Potential of Brackish Groundwater for Different Biosaline Agriculture Systems in the Brazilian Semi-Arid Region

• Published in: Agriculture (Basel) Vol. 13; no. 3; p. 550
• Main Authors: Lessa, Carla Ingryd Nojosa, de Lacerda, Claudivan Feitosa, Cajazeiras, Cláudio Cesar de Aguiar, Neves, Antonia Leila Rocha, Lopes, Fernando Bezerra, Silva, Alexsandro Oliveira da, Sousa, Henderson Castelo, Gheyi, Hans Raj, Nogueira, Rafaela da Silva, Lima, Silvio Carlos Ribeiro Vieira, Costa, Raimundo Nonato Távora, Sousa, Geocleber Gomes de
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.03.2023
• Subjects: Agricultural industry; Agricultural practices; Agricultural production; Agriculture; Aquifers; Arid lands; Arid regions; Arid zones; biosalinity; Brackish water; cacti and succulents; Climate change; coconuts; Cocos nucifera; Corn; Cotton; Crop production; Crops; Discharge; drylands; Family farms; Farming systems; Farms; fish; forage; Groundwater; Halophytes; Hydroponics; Intercropping; Irrigation; Orchards; Plant production; Rain; Salinity; Salinity effects; Salinity tolerance; Salt; salt stress; Salt tolerance; Seedlings; Semi arid areas; Semiarid zones; shrimp; Sorghum; Supplemental irrigation; sustainability; Sustainable development; Tilapia; Water demand; Water requirements; Water resources; Water salinity; Water shortages; Water wells; Water yield; Water, Underground; Brazil
• ISSN: 2077-0472; 2077-0472
• DOI: 10.3390/agriculture13030550

The objective of this research was to define the potential of brackish groundwater for 15 systems of biosaline agriculture in a representative area of the Brazilian semi-arid region. The study was conducted using a database of the State of Ceará, with 6284 wells having brackish water (EC ≥ 0.8 dS m−1 and discharge rate ≥ 0.5 m3 h−1). Our results show that the potential of brackish groundwater resources depends on the set of data: (i) production system (crop salt tolerance and water demand) and (ii) water source (salinity and well discharge rate). The joint analysis of these data shows that plant production systems with lesser water requirements, even with moderate tolerance levels to salt stress, present better results than more tolerant species, including halophytes and coconut orchards. About 41, 43, 58, 69, and 82% of wells have enough discharge rates to irrigate forage cactus (1.0 ha), sorghum (1.0 ha with supplemental irrigation), hydroponic cultivation, cashew seedlings, and coconut seedlings, respectively, without restrictions in terms of salinity. Otherwise, 65.8 and 71.2% of wells do not have enough water yield to irrigate an area of 1.0 ha with halophytes and coconut palm trees, respectively, butmore than 98.3 and 90.7% do not reach the water salinity threshold for these crops. Our study also indicates the need for diversification and use of multiple systems on farms (intercropping, association of fish/shrimp with plants), to reach the sustainability of biosaline agriculture in tropical drylands, especially for family farming.