A Biostimulant Based on Seaweed (Ascophyllum nodosum and Laminaria digitata) and Yeast Extracts Mitigates Water Stress Effects on Tomato (Solanum lycopersicum L.)

Campobenedetto, Cristina; Agliassa, Chiara; Mannino, Giuseppe; Vigliante, Ivano; Contartese, Valeria; Secchi, Francesca; Bertea, Cinzia M.

doi:10.3390/agriculture11060557

Cited by 54 publications

(34 citation statements)

References 65 publications

(80 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These findings show that the plants primed with seaweed extracts were subjected to less stress than the control plants, resulting in healthy growth. The results of the current study are consistent with those of Almaroai and Eissa (2020) and Campobenedetto et al (2021). The fact that most of the plant's energy is directed to the biosynthetic route of macromolecules like carbohydrates and proteins may explain the lower proline accumulation in wheat seedlings.…”

Section: Discussionsupporting

confidence: 89%

Potential of Seaweed Extract on Growth, Physiological, Cytological and Biochemical Parameters of Wheat (Triticum aestivum L.) Seedlings

Hamouda

Saad‐Allah

Gad

2022

J Soil Sci Plant Nutr

View full text Add to dashboard Cite

Synthetic fertilizers are widely employed in agriculture relative to biofertilizers. Long-term use affects soil fertility, plant vigor, human and livestock health, and the soil microbial community. Seaweeds were employed as biofertilizers in sustainable agriculture to overcome this issue and boost the agricultural productivity. Therefore, the current study investigates the effect of wheat seeds priming with the aqueous extracts of Ulva linza or Corallina officinalis seaweeds at various concentrations (5, 10, 15, 20, and 30%). Wheat grains were primed with seaweed extracts and grown in petri dishes, and the germination rate, growth attributes, physiological parameters, cytological traits, and molecular analyses were evaluated. The physico-chemical characterization revealed that U. linza possessed higher levels of ash, soluble proteins, and sugars, as well as essential macronutrients and amino acids, than C. officinalis. Seedling growth parameters, physiological characteristics, and mitotic index all showed a substantial increase in low concentrations of both extracts when compared to the control. Higher concentrations, on the other hand, exhibited an inhibitory effect as well as certain chromosomal abnormalities. In the treated seedlings, new proteins were expressed, which could be owing to the activity of bioactive components in the extracts. As compared to untreated seedlings, PCR-RAPD analysis utilizing five markers revealed that both seaweed extracts triggered low and high molecular weight DNA fragments, as well as fragments specific to each extract. Seaweed extracts could be employed as an environmentally friendly and soil-safe alternative to typical chemical fertilizers.

show abstract

Section: Discussionsupporting

confidence: 89%

Potential of Seaweed Extract on Growth, Physiological, Cytological and Biochemical Parameters of Wheat (Triticum aestivum L.) Seedlings

Hamouda

Saad‐Allah

Gad

2022

J Soil Sci Plant Nutr

View full text Add to dashboard Cite

show abstract

“…Biostimulant application has been observed to either promote this antioxidant enzymatic activity as a response to the water-limited conditions ( Liu et al, 2013 ) or, even before the stress application, exerting a priming effect that restrains the negative effects of the incoming stress ( Goñi et al, 2016 ; Santaniello et al, 2017 ). In other cases, it can conversely slow down the activation of such metabolic pathways, compared to what happens in untreated plants, suggesting a process of adaptation to the drought stress due to the biostimulant treatment ( Murtic et al, 2019 ; Campobenedetto et al, 2021 ). Our results on the lower expression levels of SODCC.1 in water-stressed plants treated with the novel biostimulant, compared to plants treated with the standard CaCl2 fertilizer, are following these last observations.…”

Section: Discussionmentioning

confidence: 99%

Transcriptional and Physiological Analyses to Assess the Effects of a Novel Biostimulant in Tomato

Lucia

Baghdadi

Mangione³

et al. 2022

Front. Plant Sci.

