This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Abd-Allah, A. S. E., El-Razek, E. A., and Saleh, M. M. S. (2013). Effect of sun-block materials on preventing sunburn injury of Keitt mango fruits. Research Journal of Applied Sciences, 9(1), 567–571.Abd-AllahA. S. E.El-RazekE. A.SalehM. M. S.2013Effect of sun-block materials on preventing sunburn injury of Keitt mango fruits91567571Search in Google Scholar
Barbosa, L. F. S., Cavalcante, Í. H. L., and Lima, A. M. N. (2016). Desordem fisiológica e produtividade de mangueira cv. Palmer associada à nutrição de boro. Revista Brasileira de Fruticultura, 38, 1–9, doi: 10.1590/0100-2945-273/14.BarbosaL. F. S.CavalcanteÍ. H. L.LimaA. M. N.2016Desordem fisiológica e produtividade de mangueira cv. Palmer associada à nutrição de boro381910.1590/0100-2945-273/14Open DOISearch in Google Scholar
Bataglia, O. C., Furlani, A. M. C., Teixeira, J. P. F., and Gallo, J. R. (1983). Métodos de análise química de plantas. Campinas, Brazil: Instituto Agronômico.BatagliaO. C.FurlaniA. M. C.TeixeiraJ. P. F.GalloJ. R.1983Campinas, BrazilInstituto AgronômicoSearch in Google Scholar
Beers, R. F., and Sizer, I. W. (1952). A spectrophotometric method for measuring the breakdown of hydrogen peroxide by catalase. Journal of Biological Chemistry, 195, 133–140, doi: 10.1016/S0021-9258(19)50881-X.BeersR. F.SizerI. W.1952A spectrophotometric method for measuring the breakdown of hydrogen peroxide by catalase19513314010.1016/S0021-9258(19)50881-XOpen DOISearch in Google Scholar
Bhatt, I., and Tripathi, B. N. (2011). Interaction of engineered nanoparticles with various components of the environment and possible strategies for their risk assessment. Chemosphere, 82(3), 308–317, doi: 10.1016/j.chemosphere.2010.10.011.BhattI.TripathiB. N.2011Interaction of engineered nanoparticles with various components of the environment and possible strategies for their risk assessment82330831710.1016/j.chemosphere.2010.10.01120980041Open DOISearch in Google Scholar
Brazilian Program For Horticulture Modernization. (2004). Standards classification of mango. São Paulo, Brazil: Quality Center on Horticulture.Brazilian Program For Horticulture Modernization2004São Paulo, BrazilQuality Center on HorticultureSearch in Google Scholar
Carneiro, M. A., Lima, A. M. N., Cavalcante, Í. H. L., Cunha, J. C., Rodrigues, M. S., and Lessa, T. B. S. (2017). Soil salinity and yield of mango fertigated with potassium sources. Revista Brasileira de Engenharia Agrícola e Ambiental, 21(5), 310–316, doi: 10.1590/1807-1929/agriambi.v21n5p310-316.CarneiroM. A.LimaA. M. N.CavalcanteÍ. H. L.CunhaJ. C.RodriguesM. S.LessaT. B. S.2017Soil salinity and yield of mango fertigated with potassium sources21531031610.1590/1807-1929/agriambi.v21n5p310-316Open DOISearch in Google Scholar
Carvalho, C., Kist, B. B., and Beling, R. R. (2019). Anuário Brasileiro de horti&fruti 2020. Santa Cruz do Sul, Brazil: Editora Gazeta.CarvalhoC.KistB. B.BelingR. R.2019Santa Cruz do Sul, BrazilEditora GazetaSearch in Google Scholar
