Unravelling the nexus of plant response to non-microbial biostimulants under stress conditions

•An overview on the physiological and molecular mechanisms of biostimulants application on horticultural and agronomic crops is given.•Application of protein hydrolysates, seaweed extracts, humic acids and silicon can boost tolerance to abiotic stresses.•A systematic molecular characterization of th...

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Published inPlant stress (Amsterdam) Vol. 11; p. 100421
Main Authors Ciriello, Michele, Fusco, Giovanna Marta, Woodrow, Pasqualina, Carillo, Petronia, Rouphael, Youssef
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2024
Elsevier
Subjects
Abiotic stress
Peptides
Physiological and molecular mechanisms
Signaling molecules, primary metabolism
Sustainable agriculture
Sustainable agriculture
Physiological and molecular mechanisms
Signaling molecules, primary metabolism
Peptides
Abiotic stress
Online AccessGet full text

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Abstract •An overview on the physiological and molecular mechanisms of biostimulants application on horticultural and agronomic crops is given.•Application of protein hydrolysates, seaweed extracts, humic acids and silicon can boost tolerance to abiotic stresses.•A systematic molecular characterization of the different biostimulants becomes essential to develop a second generation of biostimulants.•The review article identifies several potential research to exploit the biostimulants benefits in agriculture. Contemporary challenges facing the agricultural sector have garnered the interest of all stakeholders on the novel toolset of biostimulants. These products could serve as pivotal actors in the forthcoming transition toward ever more essential sustainable production practices. Regardless of their type, biostimulants have the potential to enhance resource efficiency while concurrently fortifying plant resilience to adverse abiotic stress factors. Recent research advances have fundamentally focused on assessing quantifiable parameters, largely overlooking the numerous and intricate biochemical, cellular, and metabolic interactions between plants and biostimulants. It is consequently not surprising that, to date, the mechanisms of action and basic biochemical processes underlying biostimulants’ effects on plants remain enigmatic. Concerning non-microbial biostimulants, which are the subject of in-depth exploration in this review, their inherently diverse nature, comprising formulations containing a plethora of distinct bioactive molecules, significantly complicates the investigation of mechanisms implicated in their mode of action. It is for this reason that we have rather elected to meticulously examine the effects, particularly in suboptimal environments, of a) protein hydrolysates; b) algal extracts; c) humic acids; and d) silicon. The objective of this analysis is to gain a comprehensive understanding of how these substances operate within plants by interpreting both their genetic and metabolic impacts. Comprehensive understanding of these effects could substantially underpin the reliability of these agents and usher to the identification of ever more effective formulations.
AbstractList Contemporary challenges facing the agricultural sector have garnered the interest of all stakeholders on the novel toolset of biostimulants. These products could serve as pivotal actors in the forthcoming transition toward ever more essential sustainable production practices. Regardless of their type, biostimulants have the potential to enhance resource efficiency while concurrently fortifying plant resilience to adverse abiotic stress factors. Recent research advances have fundamentally focused on assessing quantifiable parameters, largely overlooking the numerous and intricate biochemical, cellular, and metabolic interactions between plants and biostimulants. It is consequently not surprising that, to date, the mechanisms of action and basic biochemical processes underlying biostimulants’ effects on plants remain enigmatic. Concerning non-microbial biostimulants, which are the subject of in-depth exploration in this review, their inherently diverse nature, comprising formulations containing a plethora of distinct bioactive molecules, significantly complicates the investigation of mechanisms implicated in their mode of action. It is for this reason that we have rather elected to meticulously examine the effects, particularly in suboptimal environments, of a) protein hydrolysates; b) algal extracts; c) humic acids; and d) silicon. The objective of this analysis is to gain a comprehensive understanding of how these substances operate within plants by interpreting both their genetic and metabolic impacts. Comprehensive understanding of these effects could substantially underpin the reliability of these agents and usher to the identification of ever more effective formulations.
•An overview on the physiological and molecular mechanisms of biostimulants application on horticultural and agronomic crops is given.•Application of protein hydrolysates, seaweed extracts, humic acids and silicon can boost tolerance to abiotic stresses.•A systematic molecular characterization of the different biostimulants becomes essential to develop a second generation of biostimulants.•The review article identifies several potential research to exploit the biostimulants benefits in agriculture. Contemporary challenges facing the agricultural sector have garnered the interest of all stakeholders on the novel toolset of biostimulants. These products could serve as pivotal actors in the forthcoming transition toward ever more essential sustainable production practices. Regardless of their type, biostimulants have the potential to enhance resource efficiency while concurrently fortifying plant resilience to adverse abiotic stress factors. Recent research advances have fundamentally focused on assessing quantifiable parameters, largely overlooking the numerous and intricate biochemical, cellular, and metabolic interactions between plants and biostimulants. It is consequently not surprising that, to date, the mechanisms of action and basic biochemical processes underlying biostimulants’ effects on plants remain enigmatic. Concerning non-microbial biostimulants, which are the subject of in-depth exploration in this review, their inherently diverse nature, comprising formulations containing a plethora of distinct bioactive molecules, significantly complicates the investigation of mechanisms implicated in their mode of action. It is for this reason that we have rather elected to meticulously examine the effects, particularly in suboptimal environments, of a) protein hydrolysates; b) algal extracts; c) humic acids; and d) silicon. The objective of this analysis is to gain a comprehensive understanding of how these substances operate within plants by interpreting both their genetic and metabolic impacts. Comprehensive understanding of these effects could substantially underpin the reliability of these agents and usher to the identification of ever more effective formulations.
ArticleNumber 100421
Author Rouphael, Youssef
Ciriello, Michele
Woodrow, Pasqualina
Fusco, Giovanna Marta
Carillo, Petronia
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  fullname: Rouphael, Youssef
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  organization: Department of Agricultural Sciences, University of Naples Federico II, 80055 Portici, Italy
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CitedBy_id crossref_primary_10_1080_19315260_2025_2469269
crossref_primary_10_3390_agriculture14060808
crossref_primary_10_1016_j_cpb_2024_100410
crossref_primary_10_3390_plants13101404
crossref_primary_10_1007_s11104_025_07202_2
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Keywords Sustainable agriculture
Physiological and molecular mechanisms
Signaling molecules, primary metabolism
Peptides
Abiotic stress
Language English
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Snippet •An overview on the physiological and molecular mechanisms of biostimulants application on horticultural and agronomic crops is given.•Application of protein...
Contemporary challenges facing the agricultural sector have garnered the interest of all stakeholders on the novel toolset of biostimulants. These products...
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SubjectTerms Abiotic stress
Peptides
Physiological and molecular mechanisms
Signaling molecules, primary metabolism
Sustainable agriculture
Title Unravelling the nexus of plant response to non-microbial biostimulants under stress conditions
URI https://dx.doi.org/10.1016/j.stress.2024.100421
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