated for 30 days in a greenhouse with application of 0, 30, and 60 mg Cu kg(-1) combined with 0, 15, 30, 60, 120, and 180 mg Zn kg(-1). After the trial period, dry matter accumulation of roots and shoots, Cu and Zn contents in roots and shoots, chlorophyll a fluorescence, photosynthetic pigments and catalase (CAT, EC 1.11.1.6) and peroxidase (POD, EC 1.11.1.7) activity were determined. Cu and Zn toxicity was evidenced by the decrease in plant growth of black oat as well as by the decrease of photochemical efficiency associated with the decrease in photosynthetic pigment content, especially with the highest doses of Cu and Zn. Furthermore, the activity of antioxidant enzymes (CAT and POD) was increased in intermediate doses of Zn, indicating the activation of the antioxidant system, but the stress condition in treatments with high levels of Cu and Zn was not reversed., (Copyright © 2016 Elsevier Masson SAS. All rights reserved.)

Published

2016

17. Effects of zinc addition to a copper-contaminated vineyard soil on sorption of Zn by soil and plant physiological responses.

Author

Tiecher TL, Ceretta CA, Tiecher T, Ferreira PA, Nicoloso FT, Soriani HH, Rossato LV, Mimmo T, Cesco S, Lourenzi CR, Giachini AJ, and Brunetto G

Subjects

Adsorption, Brazil, Farms, Fungicides, Industrial, Plant Leaves drug effects, Plant Leaves growth & development, Soil chemistry, Vitis, Zea mays growth & development, Copper chemistry, Copper toxicity, Soil Pollutants chemistry, Soil Pollutants toxicity, Zea mays drug effects, Zinc chemistry, Zinc toxicity

Abstract

The occurrence of high levels of Cu in vineyard soils is often the result of intensive use of fungicides for the preventive control of foliar diseases and can cause toxicity to plants. Nowadays many grape growers in Southern Brazil have replaced Cu-based with Zn-based products. The aim of the study was to evaluate whether the increase in Zn concentration in a soil with high Cu contents can interfere with the dynamics of these elements, and if this increase in Zn may cause toxicity to maize (Zea mays L.). Soil samples were collected in two areas, one in a vineyard with more than 30 years of cultivation and high concentration of Cu and the other on a natural grassland area adjacent to the vineyard. Different doses of Cu and Zn were added to the soil, and the adsorption isotherms were built following the Langmuir's model. In a second experiment, the vineyard soil was spiked with different Zn concentrations (0, 30, 60, 90, 180, and 270mg Zn kg(-1)) in 3kg pots where maize was grown in a greenhouse for 35 days. When Cu and Zn were added together, there was a reduction in the quantities adsorbed, especially for Zn. Zn addition decreased the total plant dry matter and specific leaf mass. Furthermore, with the increase in the activity of catalase, an activation of the antioxidant system was observed. However, the system was not sufficiently effective to reverse the stress levels imposed on soil, especially in plants grown in the highest doses of Zn. At doses higher than 90Znmgkg(-1) in the Cu-contaminated vineyard soil, maize plants were no longer able to activate the protection mechanism and suffered from metal stress, resulting in suppressed dry matter yields due to impaired functioning of the photosynthetic apparatus and changes in the enzymatic activity of plants. Replacement of Cu- by Zn-based fungicides to avoid Cu toxicity has resulted in soil vineyards contaminated with these metals and damaging of plant photosynthetic apparatus and enzyme activity., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

18. Biochemical changes in black oat (avena strigosa schreb) cultivated in vineyard soils contaminated with copper.

Author

Girotto E, Ceretta CA, Rossato LV, Farias JG, Brunetto G, Miotto A, Tiecher TL, de Conti L, Lourenzi CR, Schmatz R, Giachini A, and Nicoloso FT

Subjects

Antioxidants metabolism, Avena chemistry, Avena physiology, Brazil, Copper metabolism, Fungicides, Industrial metabolism, Organ Specificity, Oxidative Stress, Plant Roots chemistry, Plant Roots drug effects, Plant Roots physiology, Soil chemistry, Soil Pollutants metabolism, Vitis, Avena drug effects, Copper pharmacology, Fungicides, Industrial pharmacology, Soil Pollutants pharmacology

Abstract

Soils used for the cultivation of grapes generally have a long history of copper (Cu) based fungicide applications. As a result, these soils can accumulate Cu at levels that are capable of causing toxicity in plants that co-inhabit the vineyards. The aim of the present study was to evaluate growth parameters and oxidative stress in black oat plants grown in vineyard soils contaminated with high levels of Cu. Soil samples were collected from the Serra Gaúcha and Campanha Gaúcha regions, which are the main wine producing regions in the state of Rio Grande do Sul, in southern Brazil. Experiments were conducted in a greenhouse in 2009, with soils containing Cu concentrations from 2.2 to 328.7 mg kg(-1). Evaluated parameters included plant root and shoot dry matter, Cu concentration in the plant's tissues, and enzymatic and non-enzymatic biochemical parameters related to oxidative stress in the shoots of plants harvested 15 and 40 days after emergence. The Cu absorbed by plants predominantly accumulated in the roots, with little to no translocation to the shoots. Even so, oat plants showed symptoms of toxicity when grown in soils containing high Cu concentrations. The enzymatic and non-enzymatic antioxidant systems of oat plants were unable to reverse the imposed oxidative stress conditions., (Copyright © 2016 Elsevier Masson SAS. All rights reserved.)

Published

2016

19. Forms of phosphorus transfer in runoff under no-tillage in a soil treated with successive swine effluents applications.