Cavalcante, Í. H. L., Santos, G. N. F., Silva, M. A., Martins, R. S., Lima, A. M. N., Modesto, P. I. R., Alcobia, A. M., Silva, T. R. S., Araujo E. A. R., and Beckmann-Cavalcante, M. Z. (2018). A new approach to induce mango shoot maturation in Brazilian semi-arid environment. Journal of Applied Botany and Food Quality, 91, 281–286, doi: 10.5073/JABFQ.2018.091.036.CavalcanteÍ. H. L.SantosG. N. F.SilvaM. A.MartinsR. S.LimaA. M. N.ModestoP. I. R.AlcobiaA. M.SilvaT. R. S.AraujoE. A. R.Beckmann-CavalcanteM. Z.2018A new approach to induce mango shoot maturation in Brazilian semi-arid environment9128128610.5073/JABFQ.2018.091.036Open DOISearch in Google Scholar
Cavalcante, Í. H. L., Silva, G. J. N. E., Cavacini, J. A., Amariz, R. A. E., Freitas, S. T., Sousa, K. A. O., Silva, M. A., and Cunha, J. G. (2020). Metconazole on inhibition of gibberellin biosynthesis and flowering management in mango. Erwerbs-Obstbau, 62, 89–95, doi: 10.1007/s10341-019-00466-w.CavalcanteÍ. H. L.SilvaG. J. N. E.CavaciniJ. A.AmarizR. A. E.FreitasS. T.SousaK. A. O.SilvaM. A.CunhaJ. G.2020Metconazole on inhibition of gibberellin biosynthesis and flowering management in mango62899510.1007/s10341-019-00466-wOpen DOISearch in Google Scholar
Costa, E. M., Xavier, T. M. T., Pezzopane, J. E. M., Guimarães, S. O., Neto, A. P. S., and Fonseca, M. D. S. (2018). Effect of leaf sun protector on initial growth of Khaya senegalensis under water deficiency in different microclimatic conditions. Journal of Experimental Agriculture International, 22 (5), 1–7, doi: 10.9734/JEAI/2018/40396.CostaE. M.XavierT. M. T.PezzopaneJ. E. M.GuimarãesS. O.NetoA. P. S.FonsecaM. D. S.2018Effect of leaf sun protector on initial growth of Khaya senegalensis under water deficiency in different microclimatic conditions2251710.9734/JEAI/2018/40396Open DOISearch in Google Scholar
Cunha, J. G., Cavalcante, Í. H. L., Silva, L. S., Silva, M. A., Sousa, K. A. O., and Paiva Neto, V. B. (2022). Algal extract and proline promote physiological changes in mango trees during shoot maturation. Revista Brasileira de Fruticultura, 44, e-854, doi: 10.1590/0100-29452022854.CunhaJ. G.CavalcanteÍ. H. L.SilvaL. S.SilvaM. A.SousaK. A. O.Paiva NetoV. B.2022Algal extract and proline promote physiological changes in mango trees during shoot maturation44e-85410.1590/0100-29452022854Open DOISearch in Google Scholar
Da Cunha, J. G., Cavalcante, Í. H. L., Da Silva, M. A., Amariz, R. A., Do Carmo, R. N., and Lobo, J. T. (2022). Proline and algal extract to alleviate the abiotic stress in mango ‘Tommy Atkins’ in the tropical semiarid. Erwerbs-Obstbau, 64, 115–126, doi: 10.1007/s10341-021-00628-9.Da CunhaJ. G.CavalcanteÍ. H. L.Da SilvaM. A.AmarizR. A.Do CarmoR. N.LoboJ. T.2022Proline and algal extract to alleviate the abiotic stress in mango ‘Tommy Atkins’ in the tropical semiarid6411512610.1007/s10341-021-00628-9Open DOISearch in Google Scholar
Davenport, T. L. (2007). Reproductive physiology of mango. Brazilian Journal of Plant Physiology, 19(4), 363–376, doi: 10.1590/S1677-04202007000400007.DavenportT. L.2007Reproductive physiology of mango19436337610.1590/S1677-04202007000400007Open DOISearch in Google Scholar
Diniz, G. L., Nobre, R. G., Lima, G. S. De, Souza, L. De P., Gheyi, H. R., and Medeiros, M. N. V. de. (2020). Physiological indices and growth of ‘Gigante Amarelo’ passion fruit under salt stress and silicate fertilization. Revista Brasileira de Engenharia Agrícola e Ambiental, 24, 814–821, doi: 10.1590/1807-1929/agriambi.v24n12p814-821.DinizG. L.NobreR. G.LimaG. S. DeSouzaL. De P.GheyiH. R.MedeirosM. N. V. de.2020Physiological indices and growth of ‘Gigante Amarelo’ passion fruit under salt stress and silicate fertilization2481482110.1590/1807-1929/agriambi.v24n12p814-821Open DOISearch in Google Scholar
