CATIONIC NATURE OF WATER AND HYDROGEN PEROXIDE ON THE FORMATION OF PASSION FRUIT SEEDLINGS
DOI:
https://doi.org/10.1590/1983-21252021v34n418rcKeywords:
Passiflora edulis Sims. Salt stress. Acclimatization.Abstract
This study was carried out with the objective of evaluating the water relations, photosynthetic pigments and growth of passion fruit cv. BRS Rubi do Cerrado, as a function of the cationic nature of irrigation water and exogenous application of hydrogen peroxide. The experiment was carried out under greenhouse conditions in Pombal – PB, Brazil. The experimental design was randomized blocks, in a 6 × 4 factorial scheme, corresponding to six cationic nature of water - CNW (S1 - Control; S2 - Na+; S3 - Ca2+; S4 - Na++Ca2+; S5 - Mg2+ and S6 - Na++Ca2++Mg2+) and four concentrations of hydrogen peroxide - H2O2 (0, 20, 40 and 60 μM), distributed in a randomized block design with four replicates. Plants in the control treatment (S1) were irrigated using water with electrical conductivity (ECw) of 0.3 dS m-1, while those of the other treatments (S2; S3; S4; S5 and S6) were subjected to ECw of 3.0 dS m-1, prepared with different cation(s). Application of 60 μM of H2O2 reduced the percentage of intercellular electrolyte leakage in plants irrigated with water of calcic composition. Salinity of water composed of sodium, sodium+calcium and sodium+calcium+magnesium, and H2O2 concentrations of 40 and 60 μM resulted in lower leaf water potential. The biomass accumulation of passion fruit was more sensitive to the variation of the electrical conductivity of the water. Regardless of the cationic nature, the use of water with electrical conductivity of 3.0 dS m-1 produced passion fruit seedlings with a Dickson quality index higher than 0.2, considered acceptable.
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ABDALLAH, M. M. S.; ABDELGAWAD, Z. A.; EL-BASSIOUNY, H. M. S. Alleviation of the adverse effects of salinity stress using trehalose in two rice varieties. South African Journal of Botany, 103: 275-282, 2016.
AHANGER, M. A. et al. Plant growth under water/salt stress: ROS production; antioxidants and significance of added potassium under such conditions. Physiology and Molecular Biology of Plants, 23: 731-744, 2017.
ARNON, D. I. Copper enzymes in isolated cloroplasts: Polyphenoloxidases in Beta vulgaris. Plant Physiology, 24: 1-15, 1949.
BRANDÃO, T. M. et al. Effects of thermal process in bioactive compounds of mixed Brazilian Cerrado fruit jam. Food Science and Technology, 19: 1-8, 2020.
CARRASCO-RÍOS, L.; PINTO, M. Effect of salt stress on antioxidant enzymes and lipid peroxidation in leaves in two contrasting corn, ‘Lluteño’ and ‘Jubilee’. Chilean Journal of Agricultural Research, 74: 89-95, 2014.
CAVERZAN, A.; CASASSOLA, A.; BRAMMER, S. P. Antioxidant responses of wheat plants under stress. Genetics and Molecular Biology, 39: 1-6, 2016.
DICKSON, A.; LEAF, A. L.; HOSNER, J. F. Quality appraisal of white spruce and white pine seedling stock in nurseries. The Forest Chronicle, 36: 10-13, 1960.
DUARTE, H. H. F.; SOUZA, E. R. de. Soil water potentials and Capsicum annuum L. under salinity. Revista Brasileira de Ciência do Solo, 40: e0150220, 2016.
EMBRAPA - Empresa Brasileira de Pesquisa Agropecuária. BRS Rubi do Cerrado: Hibrido de maracujazeiro-azedo de frutos avermelhados e amarelos para indústria e mesa. 2 ed. Brasília, DF: EMBRAPA CERRADO, 2012. 2 p.
FERREIRA, D. F. SISVAR: A computer analysis system to fixed effects split plot type designs. Revista Brasileira de Biometria, 37: 529-535, 2019.
GUPTA, S. et al. Alleviation of salinity stress in plants by endophytic plant-fungal symbiosis: Current knowledge, perspectives and future directions. Plant and Soil, 461: 219-244, 2021.
HNILIČKOVÁ, H. et al. Effects of salt stress on water status, photosynthesis and chlorophyll fluorescence of rocket. Plant, Soil and Environment, 63: 362-367, 2017.
IBGE - Instituto Brasileiro de Geografia e Estatística. Produção agrícola: Lavoura permanente. 2019. Disponível em: < https://sidra.ibge.gov.br/tabela/5457>. Acesso em: 25 mai. 2021.
LIMA, G. S. et al. Effects of saline water and potassium fertilization on photosynthetic pigments, growth and production of West Indian cherry. Revista Ambiente & Água, 13: e2164, 2018.
