Effects of Humic Substances and Mycorrhizal Fungi on Drought-Stressed Cactus: Focus on Growth, Physiology, and Biochemistry

Abstract: Utilizing water resources rationally has become critical due to the expected increase in water scarcity. Cacti are capable of surviving with minimal water requirements and in poor soils. Despite being highly drought-resistant, cacti still faces limitations in realizing its full potential under drought-stress conditions. To this end, we investigated the interactive effect of humic substances (Hs) and arbuscular mycorrhizal fungi (AMF) on cactus plants under drought stress. In the study, a cactus pot experiment … Show more

“…Figure 1 reveals a significant increase in total soluble sugar (TSS) and total acidity (TAC) accumulation in tomato fruits growing under DS conditions; however, protein content was reduced under the same conditions, in comparison with WW watered plants. Furthermore, AMF, C1, C2, AMF+C1, and AMF+C2 plants increased TSS accumulation (24,13,22,49, and 42%, respectively), TAC (6,11,16,9, and 15%, respectively) and protein content (49,69,81,87, and 65%, respectively), compared with control plants tested under DS conditions. In WW conditions, TSS and protein content increased substantially with the application of biostimulants, with a particularly marked increase recorded with AMF+C1 for TSS contents, and C1 for protein.…”

“…This is crucial for maintaining turgor pressure and metabolic activities in developing fruits, resulting in improved growth outcomes [ 51 , 52 ]. Furthermore, fungi contribute to the absorption and facilitation of nutrient uptake, particularly by enhancing the uptake of P in plants [ 24 ]. Phosphorus is vital for cellular energy transfer, photosynthesis, and the synthesis of nucleic acids, all of which contribute to increased fruit size and biomass [ 53 ].…”

“…Carotenoids and lycopene, known for their bright pigmentation in tomatoes, play an important role beyond aesthetic appearance [ 61 ]. Previous studies have shown that these compounds have strong antioxidant properties, effectively quenching singlet oxygen and various other volatile oxygen species, thus preventing potential damage to cellular components caused by water stress [ 24 , 63 , 64 ].…”

“…AMF regulate plant growth and development by forming extra-radical mycelium around the roots, which are inaccessible to roots or even root hairs, enabling the interchange of nutrients and water for carbon sources such as sugars and lipids [ 20 , 21 ]. Plants inoculated with AMF, such as Festuca ovina , Opuntia ficus-indica , and Zea mays , enhance plant growth and improve the absorption of nutrients, especially nitrogen (N) and phosphorus (P), demonstrating the usefulness of AMF to various plant species [ 22 , 23 , 24 ]. Recent research suggests that mycorrhizal fungi do more than just aid nutrient uptake.…”

“…Recent research suggests that mycorrhizal fungi do more than just aid nutrient uptake. They also play a major role in stimulating microbial and enzymatic activity, enhancing photosynthesis, and increasing water uptake and flexibility in the face of abiotic and biotic stresses, ultimately leading to increased yields [ 24 , 25 , 26 , 27 ].…”

Integration of Horse Manure Vermicompost Doses and Arbuscular Mycorrhizal Fungi to Improve Fruit Quality, and Soil Fertility in Tomato Field Facing Drought Stress

“…Figure 1 reveals a significant increase in total soluble sugar (TSS) and total acidity (TAC) accumulation in tomato fruits growing under DS conditions; however, protein content was reduced under the same conditions, in comparison with WW watered plants. Furthermore, AMF, C1, C2, AMF+C1, and AMF+C2 plants increased TSS accumulation (24,13,22,49, and 42%, respectively), TAC (6,11,16,9, and 15%, respectively) and protein content (49,69,81,87, and 65%, respectively), compared with control plants tested under DS conditions. In WW conditions, TSS and protein content increased substantially with the application of biostimulants, with a particularly marked increase recorded with AMF+C1 for TSS contents, and C1 for protein.…”

“…This is crucial for maintaining turgor pressure and metabolic activities in developing fruits, resulting in improved growth outcomes [ 51 , 52 ]. Furthermore, fungi contribute to the absorption and facilitation of nutrient uptake, particularly by enhancing the uptake of P in plants [ 24 ]. Phosphorus is vital for cellular energy transfer, photosynthesis, and the synthesis of nucleic acids, all of which contribute to increased fruit size and biomass [ 53 ].…”

“…Carotenoids and lycopene, known for their bright pigmentation in tomatoes, play an important role beyond aesthetic appearance [ 61 ]. Previous studies have shown that these compounds have strong antioxidant properties, effectively quenching singlet oxygen and various other volatile oxygen species, thus preventing potential damage to cellular components caused by water stress [ 24 , 63 , 64 ].…”

“…AMF regulate plant growth and development by forming extra-radical mycelium around the roots, which are inaccessible to roots or even root hairs, enabling the interchange of nutrients and water for carbon sources such as sugars and lipids [ 20 , 21 ]. Plants inoculated with AMF, such as Festuca ovina , Opuntia ficus-indica , and Zea mays , enhance plant growth and improve the absorption of nutrients, especially nitrogen (N) and phosphorus (P), demonstrating the usefulness of AMF to various plant species [ 22 , 23 , 24 ]. Recent research suggests that mycorrhizal fungi do more than just aid nutrient uptake.…”

“…Recent research suggests that mycorrhizal fungi do more than just aid nutrient uptake. They also play a major role in stimulating microbial and enzymatic activity, enhancing photosynthesis, and increasing water uptake and flexibility in the face of abiotic and biotic stresses, ultimately leading to increased yields [ 24 , 25 , 26 , 27 ].…”

Integration of Horse Manure Vermicompost Doses and Arbuscular Mycorrhizal Fungi to Improve Fruit Quality, and Soil Fertility in Tomato Field Facing Drought Stress

Effect of biostimulants on the chemical profile of food crops under normal and abiotic stress conditions