Your search keyword '"da Rosa Feijó, Anderson"' showing total 3 results

1. Rising atmospheric CO2 concentration affect weedy rice growth, seed shattering and seedbank longevity.

Author

Balbinot, Andrisa, da Rosa Feijó, Anderson, Fipke, Marcus Vinicius, Gehrke, Vinicios Rafael, Agostinetto, Dirceu, Kruse, Nelson Diehl, Ziska, Lewis Hans, Camargo, Edinalvo Rabaioli, and de Avila, Luis Antonio

Subjects

SEED dormancy, LONGEVITY, RICE, SEEDS, CLIMATE change, PADDY fields, WATER management

Abstract

Weedy rice (Oryza sp.) is one of the most troublesome global weeds in cultivated rice. Its troublesome status is associated with characteristics such as seed shattering and dormancy, allowing for long‐term reinfestation and persistence in rice fields. However, the role of rising carbon dioxide levels (CO2) and other climate variables on these characteristics has not, to date, been assessed. The current research objectives were to evaluate two aspects related to climatic change, increased CO2 concentration (400 ± 50 μmol mol−1 and 700 ± 50 μmol mol−1) and water management (continuous and alternate‐wetting drying), to assess plant development, seed shattering and seedbank longevity of weedy rice. Our results indicated that elevated CO2 (700 ± 50 μmol mol−1) increased weedy rice growth and biomass, seed shattering and lengthened viability within the seedbank. Water management did not affect weedy rice growth, seed shattering and seed dormancy. These results suggest that in areas where weedy rice is dominant, its seed bank persistence and potential competition may be exacerbated with rising CO2 levels, with negative consequences for rice production. [ABSTRACT FROM AUTHOR]

Published

2022

2. Transgenerational Effect of Drought Stress and Sub-Lethal Doses of Quizalofop-p-ethyl: Decreasing Sensitivity to Herbicide and Biochemical Adjustment in Eragrostis plana.

Author

Fipke, Marcus Vinícius, da Rosa Feijó, Anderson, Garcia, Natália Silva, Heck, Tamara, Viana, Vívian Ebeling, Dayan, Franck Emmanuel, Agostinetto, Dirceu, Pinto Lamego, Fabiane, Souza, Gustavo Maia, Camargo, Edinalvo Rabaioli, and de Avila, Luis Antonio

Subjects

DROUGHT management, HERBICIDES, DROUGHTS, HYDROGEN peroxide, CHROMATOGRAPHIC analysis, ABIOTIC stress, STOMATA

Abstract

(1) Background: Eragrostis plana Ness is a invasive C4 perennial grass in South America and very adaptable to environmental stresses. Our hypothesis is that there is a transgenerational cross-talk between environmental stresses and weed response to herbicides. This study's objectives were to: (1) evaluate if E. plana primed by drought stress (DRY), a sub-lethal dose of quizalofop-p-ethyl (QPE), or a combination of both drought and herbicide stresses (DRY × QPE), produce a progeny with decreased sensitivity to quizalofop and (2) investigate the potential mechanisms involved in this adaptation; (2) Methods: A population of E. plana was isolatedly submitted to treatments for drought, quizalofop or drought plus quizalofop for two generations. The progenies were analyzed for sensitivity to the herbicide quizalofop and performed biochemical, chromatographic and molecular analyses.; (3) Results: In the G2 generation, the quizalofop-treated CHK population had reduced stomatal conductance and increased hydrogen peroxide and lipid peroxidation. On the other hand, there was no change in stomatal conductance, hydrogen peroxide level, and lipid peroxidation in the quizalofop-treated DRY population. In addition, this population had increased antioxidant enzyme activity and upregulated CYP72A31 and CYP81A12 expression, which was accompanied by reduced quizalofop-p-ethyl concentrations; (4) Conclusions: E. plana demonstrated a capacity for transgenerational adaptation to abiotic stresses, with the population exposed to drought stress (DRY) becoming less sensitive to quizalofop-p-ethyl treatment. [ABSTRACT FROM AUTHOR]

Published

2022

3. Effects of Elevated Atmospheric CO 2 Concentration and Water Regime on Rice Yield, Water Use Efficiency, and Arsenic and Cadmium Accumulation in Grain.

Author

Balbinot, Andrisa, da Rosa Feijó, Anderson, Fipke, Marcus Vinicius, Rockenbach, Dalvane, Massey, Joseph Harry, Camargo, Edinalvo Rabaioli, Mesko, Marcia Foster, Scaglioni, Priscila Tessmer, and de Avila, Luis Antonio

Subjects

ATMOSPHERIC carbon dioxide, WATER efficiency, WILD rice, WATER levels, ARSENIC

Abstract

(1) Background: Elevated atmospheric CO2 concentration affects the growth and development of the rice crop. In Southern Brazil, rice is traditionally produced with continuous irrigation, implying a significant amount of water used. Besides, continuous flooding favors the uptake of toxic elements such as arsenic (As) and cadmium (Cd). In this work, one Brazilian rice cultivar (IRGA 424) was tested for the effects of elevated CO2 concentration and different water regimes on rice yield, and As and Cd accumulation in grain. (2) Methods: Rice was grown in two CO2 concentrations (400 and 700 µmol mol−1) and two irrigation regimes (continuous and intermittent). It was evaluated the number of tillers, plant height, aboveground dry weight (ADW), water use efficiency (WUE), rice yield components, and As and Cd concentration in rice grain. (3) Results: Rice plants were taller and had a higher WUE when cultivated at e[CO2]. The ADW and the rice yield component were not affected by CO2 levels nor water regimes. Intermittent flood regimes had a lower average As concentration. The Cd concentration in the samples in both growing seasons and all treatments was below the limit of quantitation (8.76 μg kg−1). (4) Conclusions: Enhanced CO2 concentration did not affect rice yield, increased the WUE, and reduced As concentration in grains. Regarding water management, the intermittent regime enhanced WUE and promoted a reduction in As concentration in grains. [ABSTRACT FROM AUTHOR]

Published

2021