View full text Add to dashboard Cite

This work aimed to study the effects in tomato (Solanum lycopersicum L.) of foliar applications of a novel calcium-based biostimulant (SOB01) using an omics approach involving transcriptomics and physiological profiling. A calcium-chloride fertilizer (SOB02) was used as a product reference standard. Plants were grown under well-watered (WW) and water stress (WS) conditions in a growth chamber. We firstly compared the transcriptome profile of treated and untreated tomato plants using the software RStudio. Totally, 968 and 1,657 differentially expressed genes (DEGs) (adj-p-value < 0.1 and |log2(fold change)| ≥ 1) were identified after SOB01 and SOB02 leaf treatments, respectively. Expression patterns of 9 DEGs involved in nutrient metabolism and osmotic stress tolerance were validated by real-time quantitative reverse transcription PCR (RT-qPCR) analysis. Principal component analysis (PCA) on RT-qPCR results highlighted that the gene expression profiles after SOB01 treatment in different water regimes were clustering together, suggesting that the expression pattern of the analyzed genes in well water and water stress plants was similar in the presence of SOB01 treatment. Physiological analyses demonstrated that the biostimulant application increased the photosynthetic rate and the chlorophyll content under water deficiency compared to the standard fertilizer and led to a higher yield in terms of fruit dry matter and a reduction in the number of cracked fruits. In conclusion, transcriptome and physiological profiling provided comprehensive information on the biostimulant effects highlighting that SOB01 applications improved the ability of the tomato plants to mitigate the negative effects of water stress.

show abstract

“…Among the biostimulating substances used in agriculture, there is a growing spread of products based on algae and yeast extracts, which have been found to have a biostimulating effect on various species. Algae extracts, even at low concentrations, are able to induce a series of physiological responses of the plant, such as increasing growth, flowering, yield, polyphenol content, shelf life, tolerance to abiotic stress of different origins (salinity, water stress, heat and frost) [14][15][16]. Considering the need of having high quality plant material for fresh-cut products and the high perishability of wild rocket, it is important to implement all the agronomic strategies that improve yield and qualitative characteristics together with an adequately long shelf life.…”

Section: Introductionmentioning

confidence: 99%

Effects of Nitrogen, Azoxystrobin and a Biostimulant Based on Brown Algae and Yeast on Wild Rocket Features at Harvest and During Storage

et al. 2021

View full text Add to dashboard Cite

Recently, the use of biostimulant substances of different origins has been affirmed. They act differently on the physiological processes of the plant, helping to improve its productive response and resistance to biotic and abiotic stress. Therefore, the response of the wild rocket to two substances known to have biostimulating activity (Azoxystrobin, and a fluid extract of brown algae and yeast), was evaluated. Two experimental trials (Exp 1 and Exp 2) were carried out in the greenhouse. The collected product, in addition to being evaluated from a qualitative point of view, was used for evaluation of shelf life. Exp 1 involved the comparison of two N levels with two Azoxystrobin levels (treated–Azo+, and untreated control). Exp 2 involved the comparison of two N levels, and two biostimulating substances based on Azoxystrobin (Azo+) and on fluid extracts of yeast and brown algae (YBA+), in addition to untreated control. A split-plot experimental design with three replications was used. Azo+ increased marketable yield of wild rocket by 16.8% and enhanced some qualitative features at harvest as the increase in chlorophyll (+17.8%) and carotenoids (+13.5%), and decrease in nitrates (−10.6%), regardless of the nitrogen level. Furthermore, Azo+ increased the shelf life (+2.5 days) of wild rocket stored at 3.5 °C. In particular, Azo+ slowed the loss of chlorophyll (yellowing) and the worsening of odor and visual appearance. As Azoxystrobin is a fungicide effective for the control of some diseases of wild rocket, its use should be promoted as it would offer not only the benefit of disease control but also improved production and shelf life. YBA+ caused an increase in the chlorophyll content (+12.5%) at harvest of wild rocket, but reduced its antioxidant activity (−40%). YBA+ did not cause substantial variations in shelf life with the exception of a slowdown in the degradation of carotenoids. Further research is desirable to evaluate other variables such as the dose and time of application.

show abstract

A Biostimulant Based on Seaweed (Ascophyllum nodosum and Laminaria digitata) and Yeast Extracts Mitigates Water Stress Effects on Tomato (Solanum lycopersicum L.)

Cited by 54 publications

References 65 publications

Potential of Seaweed Extract on Growth, Physiological, Cytological and Biochemical Parameters of Wheat (Triticum aestivum L.) Seedlings

Potential of Seaweed Extract on Growth, Physiological, Cytological and Biochemical Parameters of Wheat (Triticum aestivum L.) Seedlings

Transcriptional and Physiological Analyses to Assess the Effects of a Novel Biostimulant in Tomato

Effects of Nitrogen, Azoxystrobin and a Biostimulant Based on Brown Algae and Yeast on Wild Rocket Features at Harvest and During Storage

Contact Info

Product

Resources

About