Fertigated cultivation of mini watermelon subjected to salinity levels and foliar application of silicon
DOI:
https://doi.org/10.1590/1983-21252023v36n221rcKeywords:
Citrullus lanatus. Protected environment. Salt stress. Beneficial element.Abstract
The application of silicon (Si) represents one of the alternatives that can be used to mitigate the deleterious effects caused by salinity on plants in fertigated cultivation. The objective was to evaluate the effect of different levels of water salinity, associated with the use of sodium silicate on the production parameters and nutrient levels in the leaf and stem of mini watermelon in a protected environment. To conduct the experiment, a randomized block design was adopted, in a 6 x 2 factorial scheme, with 4 repetitions, with six levels of irrigation water salinity (1.05; 2.12; 3.26; 4.41; 5.91 and 7.32 dS m-1) and two types of Si application: without Si and in foliar solution. The following parameters were evaluated: plant height, stem diameter, number of leaves, leaf and stem fresh and dry mass; biometric variables and total soluble solids content in the fruits; and nutrient contents in leaves and stem. The use of Si associated with fertigation with different salinity levels promoted a positive response for peel thickness, ºBrix, fresh and dry mass of leaves, and Si accumulation in leaves and stem. Salinity alone promoted an increase in pulp weight, ºBrix of the fruits and potassium content in the stem, besides increasing the manganese content and inhibiting the zinc content in the leaves. There was a significant interaction for the manganese content in the stem, with a positive response in the absence of foliar-applied Si and a negative response in the presence of foliar-applied Si under different levels of salinity.
Downloads
References
ABE, J. U. N. Silicon Deposition in Leaf Trichomes of Cucurbitaceae Horticultural Plants: A Short Report. American Journal of Plant Sciences, 10: 486-490, 2019.
AZAD, N. et al. Corrigendum to developing an optimization model in drip fertigation management to consider environmental issues and supply plant requirements. Agricultural Water Management, 208: 344–356, 2018.
BARRETO, R. F. et al. Accompanying ions of ammonium sources and nitrate: ammonium ratios in tomato plants. Acta Agriculturae Scandinavica, Section B - Soil and Plant Science, 181: 1-6, 2018.
BEZERRA, F. M. L. et al. Aspectos produtivos da melancieira sob irrigação com déficit e diferentes coberturas utilizando o modelo isareg. Revista Caatinga, 30: 437-446, 2017.
COSTAN, A. et al. Interactive effects of salinity and silicon application on Solanum lycopersicum growth, physiology and shelf-life of fruit produced hydroponically. Journal of the Science of Food and Agriculture, 100: 732-743, 2020.
DUARTE, H. H. F.; SOUZA, E. R. Soil water potentials and Capsicum annuum L. under salinity. Revista Brasileira de Ciencia do Solo, 40: 1-11, 2016.
FÁTIMA, R. T. et al. Adubação silicatada como atenuante do estresse hídrico no crescimento e trocas gasosas do alface. Revista Engenharia na Agricultura, 27: 170-178, 2019.
FERREIRA, D. F. Sisvar: a computer statistical analysis system. Ciência e Agrotecnologia, 35: 1039-1042, 2011.
INMET - Instituto Nacional de Meteorologia. Estação meteorológica A326 de Bom Jesus, PI. 2019. Disponível em: http://www.inmet.gov.br/sonabra/pg_dspDadosCodigo_sim.php?QTMyNg. Acesso em: 19 Jun. 2020.
ISLAM, W. et al. Silicon-mediated plant defense against pathogens and insect pests. Pesticide Biochemistry and Physiology, 168: 1-21, 2020.
MA, J. F.; TAKAHASHI, E. The effect of silicic acid on rice in a P deficient soil. Plant Soil, 126: 121-125, 1990.
MA, J. F. Role of Silicon in Enhancing the Resistance of Plants to Biotic and Abiotic Stresses. Soil Science and Plant Nutrition, 50: 11-18, 2004.
MANTOVANI, C.; PRADO, R. M.; PIVETTA, K. F. L. Silicon foliar application on nutrition and growth of Phalaenopsis and Dendrobium orchids. Scientia Horticulturae, 241: 83-92, 2018.
MEDEIROS, R. D.; ALVES, A. B. Informações técnicas para o cultivo de melancia em Roraima. Boa Vista, RR: Embrapa, 2016. 48 p.
MELO FILHO, J. S. et al. Effect of preharvest application of silicon and saline water on postharvest quality of beet (Beta vulgaris L.). Journal of Experimental Agriculture International, 32: 1-9, 2019.
MORAES, C. A. G. Hidroponia: como cultivar tomates em sistema NFT (técnica de fluxo laminar de nutrientes). 1. ed. Jundiaí, SP: DISK, 1997. 141 p.
