RESUMO
Korba is a coastal region and the main production area for strawberries, tomatoes, and peppers in Tunisia. Due to the use of saline groundwater in irrigation, soil salinization increases in the area. Farmers are therefore forced to reduce the salinity in the soil by adopting a suitable water management strategy "blended water," with the appropriate irrigation system "drip irrigation," and new farming techniques "crop combinations and crop rotations" to achieve sustainability. Based on the electrical conductivity (EC) of the groundwater (5.05 dS/m) and freshwater (1.7 dS/m), in our pilot plot, we determine that the blended water used in irrigation must contain 28.55% of groundwater with 71.45% freshwater to have a 50%strawberry yield potential because strawberry is the most salt-sensitive crop produced in the region. The strawberry-pepper's combination is a way to improve farmers' incomes with a 200% intensification rate, taking advantage of the rains and the availability of surface water during the wet season. However, the soil salinity used to increase under these crops from 1.28 dS/m in November 2018 to 3.04 dS/m of soil EC in September 2019. This is beyond the strawberry salt tolerance threshold (1 dS/m). Even after planting summer crops, tomatoes, and peppers, the rate of evolution of soil salinity exceeds 200% (~ 4.5 dS/m) and 122% (~ 3 dS/m), respectively. Therefore, the rotation becomes necessary to reduce the soil salinity and thus prepare the soil for the next planting of tomatoes, peppers, and strawberry-pepper's combination. The introduction of rainfed crops or fallow in the agricultural rotation system helped farmers to reduce soil salinity with about 56% and 67.2% for crop rotations including summer crops and the strawberry-pepper's combination, respectively, with a return period of 1 year.
Assuntos
Irrigação Agrícola , Água Subterrânea , Salinidade , Estresse Salino , Solo , TunísiaRESUMO
Medicinal plants are known by pharmacological relevance and were used for long time to prevent/treat numerous gastrointestinal (GI) disorders. The current study focuses on the phytochemical/antioxidant characteristics of sage aqueous extract (SAE), as well as its pharmacological actions on altering motor function in the intestine and related disruptions. In vitro phytochemical/antioxidant properties were investigated by colorimetric/biochemical methods. Male rats were divided into seven groups of six animals in each: control (C), castor oil (CO), CO + loperamide (LOP, 10 mg/kg, b.w., p.o.), CO + various doses of SAE (50, 100, and 200 mg/kg, b.w., p.o.), and the mixture (MIX: SAE, 50 mg/kg, b.w., p.o. + LOP, 5 mg/kg, b.w., i.p.) group. In vivo GI/physiological/pharmacological actions of SAE were explored based on the watery/frequent stools, enteropooling, and GI transit time, as well as their associated disturbances. The aqueous extract of S. officinalis contains high tannins/flavonols/anthocyanin contents and a strong, free radical scavenging activity (EC50 = 48.56 ± 0.34 µg/mL). SAE/MIX significantly reduced CO-induced diarrhea in a dose-dependent manner. SAE/MIX decreased also the gastric and intestinal mucosal malondialdehyde/hydrogen peroxide levels and preserved the normal activities/levels of enzymatic/nonenzymatic antioxidants. Added to that, we showed that SAE/MIX pretreatment provided stability of lipid profile (cholesterol and triglycerides), hepatic transaminases, renal injury indicators, and C-reactive protein/alkaline phosphatase levels changed by CO intoxication. These findings suggested that SAE/MIX exerted benefic individual/synergistic effects confirming their use as a strategy in the treatment of GI physiological disorders.