Salinity study of irrigation waters used in rice fields

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DOI:

https://doi.org/10.5965/223811712112022027

Keywords:

irrigated rice, leaf damage, eletric conductivity, estuary

Abstract

In Santa Catarina State, Brazil, rice is predominantly cultivated in irrigated systems, and irrigation water is generally collected directly from watercourses. Irrigated rice crops, which are sensitive to water salinity, form the basis of the economy of the Mampituba River Basin region, southern Brazil. This study aimed to assess salinity fluctuations in waters collected from the Mampituba River for irrigation of rice crops during the four seasons of the year. For salinity determination, water samples were collected from six sites along the river course, from the source to the mouth. Three subsamples were collected at each site, with a mean interval of 15 days between collections, beginning in May 2016 and ending in April 2017. Samples were evaluated for electrical conductivity (EC). Assessment of salinity damage was performed in seedlings of rice cultivars ‘IRGA 417’ and ‘EPAGRI 106’. When seedlings reached the S2 stage, they were transplanted into flooded soil at different saline concentrations. EC values ranged from 224 to 20,120 µS cm−1 over the experimental period, being higher at sites closer to the sea. The highest salinity values were recorded between November 2016 and January 2017. It was possible to observe an inverse relationship between rainfall and water salinity. Salinity causes damage to rice plants, particularly seedlings. Symptoms include leaf tip chlorosis, leaf curling, and necrosis of old leaves. It is important for rice farmers to understand salt wedge fluctuations within their estuary as well as variations in salinity levels at different sites and times of the year.

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References

ALTHOFF DA. 2002. Salinidade no Rio Araranguá versus arroz irrigado: problemas e alternativas. Revista Tecnologia e Ambiente 8: 83-92.

CARMONA FC et al. 2011. Salinidade da água e do solo e seus efeitos sobre o arroz irrigado no Rio Grande do Sul. Cachoeirinha: IRGA. 54p. (Boletim Técnico n°10).

COUCEIRO MAA et al. 2021. Modeling an arrested salt-wedge estuary subjected to variable river flow. Regional Studies In Marine Science 43: 1-12.

COUNCE P et al. 2000. A uniform, objective, and adaptative system for expressing rice development. Crop Science 40: 436-443.

D'AQUINO C de A et al. 2011. Caracterização oceanográfica e do transporte de sedimentos em suspensão no estuário do rio Mampituba, SC. Revista Brasileira de Geofísica 29: 217-230.

DENARDIN LG de O et al. 2018. Salt-affected soils of the coastal plains in Rio Grande do Sul, Brazil. Geoderma Regional 14: e00186.

GIEHL AL et al. 2021. Boletim Agropecuário n°96. Florianópolis: Epagri. 49p. (Documento n° 339).

KHARE T et al. 2015. Na+ and Cl− ions show additive effects under NaCl stress on induction of oxidative stress and the responsive antioxidative defense in rice. Protoplasma 252: 1149-1165.

KRISHNAMURTHY SL et al. 2016. Effect of salinity and use of stress indices of morphological and physiological traits at the seedling stage in rice. Indian Journal of Experimental Biology 54: 843-850.

MUKHOPADHYAY R et al. 2021. Soil salinity under climate change: challenges for sustainable agriculture and food security. Journal of Environmental Management 280: 111736.

PARAIZO EA et al. 2021. Tiamina como atenuador do estresse salino em sementes de arroz. Agronomic Crop Journal 30:123-135.

PARIHAR P et al. 2015. Effect of salinity stress on plants and its tolerance strategies: a review. Environmental Science and Pollution Research 22: 4056-4075.

SCHMIDT F & VIEIRA FILHO LO. 2017. Tolerância de cultivares de arroz da Epagri à salinidade da água de irrigação na fase vegetativa. Revista Agropecuária Catarinense 30: 89-95.

SILVA FAZ & AZEVEDO CAV. 2016. The Assistat Software Version 7.7 and its use in the analysis of experimental data. African Journal of Agricultural Research 11: 3733-3740.

SOSBAI. 2018. SOCIEDADE SUL- BRASILEIRA DE ARROZ IRRIGADO. Arroz Irrigado: Recomendações Técnicas da Pesquisa para o Sul do Brasil. 32.ed. Farroupilha: Pallotti.

TEDESCO MJ et al. 1995. Análises de solo, plantas e outros materiais. 1.ed. Porto Alegre: UFRGS.

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Published

2022-03-04

How to Cite

MARTINS JÚNIOR, Marcos Cardoso; POLETTO, Naracelis. Salinity study of irrigation waters used in rice fields. Revista de Ciências Agroveterinárias, Lages, v. 21, n. 1, p. 27–34, 2022. DOI: 10.5965/223811712112022027. Disponível em: https://revistas.udesc.br/index.php/agroveterinaria/article/view/21062. Acesso em: 17 jul. 2024.

Issue

Vol. 21 No. 1 (2022)

Section

Research Article - Science of Plants and Derived Products

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