Dubois, M., Gilles, K. A., Hamilton, J. K., Rebers, P. A., and Smith, F. (1956). Colorimetric method for determination of sugars and related substances. Analytical Chemistry, 28(3), 350–356, doi: 10.1021/ac60111a017.DuboisM.GillesK. A.HamiltonJ. K.RebersP. A.SmithF.1956Colorimetric method for determination of sugars and related substances28335035610.1021/ac60111a017Open DOISearch in Google Scholar
FAOSTAT (2021). Produção mundial de manga. Retrieved from http://faostat3.fao.org/faostat-gateway/go/to/download/Q/QC/E.FAOSTAT2021Retrieved from http://faostat3.fao.org/faostat-gateway/go/to/download/Q/QC/E.Search in Google Scholar
Genú, P. J. C., and Pinto, A. C. Q. (2002). A cultura da mangueira. Brasília, Brazil: Embrapa.GenúP. J. C.PintoA. C. Q.2002Brasília, BrazilEmbrapaSearch in Google Scholar
Hayat, S., Hayat, Q., Alyemeni, M. N., Wani, A. S., Pichtel, J., and Ahmad, A. (2012). Role of proline under changing environments: a review. Plant Signaling and Behavior, 7(11), 1456–1466, doi: 10.4161/psb.21949.HayatS.HayatQ.AlyemeniM. N.WaniA. S.PichtelJ.AhmadA.2012Role of proline under changing environments: a review7111456146610.4161/psb.21949354887122951402Open DOISearch in Google Scholar
Herzog, V., and Fahimi, H. D. (1976). Intracellular distinction between peroxidase and catalase in exocrine cells of rat lacrimal gland: a biochemical and cytochemical study. Histochemistry, 46(4), 273–286, doi: 10.1007/BF02464417.HerzogV.FahimiH. D.1976Intracellular distinction between peroxidase and catalase in exocrine cells of rat lacrimal gland: a biochemical and cytochemical study46427328610.1007/BF024644174418Open DOISearch in Google Scholar
Kanayama, Y., and Kochetov, A. (2015). Abiotic stress biology in horticultural plants. Tokyo, Japan: Springer.KanayamaY.KochetovA.2015Tokyo, JapanSpringer10.1007/978-4-431-55251-2Search in Google Scholar
Kerbauy, G. B. (2004). Fisiologia vegetal. Rio de Janeiro, Brazil: Guanabara Koogan.KerbauyG. B.2004Rio de Janeiro, BrazilGuanabara KooganSearch in Google Scholar
Lobo, J. T., Sousa, K. S. M., Paiva Neto, V. B., Pereira, R. N., Silva, L. S., and Cavalcante, I. H. L. (2019). Biostimulants on fruit yield and quality of mango cv. Kent grown in semiarid. Journal of the American Pomological Society, 73, 152–160.LoboJ. T.SousaK. S. M.Paiva NetoV. B.PereiraR. N.SilvaL. S.CavalcanteI. H. L.2019Biostimulants on fruit yield and quality of mango cv. Kent grown in semiarid73152160Search in Google Scholar
Marijuan, M. P., and Bosch, S. M. (2013). Ecophysiology of invasive plants: osmotic adjustment and antioxidants. Trends Plant Science, 18(12), 660–666, doi: 10.1016/j.tplants.2013.08.006.MarijuanM. P.BoschS. M.2013Ecophysiology of invasive plants: osmotic adjustment and antioxidants181266066610.1016/j.tplants.2013.08.00624001766Open DOISearch in Google Scholar
Mhamdi, A., Noctor, G., and Baker, A. (2012). Plant catalases: peroxisomal redox guardians. Archives of Biochemistry and Biophysics, 525, 181–194, doi: 10.1016/j.abb.2012.04.015.MhamdiA.NoctorG.BakerA.2012Plant catalases: peroxisomal redox guardians52518119410.1016/j.abb.2012.04.01522546508Open DOISearch in Google Scholar