Author

Lourenzi CR, Ceretta CA, Tiecher TL, Lorensini F, Cancian A, Stefanello L, Girotto E, Vieira RC, Ferreira PA, and Brunetto G

Subjects

Animals, Brazil, Manure, Rain, Swine, Water, Water Movements, Animal Husbandry, Environmental Monitoring, Phosphorus analysis, Soil chemistry, Soil Pollutants analysis, Waste Disposal, Fluid methods

Abstract

Successive swine effluent applications can substantially increase the transfer of phosphorus (P) forms in runoff. The aim of this study was to evaluate P accumulation in the soil and transfer of P forms in surface runoff from a Hapludalf soil under no-tillage subjected to successive swine effluent applications. This research was carried out in the Agricultural Engineering Department of the Federal University of Santa Maria, Brazil, from 2004 to 2007, on a Typic Hapludalf soil. Swine effluent rates of 0, 20, 40, and 80 m3 ha(-1) were broadcast over the soil surface prior to sowing of different species in a crop rotation. Soil samples were collected in stratified layers, and the levels of available P were determined. Samples of water runoff from the soil surface were collected throughout the period, and the available, soluble, particulate, and total P were measured. Successive swine effluent applications led to increases in P availability, especially in the soil surface, and P migration through the soil profile. Transfer of P forms was closely associated with runoff, which is directly related to rainfall volume. Swine effluent applications also reduced surface runoff. These results show that in areas with successive swine effluent applications, practices that promote higher water infiltration into the soil are required, e.g., crop rotation and no-tillage system.

Published

2015

20. Copper availability assessment of Cu-contaminated vineyard soils using black oat cultivation and chemical extractants.

Author

Girotto E, Ceretta CA, Brunetto G, Miotto A, Tiecher TL, De Conti L, Lourenzi CR, Lorensini F, Gubiani PI, da Silva LS, and Nicoloso FT

Subjects

Avena, Brazil, Environmental Pollution, Fungicides, Industrial, Plant Roots drug effects, Copper analysis, Environmental Monitoring, Soil chemistry, Soil Pollutants analysis

Abstract

Grapevines grown on acid soils with low fertility in southern Brazil are treated with intense foliar applications of copper (Cu) fungicides, resulting in an increased level of Cu in the soil and increased toxicity. The present study evaluated the accumulation and bioavailability of Cu, and soils with varying levels of Cu from the main producing regions of southern Brazil were collected. The forms of Cu present in the soil were assessed using chemical extractants; additionally, oat cultivation was performed, reflecting the use of the plant as an indicator of Cu bioavailability. Cu accumulated in the topsoil, mainly in bioavailable forms, and there was also an increase of Cu up to a depth of 0.4 m. Cu was primarily found in the mineral fraction, with apparent saturation of the soil organic matter functional groups. Inceptisol and Alfisol soils with a long history of cupric fungicide application were found to have levels of Cu toxic to oat plants. Furthermore, accumulated copper in Alfisol soil from the Campanha Gaúcha region of the state of Rio Grande do Sul had higher bioavailability compared to Cu accumulated in Inceptisol soil from the Serra Gaúcha region. In addition, the copper concentration in roots was found to serve as an indicator of Cu bioavailability in soil, but not of copper phytotoxicity in plants.

Published

2014

21. Triggered antioxidant defense mechanism in maize grown in soil with accumulation of Cu and Zn due to intensive application of pig slurry.

Author

Girotto E, Ceretta CA, Rossato LV, Farias JG, Tiecher TL, De Conti L, Schmatz R, Brunetto G, Schetinger MR, and Nicoloso FT

Subjects

Animal Husbandry, Animals, Ascorbic Acid metabolism, Copper metabolism, Environmental Monitoring, Plant Leaves metabolism, Soil chemistry, Soil Pollutants metabolism, Superoxide Dismutase metabolism, Swine, Waste Disposal, Fluid methods, Zinc metabolism, Copper toxicity, Manure, Soil Pollutants toxicity, Zea mays physiology, Zinc toxicity

Abstract

The present study investigated changes in both the growth parameters and the enzymatic and non-enzymatic antioxidant systems of maize (Zea may L.) plants grown in Typic Hapludalf soil containing an accumulation of Cu and Zn. This accumulation developed because the soil received nineteen applications of pig slurry in no-tillage system over seven years. In this study, the maize plants were grown for fifteen and 25 days after emergence (DAE) in pots containing undisturbed and disturbed soil samples collected from a field experiment that received the rates 0, 20, 40 and 80m(3)ha(-1) of pig slurry, which totalized the amount of 0, 380, 760 and 1520m(3)ha(-1) of pig slurry in seven years, respectively, and phosphorus (P)+potassium (K) treatment (in disturbed soil samples). The maize plants grown in the undisturbed soil samples with an accumulation of Cu and Zn did not indicate an apparent decrease in growth. However, when compared to the treatment with PK fertilization, the maize plants grown in the disturbed soil with pig slurry treatments indicated higher lipid peroxidation and a number of senescent leaves, as well as a significant decrease in plant height. Additionally, when compared to the PK treatment, the leaf superoxide dismutase and ascorbate peroxidase activities decreased and increased, respectively, with the addition of pig slurry treatments in the disturbed soil at 25 DAE. In general, when compared to the treatments with 20m(3)ha(-1) of pig slurry and PK at fifteen and 25 DAE, the leaf ascorbic acid and non-protein thiol groups concentrations decreased with the addition of 40 and 80m(3)ha(-1) of pig slurry. This result suggests that the excess of Cu and Zn in the pig slurry significantly changed the antioxidant system of the maize plants., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013