Table 2.
A summary of the biostimulatory actions of algal extracts application on morpho-anatomical, biochemical, and physiological performance of plants under salinity. APX: ascorbate peroxidase, CAT: catalase, GR: glutathione reductase, POD: peroxidase, SOD: superoxide dismutase.
| Algae Species | Plant Species | Described Tolerance Mechanisms | Ref. |
|---|---|---|---|
| Ascophyllum nodosum | Agrostis stolonifera | Increase of SOD activity and resistance to Sclerotinia homoeocarpa. | [110] |
| Ascophyllum nodosum | Amarantus tricolor | Increased growth parameters (stem length and diameter, root length, number of leaves, fresh and dry weight of leaves, stems and roots). | [111] |
| Ascophyllum nodosum | Arabidopsis thaliana | Increase of biomass and polyphenols content. | [112] |
| Ascophyllum nodosum | Asparagus aethiopicus | Increase of phenolics, chlorophylls, sugars, proline, anti-oxidant activities, gas exchanges. | [113] |
| Ascophyllum nodosum | Lactuca sativa | Increase of weight. | [114] |
| Ascophyllum nodosum | Paspalum vaginatum | Increase of ability of plants to maintain higher potassium to sodium ratios. | [115] |
| Ascophyllum nodosum | Passiflora edulis | Increase of the initial growth of the seedlings. | [116] |
| Ascophyllum nodosum | Persea americana | Increase of plant growth, potassium, and calcium in leaves. | [117] |
| Ascophyllum nodosum | Solanum lycopersicum | Increase of beneficial minerals, antioxidants, and essential amino acids. | [108] |
| Ascophyllum nodosum | Solanum melongena | Increase of phenols, tannins, total soluble sugars, activity of SOD and APX, and potassium to sodium ratio. | [118] |
| Codium taylorii or Pterocladia capillacea | Raphanus sativus | Seed priming induces the synthesis of stress proteins in seedlings under salinity. | [119] |
| Dunaliella salina | Solanum lycopersicum | Positive effects on length, dry weight, potassium, potassium to sodium ratio, increase of proline, phenolics, CAT, POD, and SOD activities. | [120] |
| Dunaliella salina | Triticum aestivum | Increase of seed germination and seedling growth. | [121] |
| Dunaliella spp. | Capsicum annuum | Increase of germination rate, root growth, and reduction of superoxide radical production and lipid peroxidation. | [122] |
| Ecklonia maxima | Cucurbita pepo | Increase of yield, shoot biomass, fruit dry matter, total soluble solid contents, chlorophyll content, and photosynthetic rate | [123] |
| Fucus spiralis | Triticum durum | Increase of seed germination, growth, and anti-oxidant enzyme activities. | [124] |
| Galaxaura obtusata | Triticum vulgare | Increase of SOD activity and shoot length. | [125] |
| Grateloupia filicina | Oriza sativa | Increase of proline, SOD, and POD activities, and alleviating salt stress during the seed germination stage. | [126] |
| Kappaphycus alverezii | Triticum durum | Increase of tolerance to salt and drought stress. | [36] |
| Laurencia obtusa | Triticum vulgare | Decrease of sodium uptake, increase of CAT and SOD activities, carbohydrates, shoot and root length. | [125] |
| Lessonia nigrescens | Triticum aestivum | Increase of growth, chlorophyll, and antioxidant activities, decrease of membrane lipid peroxidation, efflux and compartmentation of intracellular ion. | [109] |
| Padina pavonica | Triticum vulgare | Increase of CAT and SOD activities, carbohydrates, shoot, and root length. | [125] |
| Phaeodactylum spp. | Capsicum annuum | Increase of germination rate, root growth, and reduction of superoxide radical production and lipid peroxidation. | [122] |
| Sargassum muticum | Triticum vulgare | Increase of CAT and SOD activities, carbohydrates, shoot and root length. | [125] |
| Sargassum muticum Jania rubens | Cicer aretinum | Increase of photosynthetic pigments, soluble sugars, amino acids, phenolics, Na+ extrusion SOD, CAT, APX, and POD activity. | [127] |
| Scenedesmus obliquus Spirulina platensis | Triticum aestivum | Increase of activities of SOD, APX, CAT, and POD and chlorophyll and carotenoid content. | [128] |
| Spirulina maxima Chlorella ellipsoida | Triticum aestivum | Increase of carotenoids, tocopherol, phenolics, proteins, and antioxidant activity | [129] |
| Ulva lactuca | Triticum aestivum | Increase of plant growth and yield and antioxidant enzymes activity (SOD, CAT, APX and GR). | [35] |
| Ulva rigida | Triticum durum | Increase of leaf pigments, total phenolics, and antioxidant enzymatic activities. | [130] |