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2. Maize Morphophysiological Changes Modulated by Cover Crops Rotation in Northeast Brazil.

Author

Souza, José Wilker Germano de, Luz, João Henrique Silva da, Silva, Dayane Mércia Ribeiro, Silva, Ricardo Barros, Costa, Bruno Richardson dos Santos, Melo, Alan Fontes, Santos, Hugo Rodrigues dos, Marques, Isabelly Cristina da Silva, Sousa, Jadielson Inácio de, Vanderley, Mariana Bernardino, Barbosa, Luana do Nascimento Silva, Farias, Maria Raquel da Silva, Farias, Emerson dos Santos Ferreira, Paulino, Sivaldo Soares, Santos Neto, Antônio Lucrécio dos, Pavinato, Paulo Sergio, Silva, José Vieira, and Santos, Valdevan Rosendo dos

Subjects
SUSTAINABLE agriculture, PIGEON pea, CORN, WATER efficiency, CROP rotation, COVER crops
Abstract

Cover crops have gained attention due to their potential benefits for the soil and physiological performance of subsequent crops. This study aimed to evaluate the physiological and productive aspects of maize grown in succession to cover crops in northeastern Brazil. A randomized complete block design with four repetitions was employed, in which the treatments consisted of the following cover crops: sunn hemp, spectabilis, pigeon pea, Brachiaria sp., jack bean, millet, and fallow. Physiological aspects and production components of maize were evaluated at the tasseling (VT) and smooth grain (R3) phenological stages. Millet cover increased carotenoid content in maize leaves by up to 78% at R3. Maize grown after pigeon pea, millet, and Brachiaria sp. showed up to 42% greater CO2 assimilation efficiency compared to jack bean. Carboxylation efficiency increased by up to 34% in maize grown after millet and Brachiaria sp., while water use efficiency improved by up to 76% in maize after sunn hemp and pigeon pea at R3. Sunn hemp, spectabilis, and jack bean reduced soil temperature by 2 °C compared to fallow. The highest maize yield was observed after jack bean, with an 8% increase over fallow. These findings demonstrate the benefits of incorporating cover crops into maize cultivation systems in the semi-arid region of Brazil. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Application of Plant Growth Regulators Mitigates Water Stress in Basil.

Author

Silva, Dayane Mércia Ribeiro, Marques, Isabelly Cristina da Silva, Carvalho, Beatriz Lívero, Aires, Eduardo Santana, Freitas Júnior, Francisco Gilvan Borges Ferreira, Vargens, Fernanda Nery, Santos, Vinicius Alexandre Ávila dos, Luz, João Henrique Silva da, Souza, José Wilker Germano de, Oliveira Galdino, Wesley de, Sousa, Jadielson Inácio de, Melo, Alan Fontes, Silva, Ricardo Barros, Barbosa, Luana do Nascimento Silva, Silva, José Vieira, Santos, Valdevan Rosendo dos, Góis, Maria Gleide Jane Lima de, Paulino, Sivaldo Soares, Ono, Elizabeth Orika, and Rodrigues, João Domingos

Subjects
PLANT regulators, CHLOROPHYLL spectra, FACTORIAL experiment designs, PLANT-water relationships, FACTORS of production, BASIL
Abstract

Abiotic stresses, such as water limitation, are significant limiting factors in basil production. One alternative to mitigate the harmful effects of this stress on plants is using plant growth regulators. This study's objective is to evaluate different doses of plant regulators in basil under water deficiency conditions. A randomized block experimental design in a factorial scheme with two factors was used: the first factor referred to the water regimes of 50% and 100% stomatal conductance, the second to different doses of the plant regulator mixture: 0 mL L−1 (control), 3 mL L−1, 6 mL L−1, 9 mL L−1, and 12 mL L−1. Each treatment consisted of 12 pots per repetition. Biometric parameters, chlorophyll a fluorescence, and gas exchange were analyzed. The plant regulator positively influenced basil plants under water deficiency, with the most pronounced effects observed at the 12 mL L−1 dose: a 17% increase in the number of leaves, a fourfold increase in CO2 assimilation and carboxylation efficiency, and a sevenfold increase in water use efficiency. Therefore, the application of plant regulators on basil is recommended to mitigate the negative effects of water stress, with the most significant results observed at a dose of 12 mL L−1. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Impact of Photosynthetic Efficiency on Watermelon Cultivation in the Face of Drought.

