A vegetal biopolymer-based biostimulant promoted root growth in melon while triggering brassinosteroids and stress-related compounds

Luigi Lucini, Youssef Rouphael, Mariateresa Cardarelli, Paolo Bonini, Claudio Baffi, Giuseppe Colla*

*Autore corrispondente per questo lavoro

Risultato della ricerca: Contributo in rivistaArticolo in rivistapeer review

42 Citazioni (Scopus)


Plant biostimulants are receiving great interest for boosting root growth during the first phenological stages of vegetable crops. The present study aimed at elucidating the morphological, physiological, and metabolomic changes occurring in greenhouse melon treated with the biopolymer-based biostimulant Quik-link, containing lateral root promoting peptides, and lignosulphonates. The vegetal-based biopolymer was applied at five rates (0, 0.06, 0.12, 0.24, or 0.48 mL plant–1) as substrate drench. The application of biopolymer-based biostimulant at 0.12 and 0.24 mL plant–1enhanced dry weight of melon leaves and total biomass by 30.5 and 27.7%, respectively, compared to biopolymer applications at 0.06 mL plant–1and untreated plants. The root dry biomass, total root length, and surface in biostimulant-treated plants were significantly higher at 0.24 mL plant–1and to a lesser extent at 0.12 and 0.48 mL plant–1, in comparison to 0.06 mL plant–1and untreated melon plants. A convoluted biochemical response to the biostimulant treatment was highlighted through UHPLC/QTOF-MS metabolomics, in which brassinosteroids and their interaction with other hormones appeared to play a pivotal role. Root metabolic profile was more markedly altered than leaves, following application of the biopolymer-based biostimulant. Brassinosteroids triggered in roots could have been involved in changes of root development observed after biostimulant application. These hormones, once transported to shoots, could have caused an hormonal imbalance. Indeed, the involvement of abscisic acid, cytokinins, and gibberellin related compounds was observed in leaves following root application of the biopolymer-based biostimulant. Nonetheless, the treatment triggered an accumulation of several metabolites involved in defense mechanisms against biotic and abiotic stresses, such as flavonoids, carotenoids, and glucosinolates, thus potentially improving resistance toward plant stresses.
Lingua originaleEnglish
pagine (da-a)472-472
Numero di pagine1
RivistaFrontiers in Plant Science
Stato di pubblicazionePubblicato - 2018


  • Biostimulants
  • Cucumis melo L
  • Hormone-like activity
  • Lignosulfonates
  • Metabolomics
  • Peptides
  • Plant Science


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