Nakano, Y., and Asada, K. (1981). Hydrogen peroxide is scavenged by ascorbate-specific peroxidase in spinach chloroplasts. Plant Cell Physiology, 22, 867–880, doi: 10.1093/oxfordjournals.pcp.a076232.NakanoY.AsadaK.1981Hydrogen peroxide is scavenged by ascorbate-specific peroxidase in spinach chloroplasts2286788010.1093/oxfordjournals.pcp.a076232Open DOISearch in Google Scholar
Navarro-Morillo, I., Garcia-Sanchez, F., Camara-Zapata, J. M., Navarro-León, E., Izquierdo-Ramos, M. J., Blasco, B., and Ruiz, J. M. (2022). Physiological study of the efficacy of Archer® Eclipse in the protection against sunburn in cucumber plants. Horticulturae, 8, 500, doi: 10.3390/horticulturae8060500.Navarro-MorilloI.Garcia-SanchezF.Camara-ZapataJ. M.Navarro-LeónE.Izquierdo-RamosM. J.BlascoB.RuizJ. M.2022Physiological study of the efficacy of Archer® Eclipse in the protection against sunburn in cucumber plants850010.3390/horticulturae8060500Open DOISearch in Google Scholar
Neves, L. A. S., and Moraes, D. M. (2005). Análise do vigor e da atividade da a-amilase em sementes de cultivares de arroz submetidas a diferentes tratamentos com ácido acético. Revista de Ciências Agroveterinárias, 4(1), 35–43.NevesL. A. S.MoraesD. M.2005Análise do vigor e da atividade da a-amilase em sementes de cultivares de arroz submetidas a diferentes tratamentos com ácido acético413543Search in Google Scholar
Nunes Júnior, F. H., Gondim, F. A., Freitas, V. S., Braga, B. B., Brito, P. O. B., and Martins, K. (2017). Crescimento foliar e atividades das enzimas antioxidativas em plântulas de girassol suplementadas com percolado de aterro sanitário e submetidas a estresse hídrico. Revista Ambiente e Agua, 12(1), 71, doi: 10.4136/ambi-agua.1964.Nunes JúniorF. H.GondimF. A.FreitasV. S.BragaB. B.BritoP. O. B.MartinsK.2017Crescimento foliar e atividades das enzimas antioxidativas em plântulas de girassol suplementadas com percolado de aterro sanitário e submetidas a estresse hídrico1217110.4136/ambi-agua.1964Open DOISearch in Google Scholar
Phavaphutanon, L., and Krisanapook, K. (2000). Changes of total non-structural carbohydrates within shoots of ‘Nam dok mai’ mango after paclobutrazol application. Acta Horticulturae, 509, 559–564, doi: 10.17660/ActaHortic.2000.509.63.PhavaphutanonL.KrisanapookK.2000Changes of total non-structural carbohydrates within shoots of ‘Nam dok mai’ mango after paclobutrazol application50955956410.17660/ActaHortic.2000.509.63Open DOISearch in Google Scholar
Prasad, S. R. S., Reddy, Y. T. N., Upreti, K. K., and Rajeshwara, A. N. (2014). Studies on changes in carbohydrate metabolism in regular bearing and “off” season bearing cultivars of mango (Mangifera indica L.) during flowering. International Journal of Fruit Science, 14(4), 437–459. doi: 10.1080/15538362.2014.897891.PrasadS. R. S.ReddyY. T. N.UpretiK. K.RajeshwaraA. N.2014Studies on changes in carbohydrate metabolism in regular bearing and “off” season bearing cultivars of mango (Mangifera indica L.) during flowering14443745910.1080/15538362.2014.897891Open DOISearch in Google Scholar
