Salt stress change chlorophyll fluorescence in mango

Lucena, Cícero Cartaxo de; Siqueira, Dalmo Lopes de; Martínez, Herminia; Cecon, Paulo Roberto

doi:10.1590/s0100-29452012000400034

Cited by 34 publications

(28 citation statements)

References 15 publications

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“…This was found by Cavalcante et al (2010) for guava (Psidium guajava), Lucena et al (2012a) for mango trees (Mangifera indica L.) and Souto et al (2015) for noni (Morinda citrifolia). However, information on the behaviour of jackfruit under water or soil salinity, its germination process or any phenological phase of the plants is also very scarce.…”

Section: Introductionmentioning

confidence: 56%

“…The losses in total dry matter resulting from an increase in salinity of the irrigation water from 0.3 to 4.0 dS m −1 were 42.49%, 51.91% and 54.52%, expressing the same sequence as for the effects on APDM: urea > ammonium sulfate > soil without N. Similar results were also found by Oliveira et al (2010); they concluded that association of saline irrigation water with nitrogen fertilization causes greater inhibition in total dry matter accumulation of plants when compared with soil without nitrogen. The reduction in dry matter of plants grown under saline conditions is mainly attributed to the nutritional imbalance caused by high levels of salts contained in the soil, reducing the absorption of essential nutrients such as potassium, calcium and phosphorus, and increasing the absorption of toxic elements (sodium and chlorine) by plants (CHEN et al, 2010;ELGHARABLY;MARSCHNER;RENGASAMY, 2010;LUCENA et al, 2012a). In these conditions, high doses of fertilizers, including nitrogen fertilizers which also contain salts, increase the salinity of the soil, compromising initial plant growth (CHEN et al, 2010).…”

Section: Resultsmentioning

confidence: 99%

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Biomass and Chloroplast Pigments in Jackfruit Seedlings Under Saline Stress and Nitrogen Fertilization

et al. 2018

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-Irrigation with saline water is a worldwide necessity an excess of salts in water or in soil causes growth inhibition, and negatively affects the productivity of many crops. Application of nitrogen fertilizers may be a way of mitigating the effects of salts on plants. The aim of this study was to evaluate the accumulation of biomass and the chlorophyll pigment content in jackfruit seedlings irrigated with water of increasing salinity level in soil with nitrogen sources. The treatments were distributed in randomized blocks with four replicates and three plants per plot, arranged in a 5 × 3 factorial scheme, related to electrical conductivity levels of the irrigation water of 0.3, 1.0, 2.0, 3.0 and 4.0 dS m −1 , in soil without nitrogen, with ammonium sulfate and with urea, in a split application 60 and 75 days after sowing. An increase in the salinity of the water increased the salinity levels of soil, which was intensified by a dose of 150 mg of N, mainly when applied in the form of ammonium sulfate, inhibiting dry matter production and chlorophyll content in jackfruit seedlings. The greatest reductions in chlorophyll a and b content occurred in jackfruit seedlings irrigated with water of 4.0 dS m −1 conductivity in the soil without nitrogen fertilization. Urea is the most suitable nitrogen source for the production of seedlings under conditions of high salinity.Keywords: Artocarpus heterophyllus L.. Saline stress. Nitrogen fertilization. BIOMASSA E PIGMENTOS CLOROPLASTÍDICOS EM MUDAS DE JAQUEIRA SOB ESTRESSE SALINO E ADUBAÇÃO NITROGENADARESUMO -A irrigação com água salina é uma necessidade mundial e o excesso de sais da água ou do solo, causa inibição no crescimento e no rendimento da grande maioria das plantas cultivadas. Nesse contexto, os fertilizantes nitrogenados podem constituir alternativa para a mitigação dos efeitos dos sais sobre as plantas. Com isso, objetivou-se avaliar o acúmulo de biomassa e o índice de pigmentos clorofiláticos em mudas de jaqueira irrigadas com água de salinidades crescentes no solo com fontes de nitrogênio. Os tratamentos foram distribuídos em blocos casualizados com quatro repetições e com três plantas por parcela, arranjados em fatorial 5 × 3, relativo aos níveis de condutividade elétrica da água de irrigação de 0,3; 1,0; 2,0; 3,0 e 4,0 dS m -1 , no solo sem nitrogênio, com sulfato de amônio e com ureia aplicados parceladamente aos 60 e 75 dias após a semeadura. O aumento da salinidade da água elevou a salinidade do solo, a qual foi intensificada pela dose de 150 mg de N, principalmente quando aplicada na forma de sulfato de amônio, ao ponto de inibir a formação de massa da matéria seca e os teores de clorofila em mudas de jaqueira. As maiores reduções no índice de clorofila a e b foram nas mudas de jaqueira irrigadas com água de 4,0 dS m -1 no solo sem adubação nitrogenada. A ureia é a fonte nitrogenada mais indicada para produção de mudas em condições de elevada salinidade. Palavras-chave:Artocarpus heterophyllus L.. Estresse salino. Adubação nitrogenada.