LIMA, G. S. et al. Cell damage, water status and gas exchanges in castor bean as affected by cationic composition of water. Revista Caatinga, 32: 482-492, 2019.
LIMA, G. S. et al. Gas exchange, chloroplast pigments and growth of passion fruit cultivated with saline water and potassium fertilization. Revista Caatinga, 33: 184-194, 2020b.
LIMA, G. S. et al. Water status, cell damage and gas exchanges in West Indian cherry (Malpighia emarginata) under salt stress and nitrogen fertilization. Australian Journal of Crop Science, 14: 319-324, 2020a.
NOVAIS, R. F., NEVES, J. C. L., BARROS, N. F. Ensaio em ambiente controlado. In: OLIVEIRA, A. J. et al. (eds.) Métodos de pesquisa em fertilidade do solo. Brasília, DF: Embrapa-SEA, 1991. v. 3, cap. 12, p. 189-253.
OLIVEIRA, F. T. et al. Fontes orgânicas e volumes de recipiente no crescimento inicial de porta-enxertos de goiabeira. Revista Verde de Agroecologia e Desenvolvimento Sustentável, 7: 97-103, 2013.
RHEIN, A. F. L. et al. Crescimento radicular e pigmentos clorofilianos em duas forrageiras submetidas a níveis crescentes de NaCl. Científica, 43: 330-335, 2015.
RICHARDS, L. A. Diagnosis and improvement of saline and alkali soils. Washington: U.S, Department of Agriculture. 1954. 160 p.
SÁ, F. V. S. et al. Initial development and tolerance of pepper species to salinity stress. Revista Caatinga, 32: 826-833, 2019.
SADDHE, A. A. et al. Reactive nitrogen species: paradigms of cellular signaling and regulation of salt stress in plants. Environmental and Experimental Botany, 161: 86-97, 2018.
SANTOS, V. A. dos et al. Produção e qualidade de frutos de maracujazeiro-amarelo provenientes do cultivo com mudas em diferentes idades. Revista de Ciências Agroveterinárias, 16: 33-40, 2017.
SCOTTI-CAMPOS, P. et al. Physiological responses and membrane integrity in three Vigna genotypes with contrasting drought tolerance. Emirates Journal of Food and Agriculture, 25: 1002-1013, 2013.
SILVA, A. A. R. da et al. Induction of tolerance to salt stress in soursop seedlings using hydrogen peroxide. Comunicata Scientiae, 10: 484-490, 2019a.
SILVA, A. A. R. da et al. Salt stress and exogenous application of hydrogen peroxide on photosynthetic parameters of soursop. Revista Brasileira de Engenharia Agrícola e Ambiental, 23: 257-263, 2019b.
SILVA, P. C. C. et al. Salt-tolerance induced by leaf spraying with H2O2 in sunflower is related to the ion homeostasis balance and reduction of oxidative damage. Heliyon, 6:e05008, 2020.
SILVA JUNIOR, G. S. et al. Crescimento de genótipos diplóides de bananeira submetidos ao estresse salino. Revista Brasileira de Engenharia Agrícola e Ambiental, 16: 1145-1151, 2012.
SMIRNOFF, N.; ARNAUD, D. Hydrogen peroxide metabolism and functions in plants. New Phytologist, 221: 1197-1214, 2019.
SOUZA, L. P. et al. Produção de porta-enxerto de goiabeira cultivado com águas de diferentes salinidades e doses de nitrogênio. Revista Ciência Agronômica, 48: 596-604, 2017.
TEIXEIRA, P. C. et al. Manual de métodos de análise de solo. 3. ed. Brasília, DF: Embrapa, 2017. 573 p.
TERZI, R. et al. Hydrogen peroxide pretreatment induces osmotic stress tolerance by influencing osmolyte and abscisic acid levels in maize leaves. Journal of Plant Interaction, 9: 559 - 565, 2014.
TURNER, N. C. Techniques and experimental approaches for the measurement of plant water status. Plant and Soil, 58: 339-366, 1981.
VELOSO, L. L. S. A. et al. Effects of saline water and exogenous application of hydrogen peroxide (H2O2) on soursop (Annona muricata L.) at vegetative stage. Australian Journal of Crop Science, 13: 472-479, 2019.
VELOSO, L. L. S. A. et al. Quality of soursop (Annona muricata L.) seedlings under different water salinity levels and nitrogen fertilization. Australian Journal of Crop Science, 12: 306-310, 2018.
ZACHARIAS, A. O.; FALEIRO, F. G.; ALMEIDA, G. Q. de. Producers profile and the adoption of technologies in passion fruit cultivation in the Triângulo Mineiro region. Revista Brasileira de Fruticultura, 42: e-058, 2020.
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