Author

Silva, Dayane Mércia Ribeiro, Barros, Allan Cunha, Silva, Ricardo Barros, Galdino, Wesley de Oliveira, Souza, José Wilker Germano de, Marques, Isabelly Cristina da Silva, Sousa, Jadielson Inácio de, Lira, Viviane da Silva, Melo, Alan Fontes, Abreu, Lucas da Silva de, Albuquerque Júnior, Elias de Oliveira, Barbosa, Luana do Nascimento Silva, Santos Neto, Antônio Lucrécio dos, Santos, Valdevan Rosendo dos, Freitas Júnior, Francisco Gilvan Borges Ferreira, Vargens, Fernanda Nery, Luz, João Henrique Silva da, Ono, Elizabeth Orika, and Rodrigues, João Domingos

Subjects
WATER efficiency, DROUGHTS, LEAF temperature, ARID regions, WATERMELONS, WATER supply
Abstract

Water availability is a limiting factor for plant production, especially in Brazilian semi-arid regions. The main aim of the study was to investigate the physiological effects of drought during the fruiting stage of watermelon cultivation. A completely randomized block design with four replications and six treatments varied by the number of lateral drip tapes (1 or 2) and the duration of drought stress (0, 4, and 8 days) was used. The following parameters were evaluated: relative chlorophyll content, relative leaf water content, electrolyte leakage, CO2 assimilation (A), stomatal conductance (gs), internal CO2 concentration, leaf temperature, transpiration (E), water use efficiency (WUE), carboxylation efficiency (CE), yield, thickness, diameter, length, and fruit °brix, at 4 and 8 days of drought. Drought negatively affected photosynthesis, particularly in treatments with a single dripper and 4 days of drought, resulting in reductions of up to 60% in A, 68% in gs, 44% in E, 58% in WUE, and 59% in CE, but did not have a significant effect on watermelon yield after 4 or 8 days of irrigation. It was concluded that drought influences the physiological responses of watermelon plants, mainly in reducing photosynthesis, but does not drastically affect fruit productivity in short periods of stress. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Nitric Oxide Modulates Salt Stress Tolerance in Lettuce.

Author

Marques, Isabelly Cristina da Silva, Silva, Dayane Mércia Ribeiro, Bispo, Geane Lourenço, Oliveira, Francisco de Assis de, Ono, Elizabeth Orika, and Rodrigues, João Domingos

Subjects
*NITRIC oxide, *LETTUCE, *EFFECT of salts on plants, *SODIUM nitroferricyanide, *GAS exchange in plants
Abstract

Crops are constantly threatened by salinity. Nitric oxide (NO) is an attenuating agent for salt stress; however, the specific roles of NO in gas exchange and lettuce production are not well established. The objective of this study was to evaluate the application of different concentrations of sodium nitroprusside (SNP) as an agent to mitigate salt stress in lettuce plants. Lettuce seedlings in pots were subjected to irrigation without and with saline water (0.2 and 3.5 dS m−1) and applications of different concentrations (0, 50, 100, 150, and 200 µM) of SNP, a NO donor. Saline stress negatively affected lettuce development with a reduction of 29.5% in leaf area, 6.3% in relative water content in the leaf, 17.2% in stem diameter, and 10.7% in dry matter mass in the control, but the application of SNP mitigated the deleterious effects of salt stress. Concentrations between 100 and 150 µM of SNP improved the photosynthetic metabolism of lettuce under salinity, with an increase of 46.7% in CO2 assimilation and 42.3% in fresh matter mass. Pearson's correlation showed that fresh matter correlated positively with CO2 assimilation. Therefore, SNP can be used to mitigate salt stress in lettuce. [ABSTRACT FROM AUTHOR]

Published
2023
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7. Application of Strobilurins and Carboxamides Improves the Physiology and Productivity of Tomato Plants in a Protected Environment.

Author

Jacobelis Jr., Walter, Aires, Eduardo Santana, Ferraz, Andrew Kim Lopes, Marques, Isabelly Cristina da Silva, Freitas Jr., Francisco Gilvan Borges Ferreira, Silva, Dayane Mércia Ribeiro, Ono, Elizabeth Orika, and Rodrigues, João Domingos

Subjects
FUNGICIDES, PLANT productivity, STROBILURINS, CARBOXAMIDES, NITRATE reductase, PHOTOSYNTHETIC pigments
Abstract

The use of fungicides from the strobilurin and carboxamide groups demonstrates an effect on photosynthetic efficiency by increasing CO2 assimilation and, consequently, plant productivity, due to better a physiological performance. The objective was to evaluate the effect of the application of these fungicides on the physiology and yield of tomato plants. A randomized block design was used with six treatments and five blocks: control, azoxystrobin (75 g ha−1), boscalid (75 g ha−1), pyraclostrobin (75 g ha−1), fluxapyroxad (75 g ha−1) and fluxapyroxad + pyraclostrobin (50.1 g and 99.9 g ha−1). Different physiological, biochemical and antioxidant enzymatic parameters were evaluated. The application of fungicides increased the CO2 assimilation by 64% and the production per plant by 91%. The activity of the nitrate reductase enzyme increased by 1.69 times, the antioxidant system by 3.68 times and photosynthetic pigments by 1.16 times under the action of the studied fungicides with respect to the control. Therefore, the application of fungicides favored the development of the tomato plant, especially with the use of Pyraclostrobin (75 g ha−1). [ABSTRACT FROM AUTHOR]

Published
2023
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