Rajput, V. D., Minkina, T., Feizi, M., Kumari, A., Khan, M., Mandzhieva, S., Sushkova, S., El-Ramady, H., Verma, K. K., Singh, A., Hullebusch, E. D. V., Singh, R. K., Jatav, H. S., and Choudhary, R. (2021). Effects of silicon and silicon-based nanoparticles on rhizosphere microbiome, plant stress and growth. Biology, 10, 791, doi: 10.3390/biology10080791.RajputV. D.MinkinaT.FeiziM.KumariA.KhanM.MandzhievaS.SushkovaS.El-RamadyH.VermaK. K.SinghA.HullebuschE. D. V.SinghR. K.JatavH. S.ChoudharyR.2021Effects of silicon and silicon-based nanoparticles on rhizosphere microbiome, plant stress and growth1079110.3390/biology10080791838958434440021Open DOISearch in Google Scholar
Ramirez, F., and Davenport, T. L. (2010). Mango (Mangifera indica L.) flowering physiology. Scientia Horticulturae, 126, 65–72, doi: 10.1016/j.scienta.2010.06.024.RamirezF.DavenportT. L.2010Mango (Mangifera indica L.) flowering physiology126657210.1016/j.scienta.2010.06.024Open DOISearch in Google Scholar
Ruiz, R., Garcia-Luis, A., Monerri, C., and Guardiola, J. L. (2011). Carbohydrate availability in relation to fruitlet abscission in Citrus. Annals of Botany, 87(6), 805–812, doi: 10.1006/anbo.2001.1415.RuizR.Garcia-LuisA.MonerriC.GuardiolaJ. L.2011Carbohydrate availability in relation to fruitlet abscission in Citrus87680581210.1006/anbo.2001.1415Open DOISearch in Google Scholar
Salisbury, F. B., and Ross, C. W. (2013). Fisiologia das Plantas. São Paulo, Brazil: Cengage Lerning.SalisburyF. B.RossC. W.2013São Paulo, BrazilCengage LerningSearch in Google Scholar
Silva, M. A., Cavalcante, Í. H. L., Mudo, L. E. D., Paiva Neto, V. B., Amariz, R. A. E., and Cunha, J. G. (2020). Biostimulant alleviates abiotic stress of mango grown in semiarid environment. Revista Brasileira de Engenharia Agricola e Ambiental, 24(7), 457–464, doi: 10.1590/1807-1929/agriambi.v24n7p457-464.SilvaM. A.CavalcanteÍ. H. L.MudoL. E. D.Paiva NetoV. B.AmarizR. A. E.CunhaJ. G.2020Biostimulant alleviates abiotic stress of mango grown in semiarid environment24745746410.1590/1807-1929/agriambi.v24n7p457-464Open DOISearch in Google Scholar
Silva, L. S., Sousa, K. A. O., Pereira, E. C. V., Rolim, L. A., Cunha, J. G., Oliveira, M. P., Silva, M. A., and Cavalcante, Í. H. L. (2021). Advances in mango Keitt’ production system: PBZ interaction with fulvic acids and free amino acids. Scientia Horticulturae, 277, 109787, doi: 10.1016/j.scienta.2020.109787.SilvaL. S.SousaK. A. O.PereiraE. C. V.RolimL. A.CunhaJ. G.OliveiraM. P.SilvaM. A.CavalcanteÍ. H. L.2021Advances in mango Keitt’ production system: PBZ interaction with fulvic acids and free amino acids27710978710.1016/j.scienta.2020.109787Open DOISearch in Google Scholar
Tripathi, D. K., Singh, V. P., Chauhan, D. K., Sharma, S., Prasad, S. M., Dubey, N. K., and Ramawat, N. (2020). Plant life under changing environment: responses and management. New York, USA: Academic Press.TripathiD. K.SinghV. P.ChauhanD. K.SharmaS.PrasadS. M.DubeyN. K.RamawatN.2020New York, USAAcademic PressSearch in Google Scholar
Urban, L., Lu, P., and Thibaud, R. (2004). Inhibitory effect of flowering and early fruit growth leaf photosynthesis in mango. Tree Physiology, 24, 387–399, doi: 10.1093/treephys/24.4.387.UrbanL.LuP.ThibaudR.2004Inhibitory effect of flowering and early fruit growth leaf photosynthesis in mango2438739910.1093/treephys/24.4.38714757578Open DOISearch in Google Scholar