NASCIMENTO, C. W. A. et al. Influence of silicon fertilization on nutrient accumulation, yield and fruit quality of melon grown in northeastern Brazil. Silicon, 12: 937-943, 2019.
ONODERA, M. et al. Regulation of root-to-leaf Na and Cl transport and its association with photosynthetic activity in salt-tolerant soybean genotypes. Journal Plant Production Science, 22: 262-274, 2019.
RAJENDRAN, M.; IRENE, A. Efficient nutrient management through fertigation. In: GOYAL, M. R.; ALADAKATTI, B. K. (Eds). Engineering interventions in sustainable trickle irrigation: water requirements, uniformity, fertigation, and crop performance. Waretown, NJ: Apple Academic Press, 2018. v. 8, p. 101-117.
REYNOLDS, W. D. et al. Solute dynamics and the Ontario nitrogen index: II. Nitrate leaching. Canadian Journal of Soil Science, 96: 122-135, 2016.
RIOS, J. J. et al. Silicon-mediated improvement in plant salinity tolerance: the role of aquaporins. Frontiers in Plant Science, 8: 1-11, 2017.
SANTOS, L. J. D. S. S. et al. Efeito da salinidade na produção de mudas de pimentão. Brazilian Journal of Development, 6: 29354-29363, 2020.
SHARMA, P. N.; KUMAR, P.; TEWARI, R. K. Early signs of oxidative stress in wheat plants subjected to zinc deficiency. Journal of Plant Nutrition, 27: 451-463, 2004.
SIDDIQUI, H. et al. 24-Epibrassinolide supplemented with silicon enhances the photosynthetic efficiency of Brassica juncea under salt stress. South African Journal of Botany, 118: 120-128, 2018.
SILVA JÚNIOR, E. G. et al. Vegetative development and content of calcium, potassium, and sodium in watermelon under salinity stress on organic substrates. Pesquisa Agropecuária Brasileira, 52: 1149-1157, 2017.
SOLEIMANNEJAD, Z.; ABDOLZADEH, A.; SADEGHIPOUR, H. R. Beneficial effects of silicon application in alleviating salinity stress in halophytic Puccinellia distans plants. Silicon, 11: 1001-1010, 2019.
SOUSA, A. B. O. et al. Production and quality of mini watermelon cv. Smile irrigated with saline water. Revista Brasileira de Engenharia Agrícola e Ambiental, 20: 897-902, 2016.
SOUSA, A. E. C. et al. Teores de nutrientes foliares e respostas fisiológicas em pinhão manso submetido a estresse salino e adubação fosfatada. Revista Caatinga, 25: 144-152, 2012.
TORRES, F. E. et al. Interação genótipo x ambiente em genótipos de feijão-caupi semiprostrado via modelos mistos. Bragantia, 74: 255-260, 2015.
VACULÍKOVÁ, M. et al. Influence of silicon on maize roots exposed to antimony e growth and antioxidative response. Plant Physiological and Biochemistry, 83: 279-284, 2014.
YAGHUBI, K. et al. Potassium silicate improves salinity resistant and affects fruit quality in two strawberry cultivars grown under salt stress. Communications in Soil Science and Plant Analysis, 50: 1439-1451, 2019.
WANG, H. et al. Optimal drip fertigation management improves yield, quality, water and nitrogen use efficiency of greenhouse cucumber. Scientia Horticulturae, 243: 357-366, 2019.
ZUSHI, K.; MATSUZOE, N. Using of chlorophyll, a fluorescence OJIP transient for sensing salt stress in the leaves and fruits of tomato. Scientia Horticulturae, 219: 216-221, 2017.
Downloads
Published
Issue
Section
License
Os Autores que publicam na Revista Caatinga concordam com os seguintes termos:
a) Os Autores mantêm os direitos autorais e concedem à revista o direito de primeira publicação, com o trabalho simultaneamente licenciado sob a Licença Creative Commons do tipo atribuição CC-BY, para todo o conteúdo do periódico, exceto onde estiver identificado, que permite o compartilhamento do trabalho com reconhecimento da autoria e publicação inicial nesta revista, sem fins comerciais.
b) Os Autores têm autorização para distribuição não-exclusiva da versão do trabalho publicada nesta revista (ex.: publicar em repositório institucional ou como capítulo de livro), com reconhecimento de autoria e publicação inicial nesta revista.
c) Os Autores têm permissão e são estimulados a publicar e distribuir seu trabalho online (ex.: em repositórios institucionais ou na sua página pessoal) a qualquer ponto antes ou durante o processo editorial, já que isso pode gerar alterações produtivas, bem como aumentar o impacto e a citação do trabalho publicado (Veja O Efeito do Acesso Livre).