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Section: Introductionmentioning

confidence: 56%

Section: Resultsmentioning

confidence: 99%

Biomass and Chloroplast Pigments in Jackfruit Seedlings Under Saline Stress and Nitrogen Fertilization

et al. 2018

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“…(Tabela 5), sendo o maior incremento observado no HTR-127, da ordem de 155 fotons. A fluorescência inicial explica a fluorescência quando a quinona, receptora primária de elétrons (QA) do fotossistema II (PSII), está totalmente oxidada e o centro de reação (P680) está aberto, indicando ativação das reações fotoquímicas (Munns & Tester, 2008;Lucena et al, 2012). Pode-se concluir que a salinidade afetou a atividade do fotossitema II dos híbridos nas primeiras 24 horas de submissão à salinidade, indicando o início da percepção do estresse a partir desse momento para todos os genótipos de citros estudados (Tabela 5), o que permite dizer que esta é uma das variáveis recomendadas para avaliação do início do estresse.…”

Section: Resultsunclassified

Mecanismos fisiológicos em híbridos de citros sob estresse salino em cultivo hidropônico

Silva¹,

Brito²,

Sá³

et al. 2014

Rev. bras. eng. agríc. ambient.

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RESUMO Objetivou-se estudar os mecanismos fisiológicos de percepção e tolerância ao estresse salino de híbridos de citros em cultivo hidropônico. O experimento foi realizado em ambiente protegido do Centro de Ciências e Tecnologia Agroalimentar - CCTA, da Universidade Federal de Campina Grande - UFCG, Pombal, PB. Foram avaliados, em blocos casualizados, em esquema fatorial (2x5), dois níveis de salinidade da água de irrigação (0,3 e 4,0 dS m-1) e cinco híbridos recomendados para uso como porta-enxerto [HTR - 069, HTR - 116, HTR - 127, LCR x TR - 001 e TSKC x (LCR x TR) - 040)], com três repetições. Os genótipos foram cultivados em sistema hidropônico adaptado em vasos de Leonard, utilizando solução de Hoagland. O início da aplicação da solução nutritiva com uso de águas salinas ocorreu aos 90 dias após a semeadura, quando se procedeu as avaliações quanto às trocas gasosas e fluorescência do PSII às 0, 24 e 48 horas após aplicação dos tratamentos a fim de determinar o efeito do estresse salino sobre os atributos fisiológicos. A fluorescência inicial, a condutância estomática e a eficiência no uso da água foram as variáveis que mais permitem evidenciar a percepção do estresse neste trabalho. O híbrido TSKC x (LCR x TR) - 040 foi o mais tolerante à salinidade, seguido do híbrido HTR - 069. O híbrido LCR x TR - 001 foi o mais sensível à salinidade, por ter sua atividade do PSII comprometida.

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“…For Freire et al (2014), the reduction in the variable fluorescence of chlorophyll a of the plants evidences that the analyzed abiotic conditions lead to damages in the photosynthetic apparatus, compromising the PSII over the time of exposure to the stress factor of the stress intensity. However, despite the behavior observed in gas exchanges and reduction in the fluorescence levels of plants in the soil treated with sulfur and gypsum, due to the salinity of the soils after the treatment, there was no significant fit for the quantum efficiency of PSII, but the Fv/Fm levels were below 0.75 (Fig 2 D), which denotes damages in the photosynthetic apparatus of the sorghum plants (Baker and Rosenqvst, 2004;Lucena et al, 2012;Santos et al, 2014;Silva et al, 2014).…”

Section: Resultsmentioning

confidence: 89%

Sorghum (Sorghum bicolor) physiology and phytomass in saline-sodic soil treated with amendments and single superphosphate

Sá¹,

Brito²,

Silva³

et al. 2017

Aust J Crop Sci

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This study aimed to evaluate the physiology and phytomass accumulation of sorghum plants, in saline-sodic soil treated with amendments and doses of single superphosphate. The experiment was conducted in the period from January to June 2013, in a greenhouse in the municipality of Pombal, Paraíba, Brazil, using samples of a saline-sodic soil. The experimental design was randomized blocks, in a 2 x 5 factorial scheme, relative to two types of amendments of sodic soil and 5 levels of single superphosphate, with 3 replicates, totaling 30 experimental units. Each plot was represented by two pots with capacity for 2 dm 3 with one plant each. At 30 days after sowing, sorghum plants were evaluated for gas exchanges, chlorophyll a fluorescence and phytomass accumulation. Single superphosphate application positively stimulated the gas exchanges of sorghum plants at the doses of 97.9 mg dm -3 , for the soil treated with gypsum, and 88.1 mg dm -3 , for the soil treated with elemental sulfur. Soil treatment with agricultural gypsum promoted the highest levels of chlorophyll a fluorescence, in comparison to elemental sulfur treatment. Phytomass accumulation was favored by the single superphosphate, with highest accumulation when the dose of 75 mg dm -3 was applied.

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Salt stress change chlorophyll fluorescence in mango

Cited by 34 publications

References 15 publications

Biomass and Chloroplast Pigments in Jackfruit Seedlings Under Saline Stress and Nitrogen Fertilization

Biomass and Chloroplast Pigments in Jackfruit Seedlings Under Saline Stress and Nitrogen Fertilization

Mecanismos fisiológicos em híbridos de citros sob estresse salino em cultivo hidropônico

Sorghum (Sorghum bicolor) physiology and phytomass in saline-sodic soil treated with amendments and single superphosphate

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